Divers Broyeurs à rotor / à marteaux

 
 

AUTRES GROUPES DE PRODUITS

 
 

Variable Speed Rotor Mill

PULVERISETTE 14

Référence
14.
Détails du produit
Accessoires

TEST

Accessories for use as Variable Speed Rotor Mill

Aide à la sélection
 
  • Rotors à impact et ailettes de refroidissement

    de taille initiale < 15 mm Rotor à impact à 6 dents
    de taille initiale < 10 mm Rotor à impact à 12 dents
    de taille initiale < 5 mm Rotor à impact à 24 dents
  • Tamis annulaires

    Broyage rapide de matériaux de dureté moyenne ou mous Tamis annulaire à perforation trapézoïdale
    pour effet de cisaillement
    Broyage rapide de matériaux cassantes pour obtenir des finesses moyennes Tamis annulaire à perforation carrée
    pour un plus grand débit et moins de résidus d'échantillon grâce à la surface de tamisage plus grande et ouverte

    Tamis annulaire à perforation ronde
    pour une gamme étroite de tailles de particules
  • Récipient collecteur pour Broyeur rapide à rotor premium line

    Applicatons Récipient collecteur
    Pour les applications standards récipient collecteur avec tube de sortie, couvercle en acier inoxydable et disque labyrinthe en aluminium pour raccord aux cyclones FRITSCH
    Référence 14.6315.00
    récipient collecteur avec couvercle en acier inoxydable et disque labyrinthe en aluminium
    Référence 14.6310.00
    Pour l’analyse dans l’industrie agroalimentaire et l’industrie pharmaceutique et pour la préparation d’échantillons qui confère une grande importance à la résistance à la corrosion, aux liquides alcalins et aux acides récipient collecteur avec tube de sortie, couvercle et disque labyrinthe en acier inoxydable 316L, pour raccord aux cyclones FRITSCH
    Référence 14.6385.00
    récipient collecteur avec couvercle et disque labyrinthe en acier inoxydable 316L
    Référence 14.6380.00
    Pour de broyage sans fer ni métaux lourds et préparation d’échantillons conformément à la directive RoHS récipient collecteur avec tube de sortie avec revêtement PTFE, couvercle en titane pur et disque de labyrinthe en aluminium pour raccord au cyclone de petites quantités
    Référence 14.6415.00
    récipient collecteur avec revêtement PTFE avec couvercle en titane pur et disque labyrinthe en aluminium
    Référence 14.6410.00
    Pour échantillons difficiles à broyer et sensibles à la température récipient collecteur avec tube de sortie, couvercle en acier inoxydable et disque labyrinthe en aluminium pour raccord aux cyclones FRITSCH
    Référence 14.6315.00
    récipient collecteur avec couvercle en acier inoxydable et disque labyrinthe en aluminium
    Référence 14.6310.00

For standard applications choose the extremely durable, low-wear impact rotor with 6, 12 or 24 ribs with cooling fins made of stainless steel, as well as sieve rings with trapezoidal or square and round perforation from 0.08 mm to 6 mm with reinforced edges made of stainless steel 316L for the desired final fineness.
For grinding in the analytical sector, food and pharmaceutical industry please choose select grinding tools made of stainless steel 316L.
For heavy-metal- and iron-free grinding and sample preparation according to RoHS please select impact rotor and sieve ring made of pure titanium.
Difficult-to-mill or temperature-sensitive samples and plastics please select the impact bar.

SELECT ACCESSORIES

Accessories for standard applications with the impact rotor and sieve rings

Collecting vessel

Collecting vessel with outlet and lid made of stainless steel and labyrinth disk made of aluminium
N° 14.6315.00
Collecting vessel with outlet and lid made of stainless steel and labyrinth disk made of aluminium

Collecting vessel with outlet and lid made of stainless steel and labyrinth disk made of aluminium for connecting to FRITSCH Cyclone separators. This collecting vessel with outlet should be used for all standard applications with the impact rotor and sieve ring in combination with the FRITSCH Cyclone separators or for grinding large quantities.
This collecting vessel can also be used for difficult-to-mill and temperature sensitive samples.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel
General specifications
Material

Stainless steel – 1.4404/ 316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density7.8 g/cm³
Hardness95 HRB



2. Lid
General specifications
MaterialStainless steel – 1.4305
ISO/EN/DIN codeX10CrNiS18-9 / X8CrNiS18-9
Chemical composition
ElementShare %
Iron – Fe70.6 – 66.4
Carbon – C0.10
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.15 – 0.35
Chromium – Cr17 – 19
Nickel – Ni8 – 10
Copper – Cu 1.00
Nitrogen – N 0.11
Physical and mechanical properties
Density7.8 g/cm³
Hardnessapprox. 60 HRB


3. Labyrinth Disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


Explanations on hardness data
Collecting vessel with lid made of stainless steel and labyrinth disk made of aluminium
N° 14.6310.00
Collecting vessel with lid made of stainless steel and labyrinth disk made of aluminium

Collecting vessel with lid made of stainless steel and labyrinth disk made of aluminium for batchwise comminution of easy-to-grind materials. This collecting vessel should be used for all standard applications with the impact rotor and sieve ring.
This collecting vessel can also be used for difficult-to-mill and temperature sensitive samples.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel
General specifications
Material

Stainless steel – 1.4404/ 316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density7.8 g/cm³
Hardness95 HRB



2. Lid
General specifications
MaterialStainless steel – 1.4305
ISO/EN/DIN codeX10CrNiS18-9 / X8CrNiS18-9
Chemical composition
ElementShare %
Iron – Fe70.6 – 66.4
Carbon – C0.10
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.15 – 0.35
Chromium – Cr17 – 19
Nickel – Ni8 – 10
Copper – Cu 1.00
Nitrogen – N 0.11
Physical and mechanical properties
Density7.8 g/cm³
Hardnessapprox. 60 HRB


3. Labyrinth Disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


Explanations on hardness data

IMPACT ROTOR with cooling fins MADE OF STAINLESS STEEL

with 6 ribs
N° 14.4330.10
Impact rotor with cooling fins made of stainless steel with 6 ribs

The 6-ribs impact rotor with cooling fins is suitable for fast comminution of fibrous substances with a feed size of < 15 mm.
Impact rotors are also available made of stainless steel 316L and pure titanium.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4057
ISO/EN/DIN codeX17CrNi16-2
AISI code431
Chemical composition
ElementShare %
Iron – Fe77.7–80.8
Carbon – C0.12–0.22
Silicon – Si≤ 1.0
Manganese – Mn≤ 1.5
Chromium – Cr15–17
Nickel – Ni1.5–2.5
Phosphorus – P≤ 0.04
Sulphur – S0.015
Physical and mechanical properties
Density7.7g/cm³
Hardness295 HB


Explanations on hardness data
with 12 ribs
N° 14.4334.10
Impact rotor with cooling fins made of stainless steel with 12 ribs

The 12-ribs impact rotor with cooling fins is suitable for the grinding of materials with feed size < 10 mm.
Impact rotors are also available made of stainless steel 316L and pure titanium.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4057
ISO/EN/DIN codeX17CrNi16-2
AISI code431
Chemical composition
ElementShare %
Iron – Fe77.7–80.8
Carbon – C0.12–0.22
Silicon – Si≤ 1.0
Manganese – Mn≤ 1.5
Chromium – Cr15–17
Nickel – Ni1.5–2.5
Phosphorus – P≤ 0.04
Sulphur – S0.015
Physical and mechanical properties
Density7.7g/cm³
Hardness295 HB


Explanations on hardness data
with 24 ribs
N° 14.4337.10
Impact rotor with cooling fins made of stainless steel with 24ribs

The 24-ribs impact rotor with cooling fins is suitable for the grinding of fine materials with a feed size of < 5 mm.
Impact rotors are also available made of stainless steel 316L and pure titanium.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4057
ISO/EN/DIN codeX17CrNi16-2
AISI code431
Chemical composition
ElementShare %
Iron – Fe77.7–80.8
Carbon – C0.12–0.22
Silicon – Si≤ 1.0
Manganese – Mn≤ 1.5
Chromium – Cr15–17
Nickel – Ni1.5–2.5
Phosphorus – P≤ 0.04
Sulphur – S0.015
Physical and mechanical properties
Density7.7g/cm³
Hardness295 HB


Explanations on hardness data

Sieve rings with reinforced edges made of stainless steel 316L

0.08 mm trapezoidal perforation
N° 14.4341.00
Sieve ring 0.08 mm trapezoidal perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.12 mm trapezoidal perforation
N° 14.4342.00
Sieve ring 0.12 mm trapezoidal perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.2 mm trapezoidal perforation
N° 14.4343.00
Sieve ring 0.2 mm trapezoidal perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.5 mm trapezoidal perforation
N° 14.4344.00
Sieve ring 0.5 mm trapezoidal perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.75 mm trapezoidal perforation
N° 14.4345.00
Sieve ring 0.75 mm trapezoidal perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1 mm trapezoidal perforation
N° 14.4346.00
Sieve ring 1 mm trapezoidal perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1.5 mm trapezoidal perforation
N° 14.4347.00
Sieve ring 1.5 mm trapezoidal perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
2 mm trapezoidal perforation
N° 14.4348.00
Sieve ring 2 mm trapezoidal perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
2 mm square perforation
N° 14.4355.00
Sieve ring 2 mm square perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with square and round perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


4 mm square perforation
N° 14.4357.00
Sieve ring 4 mm square perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with square and round perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
6 mm square perforation
N° 14.4359.00
Sieve ring 6 mm square perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with square and round perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1 mm round perforation
N° 14.4360.00
Sieve ring 1 mm round perforation, made of stainless steel 316

Sieve rings determine the final fineness of the sample.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
2 mm round perforation
N° 14.4361.00
Sievering 2 mm round perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
4 mm round perforation
N° 14.4362.00
Sieve ring 4 mm round perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
6 mm round perforation
N° 14.4363.00
Sieve ring 6 mm round perforation, made of stainless steel 316L

Sieve rings determine the final fineness of the sample.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data

Accessories for grinding in the analytical sector, for food and pharmaceutical industry and for sample preparation with special focus on increased resistance to corrosion, alkalis and acids

Collecting Vessels

Collecting vessel with outlet and lid and labyrinth disk made of stainless steel 316L
N° 14.6385.00
Collecting vessel with outlet and lid and labyrinth disk made of stainless steel 316L

Collecting vessel with outlet and lid and labyrinth disk made of stainless steel 316L for connecting to FRITSCH Cyclone separators.
This collecting vessel with outlet should be used for grinding in the analytical sector, for food and pharmaceutical industry and for sample preparation with special focus on increased resistance to corrosion, alkalis and acid, with the impact rotor and sieve ring in combination with the FRITSCH Cyclone separators or for grinding large quantities.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
Collecting vessel with lid and labyrinth disk made of stainless steel 316L
N° 14.6380.00
Collecting vessel with lid and labyrinth disk made of stainless steel 316L

Collecting vessel with lid and labyrinth disk made of stainless steel 316L for batchwise comminution of easy-to-grind materials. 
This collecting vessel should be used for grinding in the analytical sector, for food and pharmaceutical industry and for sample preparation with special focus on increased resistance to corrosion, alkalis and acids with the impact rotor and sieve ring.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data

Impact rotor made of stainless steel 316L

Impact rotor with 12 ribs and cooling fins, stainless steel 316L
N° 14.4335.10

Impact rotor with 12 ribs and cooling fins, stainless steel 316L - for the Variable Speed Rotor Mill PULVERISETTE 14 premium line
This impact rotor with 12 ribs and cooling fins made of stainless steel 316L is ideal for grinding in the analytical sector, for food and pharmaceutical industry and for sample preparation with special focus on increased resistance to corrosion, alkalis and acids.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data

Accessories for heavy-metal and iron-free grinding and sample preparation according to RoHS

Collecting Vessels

Collecting vessel with outlet PTFE-coated and lid made of pure titanium and labyrinth disk made of aluminium
N° 14.6415.00
Collecting vessel with outlet PTFE-coated and lid made of pure titanium and labyrinth disk made of aluminium

Collecting vessel with outlet PTFE-coated and lid made of pure titanium and labyrinth disk made of aluminium for connecting to FRITSCH small volume Cyclone separator.
This collecting vessel with outlet should be used for heavy-metal- and iron-free grinding and sample preparation according to RoHS, with the impact rotor and sieve ring in combination with the FRITSCH small volume Cyclone separator.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel - PTFE-coated
General specifications
Material PTFE
CAS Number9002-84-0
Chemical composition
ElementFormula
PolytetrafluoroethyleneC 2F4
Melting point327° C
Max. application temp. constant260° C
Max. application temp. briefly300° C


Physical and mechanical properties
Density2.16 g /cm³
Ball pressure hardness ISO 868, ISO 2039-2, D 55 Shore
2. Lid
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


3. Labyrinth disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


Explanations on hardness data
Collecting vessel PTFE-coated with lid made of pure titanium and labyrinth disk made of aluminium
N° 14.6410.00
Collecting vessel PTFE-coated with lid made of pure titanium and labyrinth disk made of aluminium

Collecting vessel PTFE-coated with lid made of pure titanium and labyrinth disk made of aluminium for batchwise comminution of easy-to-grind materials.
This collecting vessel should be used for heavy-metal- and iron-free grinding and sample preparation according to RoHS, with the cutting rotor and sieve shells.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel - PTFE-coated
General specifications
Material PTFE
CAS Number9002-84-0
Chemical composition
ElementFormula
PolytetrafluoroethyleneC 2F4
Melting point327° C
Max. application temp. constant260° C
Max. application temp. briefly300° C


Physical and mechanical properties
Density2.16 g /cm³
Ball pressure hardness ISO 868, ISO 2039-2, D 55 Shore
2. Lid
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


3. Labyrinth disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


Explanations on hardness data

IMPACT ROTORs with cooling fins MADE OF pure titanium

Impact rotor with 6 ribs and cooling fins, pure titanium
N° 14.4430.32
Impact rotor with 6 ribs and cooling fins, pure titanium

Impact rotor with 6 ribs and cooling fins, pure titanium, fast comminution of fibrous substances - feed size < 15 mm
Additionally, the following rotors are also available:
Impact rotor with 12 ribs and cooling fins, pure titanium, grinding of materials - feed size < 10 mm
Impact rotor with 24 ribs and cooling fins, pure titanium, grinding fine materials - feed size < 5 mm


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data
Impact rotor with 12 ribs and cooling fins, pure titanium
N° 14.4434.32
Impact rotor with 12 ribs and cooling fins, pure titanium

Impact rotor with 12 ribs and cooling fins, pure titanium, grinding of materials - feed size < 10 mm
Additionally, the following rotors are also available:
Impact rotor with 6 ribs and cooling fins, pure titanium, fast comminution of fibrous substances - feed size < 15 mm
Impact rotor with 24 ribs and cooling fins, pure titanium,  grinding fine materials - feed size < 5 mm


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data
Impact rotor with 24 ribs and cooling fins, pure titanium
N° 14.4437.32
Impact rotor with 24 ribs and cooling fins, pure titanium

Impact rotor with 24 ribs and cooling fins, pure titanium, for grinding fine materials - feed size < 5 mm Additionally, the following rotors are also available:
Impact rotor with 6 ribs and cooling fins, pure titanium,  fast comminution of fibrous substances - feed size < 15 mm
Impact rotor with 12 ribs and cooling fins, pure titanium, grinding of materials - feed size < 10 mm


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data

Sieve rings with reinforced edges made of pure titanium

0.08 mm trapezoidal perforation
N° 14.4441.32
Sieve ring 0.08 mm trapezoidal perforation, made of pure titanium

Sieve rings determine the final fineness of the sample.
Sieve rings with reinforced edges and trapezoidal perforation are perfect for fast comminution of medium-hard to soft materials, the trapezoidal perforation provides additional shearing effects. 
Sieve rings are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data
0.12 mm trapezoidal perforation
N° 14.4442.32
Sieve ring 0.12 mm trapezoidal perforation, with reinforced edges, pure titanium

Sieve rings determine the final fineness of the sample.
Sieve rings with reinforced edges and trapezoidal perforation are perfect for fast comminution of medium-hard to soft materials, the trapezoidal perforation provides additional shearing effects.
Sieve rings are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data
0.5 mm trapezoidal perforation
N° 14.4444.32
sieve ring 0.5 mm trapezoidal perforation, pure titanium with reinforced edges

Sieve rings determine the final fineness of the sample.
Sieve rings with reinforced edges and trapezoidal perforation are perfect for fast comminution of medium-hard to soft materials, the trapezoidal perforation provides additional shearing effects.
Sieve rings are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data
0.75 mm trapezoidal perforation
N° 14.4445.32
sieve ring 0.75 mm trapezoidal perforation, pure titanium with reinforced edges

Sieve rings determine the final fineness of the sample.
Sieve rings with reinforced edges and trapezoidal perforation are perfect for fast comminution of medium-hard to soft materials, the trapezoidal perforation provides additional shearing effects.
Sieve rings are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data
1 mm trapezoidal perforation
N° 14.4446.32
sieve ring 1 mm trapezoidal perforation, pure titanium with reinforced edges

Sieve rings determine the final fineness of the sample.
Sieve rings with reinforced edges and trapezoidal perforation are perfect for fast comminution of medium-hard to soft materials, the trapezoidal perforation provides additional shearing effects.
Sieve rings are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data
1.5 mm trapezoidal perforation
N° 14.4447.32
sieve ring 1.5 mm trapezoidal perforation, pure titanium with reinforced edges

Sieve rings determine the final fineness of the sample.
Sieve rings with reinforced edges and trapezoidal perforation are perfect for fast comminution of medium-hard to soft materials, the trapezoidal perforation provides additional shearing effects.
Sieve rings are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data
2 mm trapezoidal perforation
N° 14.4448.32
sieve ring 2 mm trapezoidal perforation, pure titanium with reinforced edges

Sieve rings determine the final fineness of the sample.
Sieve rings with reinforced edges and trapezoidal perforation are perfect for fast comminution of medium-hard to soft materials, the trapezoidal perforation provides additional shearing effects.
Sieve rings are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data

ACCESSORIES FOR DIFFICULT-TO-MILL AND TEMPERATURE-SENSITIVE SAMPLES

Collecting vessels

Collecting vessel with outlet and lid made of stainless steel and labyrinth disk made of aluminium
N° 14.6315.00
Collecting vessel with outlet and lid made of stainless steel and labyrinth disk made of aluminium

Collecting vessel with outlet and lid made of stainless steel and labyrinth disk made of aluminium for connecting to FRITSCH Cyclone separators. This collecting vessel with outlet should be used for all standard applications with the impact rotor and sieve ring in combination with the FRITSCH Cyclone separators or for grinding large quantities.
This collecting vessel can also be used for difficult-to-mill and temperature sensitive samples.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel
General specifications
Material

Stainless steel – 1.4404/ 316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density7.8 g/cm³
Hardness95 HRB



2. Lid
General specifications
MaterialStainless steel – 1.4305
ISO/EN/DIN codeX10CrNiS18-9 / X8CrNiS18-9
Chemical composition
ElementShare %
Iron – Fe70.6 – 66.4
Carbon – C0.10
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.15 – 0.35
Chromium – Cr17 – 19
Nickel – Ni8 – 10
Copper – Cu 1.00
Nitrogen – N 0.11
Physical and mechanical properties
Density7.8 g/cm³
Hardnessapprox. 60 HRB


3. Labyrinth Disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


Explanations on hardness data
Collecting vessel with lid made of stainless steel and labyrinth disk made of aluminium
N° 14.6310.00
Collecting vessel with lid made of stainless steel and labyrinth disk made of aluminium

Collecting vessel with lid made of stainless steel and labyrinth disk made of aluminium for batchwise comminution of easy-to-grind materials. This collecting vessel should be used for all standard applications with the impact rotor and sieve ring.
This collecting vessel can also be used for difficult-to-mill and temperature sensitive samples.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel
General specifications
Material

Stainless steel – 1.4404/ 316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density7.8 g/cm³
Hardness95 HRB



2. Lid
General specifications
MaterialStainless steel – 1.4305
ISO/EN/DIN codeX10CrNiS18-9 / X8CrNiS18-9
Chemical composition
ElementShare %
Iron – Fe70.6 – 66.4
Carbon – C0.10
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.15 – 0.35
Chromium – Cr17 – 19
Nickel – Ni8 – 10
Copper – Cu 1.00
Nitrogen – N 0.11
Physical and mechanical properties
Density7.8 g/cm³
Hardnessapprox. 60 HRB


3. Labyrinth Disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


Explanations on hardness data

Impact bar

impact bar
N° 14.4470.00
impact bar for difficult-to-mill and temperature-sensitive samples

The FRITSCH impact bar is ideal for very gentle and fast grinding of especially heat-sensitive materials such as powder coatings or plastics as well as for the smooth pre-crushing and fine comminution of hard-brittle to soft, fatty or samples with residual moisture. The corresponding impact rotor and a special sieve ring for the impact bar must be ordered separately.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4057
ISO/EN/DIN codeX17CrNi16-2
AISI code431
Chemical composition
ElementShare %
Iron – Fe77.7–80.8
Carbon – C0.12–0.22
Silicon – Si≤ 1.0
Manganese – Mn≤ 1.5
Chromium – Cr15–17
Nickel – Ni1.5–2.5
Phosphorus – P≤ 0.04
Sulphur – S0.015
Physical and mechanical properties
Density7.7g/cm³
Hardness295 HB


Explanations on hardness data

Impact rotors with cooling fins made of stainlesss steel

with 6 ribs
N° 14.4330.10
Impact rotor with cooling fins made of stainless steel with 6 ribs

The 6-ribs impact rotor with cooling fins is suitable for fast comminution of fibrous substances with a feed size of < 15 mm.
Impact rotors are also available made of stainless steel 316L and pure titanium.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4057
ISO/EN/DIN codeX17CrNi16-2
AISI code431
Chemical composition
ElementShare %
Iron – Fe77.7–80.8
Carbon – C0.12–0.22
Silicon – Si≤ 1.0
Manganese – Mn≤ 1.5
Chromium – Cr15–17
Nickel – Ni1.5–2.5
Phosphorus – P≤ 0.04
Sulphur – S0.015
Physical and mechanical properties
Density7.7g/cm³
Hardness295 HB


Explanations on hardness data
with 12 ribs
N° 14.4334.10
Impact rotor with cooling fins made of stainless steel with 12 ribs

The 12-ribs impact rotor with cooling fins is suitable for the grinding of materials with feed size < 10 mm.
Impact rotors are also available made of stainless steel 316L and pure titanium.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4057
ISO/EN/DIN codeX17CrNi16-2
AISI code431
Chemical composition
ElementShare %
Iron – Fe77.7–80.8
Carbon – C0.12–0.22
Silicon – Si≤ 1.0
Manganese – Mn≤ 1.5
Chromium – Cr15–17
Nickel – Ni1.5–2.5
Phosphorus – P≤ 0.04
Sulphur – S0.015
Physical and mechanical properties
Density7.7g/cm³
Hardness295 HB


Explanations on hardness data
with 24 ribs
N° 14.4337.10
Impact rotor with cooling fins made of stainless steel with 24ribs

The 24-ribs impact rotor with cooling fins is suitable for the grinding of fine materials with a feed size of < 5 mm.
Impact rotors are also available made of stainless steel 316L and pure titanium.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4057
ISO/EN/DIN codeX17CrNi16-2
AISI code431
Chemical composition
ElementShare %
Iron – Fe77.7–80.8
Carbon – C0.12–0.22
Silicon – Si≤ 1.0
Manganese – Mn≤ 1.5
Chromium – Cr15–17
Nickel – Ni1.5–2.5
Phosphorus – P≤ 0.04
Sulphur – S0.015
Physical and mechanical properties
Density7.7g/cm³
Hardness295 HB


Explanations on hardness data

Sieve rings for impact bar made of stainless steel 316L

0.08 mm trapezoidal perforation
N° 14.4481.10
sieve ring 0.08 mm trapezoidal perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.12 mm trapezoidal perforation
N° 14.4482.10
sieve ring 0.12 mm trapezoidal perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.2 mm trapezoidal perforation
N° 14.4483.10
sieve ring 0.2 mm trapezoidal perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.5 mm trapezoidal perforation
N° 14.4484.10
sieve ring 0.5 mm trapezoidal perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.75 mm trapezoidal perforation
N° 14.4485.10
sieve ring 0.75 mm trapezoidal perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1 mm trapezoidal perforation
N° 14.4486.10
sieve ring 1 mm trapezoidal perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1.5 mm trapezoidal perforation
N° 14.4487.10
sieve ring 1.5 mm trapezoidal perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
2 mm trapezoidal perforation
N° 14.4488.10
sieve ring 2 mm trapezoidal perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the final fineness of the sample.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
2 mm square perforation
N° 14.4497.10
sieve ring 2 mm square perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with square and round perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
4 mm square perforation
N° 14.4498.10
sieve ring 4 mm square perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with square and round perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
6 mm square perforation
N° 14.4499.10
sieve ring 6 mm square perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with square and round perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action. .


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1 mm round perforation
N° 14.4490.10
sieve ring 1 mm round perforation, made of stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
2 mm round perforation
N° 14.4491.10
sieve ring 2 mm round perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
4 mm round perforation
N° 14.4492.10
sieve ring 4 mm round perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
6 mm round perforation
N° 14.4493.10
sieve ring 6 mm round perforation, stainless steel

- special sieve ring and only for the use together with the impact bar -
Sieve rings determine the end fineness of the sample.
Sieve rings with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve rings with round perforation achieve during comminution a smaller grain band.
Sieve rings with square perforation often achieve a higher throughput and the sample residue is less compared to sieve rings with round perforation.
Sieve rings with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action. .


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data

Accessories for use as Cutting Mill

Aide à la sélection
 
  • Récipient collecteur pour Broyeur à Couteaux

    Applicatons Récipient collecteur
    Pour les applications standards récipient collecteur avec tube de sortie, couvercle en acier inoxydable et disque labyrinthe en aluminium pour raccord aux cyclones FRITSCH
    Référence 14.6515.00
    récipient collecteur avec couvercle en acier inoxydable et disque labyrinthe en aluminium
    Référence 14.6510.00
    Pour de broyage sans fer ni métaux lourds et préparation d’échantillons conformément à la directive RoHS récipient collecteur avec tube de sortie avec revêtement PTFE et couvercle en titane pur, disque de labyrinthe en aluminium pour raccord au cyclone de petites quantités
    Référence 14.4615.00
    récipient collecteur avec revêtement PTFE et couvercle en titane pur, disque de labyrinthe en aluminium
    Référence 14.4610.00
  • rotors de coupe

    Pour les applications standards Matériau
    Pour le broyage matériaux fibreux et de matières plastiques acier inoxydable
    Référence 14.6590.00
    Pour le broyage matériaux durs-résistants métal du carbure de tungstène
    Référence 14.6595.00
    Pour un broyage sans fer ni métaux lourds et préparer des échantillons conformément à la directive RoHS Matériau
    Pour broyer des matières molles titane pur
    Référence 14. 4690.00
    Pour le matériaux durs-résistants oxyde de zirconium
    Référence 14.4695.00
  • Insert tamis

    Broyage rapide de matériaux de dureté moyenne ou mous Insert tamis à perforation trapézoïdale
    pour effet de cisaillement
    Broyage rapide de matériaux cassantes pour obtenir des finesses moyennes Insert tamis à perforation carrée
    pour un plus grand débit et moins de résidus d'échantillon grâce à la surface de tamisage plus grande et ouverte

    Insert tamis à perforation ronde
    pour une gamme étroite de tailles de particules
Variable Speed Rotor Mill PULVERISETTE 14 premium line as a cutting mill

For standard applications of pre- and fine comminution of fibrous materials and plastics select the cutting rotor made of stainless steel.
The cutting rotor made of hardmetal tungsten carbide comminutes hard-tough materials. Choose in both cases additionally sieve shells with trapezoidal, square or round perforation made of stainless steel 316L.
For heavy-metal- and iron-free grinding and sample preparation according to RoHS use the cutting rotor with cooling fins and sieve shells holder made of stainless steel TiN-coated.
For comminution of soft materials choose rotor edges and fixed knives made of pure titanium and for hard-tough materials we recommend rotor edges and fixed knives made of zirconium oxide. Choose in both cases additionally sieve shells with trapezoidal perforation made of stainless steel TiN-coated.

Select accessories

Accessories for standard applications with the cutting rotor and sieve shells

Collecting vessels

Collecting vessel with outlet and lid made of stainless steel and labyrinth disk made of aluminium
N° 14.6515.00
Collecting vessel with outlet and lid made of stainless steel and labyrinth disk made of aluminium

Collecting vessel with outlet and lid made of stainless steel and labyrinth disk made of aluminium for connecting to FRITSCH Cyclone separators.
This collecting vessel with outlet should be used for all standard applications with the cutting rotor and sieve shells in combination with the FRITSCH Cyclone separators or for grinding large quantities.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel and lid
General specifications
MaterialStainless steel – 1.4305
ISO/EN/DIN codeX10CrNiS18-9 / X8CrNiS18-9
Chemical composition
ElementShare %
Iron – Fe70.6 – 66.4
Carbon – C0.10
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.15 – 0.35
Chromium – Cr17 – 19
Nickel – Ni8 – 10
Copper – Cu 1.00
Nitrogen – N 0.11
Physical and mechanical properties
Density7.8 g/cm³
Hardnessapprox. 60 HRB


2. Labyrinth Disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


collecting vessel made of stainless steel and labyrinth disk made of aluminum
N° 14.6510.00
collecting vessel with lid made of stainless steel and labyrinth disk made of aluminum

Collecting vessel with lid made of stainless steel and labyrinth disk made of aluminium.
This collecting vessel should be used for all standard applications with the cutting rotor and sieve shells.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel and lid
General specifications
MaterialStainless steel – 1.4305
ISO/EN/DIN codeX10CrNiS18-9 / X8CrNiS18-9
Chemical composition
ElementShare %
Iron – Fe70.6 – 66.4
Carbon – C0.10
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.15 – 0.35
Chromium – Cr17 – 19
Nickel – Ni8 – 10
Copper – Cu 1.00
Nitrogen – N 0.11
Physical and mechanical properties
Density7.8 g/cm³
Hardnessapprox. 60 HRB


2. Labyrinth Disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


Cutting rotors

cutting rotor made of stainless steel
N° 14.6590.00
cutting rotor made of stainless steel

Cutting rotor made of stainless steel: consisting of cutting rotor with cooling fins and sieve shells holder made of stainless steel and rotor edges and fixed knives made of hardened stainless steel.


ANALYSE DE RÉFÉRENCE
1. Cutting rotor and cooling fins
General specifications
MaterialStainless steel – 1.4057
ISO/EN/DIN codeX17CrNi16-2
AISI code431
Chemical composition
ElementShare %
Iron – Fe77.7–80.8
Carbon – C0.12–0.22
Silicon – Si≤ 1.0
Manganese – Mn≤ 1.5
Chromium – Cr15–17
Nickel – Ni1.5–2.5
Phosphorus – P≤ 0.04
Sulphur – S0.015
Physical and mechanical properties
Density7.7g/cm³
Hardness295 HB


2. Sieve shells holder
General specifications
MaterialStainless steel – 1.4305
ISO/EN/DIN codeX10CrNiS18-9 / X8CrNiS18-9
Chemical composition
ElementShare %
Iron – Fe70.6 – 66.4
Carbon – C0.10
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.15 – 0.35
Chromium – Cr17 – 19
Nickel – Ni8 – 10
Copper – Cu 1.00
Nitrogen – N 0.11
Physical and mechanical properties
Density7.8 g/cm³
Hardnessapprox. 60 HRB


3. Rotor edges and fixed knives
General specifications
MaterialStainless steel – 1.4112
ISO/EN/DIN codeX90CrMoV18 / EN 10088
Chemical composition
ElementShare %
Iron – Fe79 - 77
Chromium – Cr17 - 19
Silicon – Si1.0
Manganese – Mn1.0
Molybdenum – Mo0.9 - 1.3
Carbon – C0.85 - 0.95
Vanadium – V0.07 - 0.012
Phosphorus – P0.04
Sulphur – S0.015
Physical and mechanical properties
Density 7.7 g/cm³ ;
Hardness56 - 58 HRC


Explanations on hardness data
cutting rotor made of hardmetal tungsten carbide
N° 14.6595.00
cutting rotor made of hardmetal tungsten carbide

Cutting rotor made of hardmetal tungsten carbide: consisting of cutting rotor with cooling fins and sieve shells holder made of stainless steel and rotor edges and fixed knives made of hardmetal tungsten carbide.


ANALYSE DE RÉFÉRENCE
1. Cutting rotor and cooling fins
General specifications
MaterialStainless steel – 1.4057
ISO/EN/DIN codeX17CrNi16-2
AISI code431
Chemical composition
ElementShare %
Iron – Fe77.7–80.8
Carbon – C0.12–0.22
Silicon – Si≤ 1.0
Manganese – Mn≤ 1.5
Chromium – Cr15–17
Nickel – Ni1.5–2.5
Phosphorus – P≤ 0.04
Sulphur – S0.015
Physical and mechanical properties
Density7.7g/cm³
Hardness295 HB
2. Sieve shells holder
General specifications
MaterialStainless steel – 1.4305
ISO/EN/DIN codeX10CrNiS18-9 / X8CrNiS18-9
Chemical composition
ElementShare %
Iron – Fe70.6 – 66.4
Carbon – C0.10
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.15 – 0.35
Chromium – Cr17 – 19
Nickel – Ni8 – 10
Copper – Cu 1.00
Nitrogen – N 0.11
Physical and mechanical properties
Density7.8 g/cm³
Hardnessapprox. 60 HRB
3. Rotor edges and fixed knives
General Specification
MaterialHardmetal tungsten carbide – WC
Chemical composition
ElementShare %
Tungsten carbide – WC88
Cobalt – Co 12
Physical and mechanical properties
Density12.4 g/cm³
Hardness89.5 HRA


Explanations on Hardness Data

Sieve shells made of stainless steel 316L

0.08 mm trapezoidal perforation
N° 14.4541.00
0.08 mm trapezoidal perforation

Sieve shells 0.08 mm trapezoidal perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.12 mm trapezoidal perforation
N° 14.4542.00
0.12 mm trapezoidal perforation

Sieve shells 0.12 mm trapezoidal perforation made of stainless steel 316L.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.2 mm trapezoidal perforation
N° 14.4543.00
0.2 mm trapezoidal perforation

Sieve shells 0.2 mm trapezoidal perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.5 mm trapezoidal perforation
N° 14.4544.00
0.5 mm trapezoidal perforation

Sieve shells 0.5 mm trapezoidal perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action. Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
0.75 mm trapezoidal perforation
N° 14.4545.00
0.75 mm trapezoidal perforation

Sieve shells 0.75 mm trapezoidal perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1 mm trapezoidal perforation
N° 14.4546.00
1 mm trapezoidal perforation

Sieve shells 1 mm trapezoidal perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1.5 mm trapezoidal perforation
N° 14.4547.00
1.5 mm trapezoidal perforation

Sieve shells 1.5 mm trapezoidal perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
2 mm trapezoidal perforation
N° 14.4548.00
2 mm trapezoidal perforation

Sieve shells 2 mm trapezoidal perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses.
Sieve shells with round perforation achieve during comminution a smaller grain band. Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
2 mm square perforation
N° 14.4552.00
2 mm square perforation

Sieve shells 2 mm square perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with square and round perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.
Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
4 mm square perforation
N° 14.4554.00
4 mm square perforation

Sieve shells 4 mm square perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with square and round perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.
Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
6 mm square perforation
N° 14.4556.00
6 mm square perforation

Sieve shells 6 mm square perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with square and round perforation are ideal for the comminution of brittle materials.
Sieve shells with square perforation achieve a larger throughput and the sample residue is less compared to sieve shells with round perforation. Additionally, sieve shells with trapezoidal perforation which are ideal for fast comminution with additional shearing effects are offered.
Sieve shells are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1 mm round perforation
N° 14.4560.00
1 mm round perforation

Set of sieve shells 1 mm round perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
1.5 mm round perforation
N° 14.4561.00
1.5 mm round perforation

Set of sieve shells 1.5 mm round perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
2 mm round perforation
N° 14.4562.00
2 mm round perforation

Set of sieve shells 2 mm round perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
3 mm round perforation
N° 14.4563.00
3 mm round perforation

Sieve shells 3 mm round perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample.
Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


4 mm round perforation
N° 14.4564.00
4 mm round perforation

Set of sieve shells 4 mm round perforation made of stainless steel 316L.
Sieve shells determine the final fineness of the sample. Sieve shells with round and square perforations are recommended for the comminution of brittle materials for achieving medium finenesses. Sieve shells with round perforation achieve during comminution a smaller grain band.
Sieve shells with square perforation often achieve a higher throughput and the sample residue is less compared to sieve shells with round perforation.
Sieve shells with trapezoidal perforations are suitable for fast comminution of medium hard to soft materials and improve size reduction through extra shearing action.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data

Accessories for heavy-metal and iron-free grinding and sample preparation according to RoHS

Collecting vessels

Collecting vessel with outlet PTFE-coated and lid made of pure titanium and labyrinth disk made of aluminium
N° 14.4615.00
Collecting vessel with outlet PTFE-coated and lid made of pure titanium and labyrinth disk made of aluminium

Collecting vessel with outlet PTFE-coated and lid made of pure titanium and labyrinth disk made of aluminium for connecting to FRITSCH small volume Cyclone separator.
This collecting vessel with outlet should be used for heavy-metal- and iron-free grinding and sample preparation according to RoHS, with the cutting rotor and sieve shells in combination with the FRITSCH small volume Cyclone separator.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel - PTFE-coated
General specifications
Material PTFE
CAS Number9002-84-0
Chemical composition
ElementFormula
PolytetrafluoroethyleneC 2F4
Melting point327° C
Max. application temp. constant260° C
Max. application temp. briefly300° C


Physical and mechanical properties
Density2.16 g /cm³
Ball pressure hardness ISO 868, ISO 2039-2, D 55 Shore
2. Lid
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


3. Labyrinth disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


Explanations on hardness data
Collecting vessel PTFE-coated with lid made of pure titanium and labyrinth disk made of aluminium
N° 14.4610.00
Collecting vessel PTFE-coated with lid made of pure titanium and labyrinth disk made of aluminium

Collecting vessel PTFE-coated with lid made of pure titanium and labyrinth disk made of aluminium for batchwise comminution of easy-to-grind materials.
This collecting vessel should be used for heavy-metal- and iron-free grinding and sample preparation according to RoHS, with the cutting rotor and sieve shells.


ANALYSE DE RÉFÉRENCE
1. Collecting vessel - PTFE-coated
General specifications
Material PTFE
CAS Number9002-84-0
Chemical composition
ElementFormula
PolytetrafluoroethyleneC 2F4
Melting point327° C
Max. application temp. constant260° C
Max. application temp. briefly300° C


Physical and mechanical properties
Density2.16 g /cm³
Ball pressure hardness ISO 868, ISO 2039-2, D 55 Shore
2. Lid
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


3. Labyrinth disk
General specifications
MaterialAluminium AlZnMgCu1,5
ISO/EN/DIN Code3.4365
Chemical composition
ElementShare %
Iron – Fe0.50
Silicon – Si0.40
Copper – Cu1.20 - 2.0
Manganese – Mn0.30
Magnesium – Mg2.1 - 2.9
Chromium – Cr0.18 - 0.28
Zinc – ZN5.1 - 6.1
Titan – Ti0.20
Physical and mechanical properties
Density2,7 g/cm³
Hardness2,75 Mohs


Explanations on hardness data

Cutting rotors

Cutting rotor made of pure titanium
N° 14.4690.00
Cutting rotor made of pure titanium

Cutting rotor made of pure titanium - for the Variable Speed Rotor Mill PULVERISETTE 14 premium line consisting of cutting rotor with cooling fins and sieve shells holder made of stainless steel TiN-coated and rotor edges and fixed knives made of pure titanium.
The cutting rotor made of pure titanium is ideal for comminution of soft materials for heavy-metal- and iron-free grinding and sample preparation according to RoHS.
Please choose additionally sieve shells with trapezoidal perforation TiN-coated to determine the desired final fineness.


ANALYSE DE RÉFÉRENCE
1. Cuttin rotor with cooling fins and sieve shells holder TiN-coated
General specifications
MaterialTitanium nitride – TiN
ISO/EN/DIN code
Chemical composition
ElementShare %
Titanium nitride TiN100


2. Rotor edges and fixed knives
General specifications
MaterialPure titanium – 3.7035 – Ti 2
ISO/EN/DIN codeDIN 17861
Chemical composition
ElementShare %
Titanium – Ti99.4 – 99.5
Oxygen – O0.18
Nitrogen – N0.05
Carbon – C0.06
Hydrogen – H0.013
Iron - Fe0.2
Physical and mechanical properties
Density4.5 g/cm³
Hardness / Brinell guide value HB 30150 Brinell hardness


Explanations on hardness data
Cutting rotor made of zirconium oxide
N° 14.4695.00
Cutting rotor made of zirconium oxide

Cutting rotor made of zirconium oxide - for the Variable Speed Rotor Mill PULVERISETTE 14 premium line consisting of cutting rotor with cooling fins and sieve shells holder made of stainless steel TiN-coated and rotor edges and fixed knives made of zirconium oxide.
The cutting rotor made of zirconium oxide is ideal for comminution of hard-tough materials for heavy-metal- and iron-free grinding and sample preparation according to RoHS.
Please choose additionally sieve shells with trapezoidal perforation TiN-coated to determine the desired final fineness.


Sieve shells TiN-coated

Sieve shells 0.5 mm trapezoidal perforation, TiN-coated
N° 14.4644.00
Sieve shells 0.5 mm trapezoidal perforation, TiN-coated

Sieve shells 0.5 mm trapezoidal perforation, TiN-coated.
Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforation are ideal for fast comminution with additional shearing effects.
Ideal to use with the cutting rotors made of titanium and zirconium oxide for heavy-metal- and iron-free grinding and sample preparation according to RoHS.
Sieve shells are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialTitanium nitride – TiN
ISO/EN/DIN code
Chemical composition
ElementShare %
Titanium nitride TiN100
Sieve shells 1 mm trapezoidal perforation, TiN-coated
N° 14.4646.00
Sieve shells 1 mm trapezoidal perforation, TiN-coated

Sieve shells 1 mm trapezoidal perforation, TiN-coated


Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforation are ideal for fast comminution with additional shearing effects.
Ideal to use with the cutting rotors made of titanium and zirconium oxide for heavy-metal- and iron-free grinding and sample preparation according to RoHS.
Sieve shells are also available in further perforations.


 


 


ANALYSE DE RÉFÉRENCE
General specifications
MaterialTitanium nitride – TiN
ISO/EN/DIN code
Chemical composition
ElementShare %
Titanium nitride TiN100
Sieve shells 2 mm trapezoidal perforation, TiN-coated
N° 14.4648.00
Sieve shells 2 mm trapezoidal perforation, TiN-coated

Sieve shells 2 mm trapezoidal perforation, TiN-coated
Sieve shells determine the final fineness of the sample.
Sieve shells with trapezoidal perforation are ideal for fast comminution with additional shearing effects.
Ideal to use with the cutting rotors made of titanium and zirconium oxide for heavy-metal- and iron-free grinding and sample preparation according to RoHS.
Sieve shells are also available in further perforations.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialTitanium nitride – TiN
ISO/EN/DIN code
Chemical composition
ElementShare %
Titanium nitride TiN100

SAMPLE EXHAUSTION WITH CYCLONE SEPARATORS AND FOR GRINDING LARGE QUANTITIES

FRITSCH Cyclone separators ensure with their powerful airflow simple feeding and faster throughput. The powerful airflow enables the use of finer sieve rings to achieve a higher final fineness. The cyclones are ideal for even for temperature-sensitive samples and materials which are otherwise difficult to grind finely, such as electrostatically-charged plastics or powder coatings. Two models are available: High performance Cyclone separator and small volume Cyclone separator.

Select Accessories

High-performance Cyclone separator

high-performance Cyclone separator made of stainless steel 304, foodGrade, incl. sample glass 1 litre
N° 14.4807.00
high-performance Cyclone separator made of stainless steel 304, foodGrade, incl. sample glass 1 litre

High-performance Cyclone separator made of stainless steel 304 for sample exhaustion, incl. sample glass 1000 ml and connections for exhaust system.
The compact FRITSCH high-performance Cyclone separator, which is made completely out of stainless steel 304, is particularly indispensable in the analytical sector and the food and pharmaceutical industries. Due to its high surface quality, it offers enhanced resistance to corrosive media such as alkalis and acids, but particularly to media containing chlorides – and is especially easy to clean with a wide range of possible cleaning agents, without leaving any residues. The Cyclone separator can also be fully dismantled, meaning that it can be completely emptied, flooded and sterilised. Your advantage: reliable protection against cross-contamination.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4301
ISO/EN/DIN codeX5CrNi1810
Chemical composition
ElementShare %
Iron – Fe66.805
Carbon – C0.070
Silicon – Si1.000
Manganese – Mn2.000
Phosphorus – P0.045
Sulphur – S0.030
Chromium – Cr19.5
Nickel – Ni10.5
Nitrogen – N0.110
Physical and mechanical properties
Density7.8 g/cm³
HardnessHRB 96


Explanations on hardness data

Collecting vessels for high-performance Cyclone separator

sample glass 1 litre
N° 83.3250.00
Sample glass 1 litre

Sample glass 1 litre for sample exhaustion with the high-performance Cyclone separator.


sample glass 2 litres
N° 83.3260.00
Sample glass 2 litres

The sample glass with 2 litres volume is recommended for sample exhaustion with the high-performance Cyclone separator for sample discharges larger than 1000 ml, since only a 1 litre sample glass is included in the delivery of the high-performance Cyclone separator.


sample glass 5 litres
N° 83.3270.00
Sample glass 5 litres

The sample glass with 5 litres volume is recommended for sample exhaustion with the high-performance Cyclone separator for sample discharges larger than 1000 ml, since only a 1 litre sample glass is included in the delivery of the high-performance Cyclone separator.


Collecting vessel, 20 litres made of stainless steel
N° 45.8040.00
Collecting vessel, 20 litres made of stainless steel

The collection vessel 20 litres is recommended for sample exhaustion with the high-performance Cyclone separator for sample discharges larger than 1000 ml, since only a 1 litre sample glass is included in the delivery of the high-performance Cyclone separator. 


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data
Collecting vessel, 60 litres made of stainless steel
N° 45.8050.00
Collecting vessel, 60 litres made of stainless steel

The collection vessel 60 litres is recommended for sample exhaustion with the high-performance Cyclone separator for sample discharges larger than 1000 ml, since only a 1 litre sample glass is included in the delivery of the high-performance Cyclone separator.


ANALYSE DE RÉFÉRENCE
General specifications
MaterialStainless steel – 1.4404/316L
ISO/EN/DIN codeX2CrNiMo17-12-2
Chemical composition
ElementShare %
Iron – Feapprox. 62.8
Carbon – C0.03
Silicon – Si1
Manganese – Mn2
Phosphorus – P0.045
Sulphur – S0.015
Chromium – Cr18.5
Molybdenum – Mo2.50
Nickel – Ni13.00
Nitrogen – N0.110
Physical and mechanical properties
Density8.0 g/cm³
Hardness215 HB



Explanations on hardness data

Small volume Cyclone separator

small volume Cyclone separator made of plastic
N° 14.4810.00
small volume Cyclone separator made of plastic

Small volume Cyclone separator made of plastic for sample exhaustion of small sample quantities, incl. 500 ml sample glass.
We designed the compact FRITSCH small volume Cyclone separator especially for exhaustion of small sample quantities. It is made of plastic, can be dismantled completely and cleaned in a dishwasher for reliably preventing contaminations. 
The comminuted sample is collected in a 500 ml sample glass, in which it can also be transported and stored. Alternatively a sample glass 250 ml can also be screwed-on and ordered: order no. 27.1450.00.
The small volume Cyclone separator can be combined with the exhaust system order no. 43.9070.00 or can also be used with the supplied fine-dust filter 80-100 µm for passive utilisation.
Replacement fine-dust-filters 80-100 µm can be reordered: order no. 45.8218.16.


Replacement fine-dust filter 80 - 100 µm
N° 45.8218.16

Replacement fine-dust filter 80-100 µm for small volume Cyclone separator for passive utilisation.


Replacement fine-dust filter 35 - 40 µm
N° 45.8219.16

Replacement fine-dust filter 35 – 40 μm for small volume Cyclone separator for passive utilisation.


Collecting vessels for small volume Cyclone separator

Sample glass 250 ml
N° 27.1450.00
Sample glass 250 ml

Sample bottle with screw lid, thread of sample bottle GL55, sample bottle can be used with dividing heads, division ratio 1:8 and 1:10.
Furthermore a sample vessel 32 ml with lid, article-number 83.3190.16, is available, which can be inserted in the sample bottles 250 ml and 500 ml for dividing smallest sample quantities.
The sample glass is recommended for sample exhaustion with the small volume Cyclone separator for sample discharges smaller than 500 ml, since only a 500 ml sample glass is included in the delivery of the small volume performance Cyclone separator.


Sample glass 500 ml
N° 27.1460.00
Sample glass 500 ml

Sample bottle with screw lid, thread of sample bottle GL55.
Sample bottle can be used with dividing heads, division ratio 1:8.
Furthermore a sample vessel 32 ml with lid, article-number 83.3190.16, is available, which can be inserted in the sample bottles 250 ml and 500 ml for dividing smallest sample quantities.
Sample glass can also be used for sample exhaustion with the small volume Cyclone separator.


Exhaust system for high-performance and small volume Cyclone separator and for cooling the PULVERISETTE 14 premium line

Switch box for controlling the exhaust system
N° 14.4820.00

With the switch box, both the control of the exhaust system for sample exhaustion with Cyclone separators and for cooling the PULVERISETTE 14 premium line can be done directly via the Variable Speed Rotor Mill PULVERISETTE 14 premium line - fast, simple and comfortable.
The switch box can be used for 100-240 V/1~, 50-60 Hz and up to 3600 Watt.


connecting piece for exhaust system
N° 14.4214.00

Connecting piece for exhaust system, for connection to exhaust system (Order No. 43.9070.00) for additional cooling of the Variable Speed Rotor Mill PULVERISETTE 14 premium line.


dust exhaust system, dust category „M” according to DIN EN 60335-2-69
N° 43.9070.00
Exhaust system, dust category "M" according to DIN EN 60335-2-69

The exhaust system, dust category "M" according to DIN EN 60335-2-69 for 230 V/1~, 50/60 Hz, 1600 Watt is versatile:


For combination with the high performance and small volume cyclones.
To operate the FRITSCH Cyclones you need an exhaust system. The strong airflow ensures simple feeding, increases throughput, and reduces the thermal load of the samples. The high performance and small volume Cyclone separator can be combined with Universal Cutting Mills PULVERISETTE 19, the Variable Speed Rotor Mill PULVERISETTE 14 premium line and classic line. The small volume cyclone can also be combined with the Variable Speed Rotor Mill PULVERISETE 14 premium line and classic line even for passive utilisation – without sample exhaust.
The high-performance cyclone is ideal for combination with the Universal Cutting Mills PULVERISETTE 19 large, the Cross Beater Mill PULVERISETTE 16 and the Disk Mill PULVERISETTE 13 premium line for optimal sample extraction and for comminution of larger quantities.


For cooling of the Variable Speed Rotor Mill PULVERISETTE 14 premium line
By connecting the exhaust system with the connecting piece order no. 14.4214.00, the cooling of the mill can easily be enhanced.


For connecting to Disk Mill PULVERISETTE 13 premium line
The exhaust is simply connected to the PULVERISETTE 13 premium line and operated via a start and stop button on the instrument – for dust free comminution.


For connecting to the Jaw Crusher PULVERISETTE 1, Modell I + II classic line
Simply connect the exhaust system to the integrated connection of the PULVERISETTE 1. Fine dust arising during comminution is automatically removed. The exhaust system is also very useful when cleaning the grinding parts.


For connecting to the Disk Mill PULVERISETTE 13 classic line
The exhaust system can be easily connected to the PULVERISETTE 13 classic line. Fine dust arising during comminution is automatically removed. The exhaust system is also very useful when cleaning the grinding parts.


For exhaustion of the sample during dry measurement with the Laser Particle Sizers ANALYSETTE 22 NeXT
An exhaust system is necessary to ensure automatic sample exhaustion during dry measurement. When the measurement is completed it can also be easily used to manually clean the feeder.


Please note that the exhaust system article no. 43.9070.00, is not equipped with a fine filter and therefore dust may escape. Please consider the valid occupational health and safety regulations. This exhaust system is mostly recommended for dust-free grinding and the vacuuming of during the process developing fine dust in the upper part of the grinding chamber and for the cleaning of the grinding parts.


For vacuuming of the sample during dry measurement with the Laser Particle Sizers ANALYSETTE 22 NeXT, we recommended we recommend the exhaust system article no. 43.9060.00, which is equipped with a hose and an ultra-fine filter of dust class "H" according to DIN EN 60335-2-69, so that the escape of fine dust is reduced.


fleece filter bag for exhaust system (pack = 5 pieces) for exhaust system 43.9070.00
N° 43.9055.00

1 pack = 5 pieces
One pack is included in the scope of delivery of the exhaust system (article No. 43.9070.00).
These fleece filter bags should be used for the vacuuming off of fine, dry materials.
For the vacuuming off of coarse, wet materials are plastic bags available (article no. 43.9052.00).


plastic bag for exhaust system (pack = 5 pieces) for exhaust system 43.9070.00
N° 43.9052.00

1 pack = 5 pieces

One pack is included in the order of the exhaust system (article No. 43.9070.00).
These plastic bags should be used for the vacuuming off of coarse, wet materials.
For the vacuuming off of fine, dry materials are paper filter bags available (article no. 43.9055.00).


Certification

IQ/OQ documentation for the independent utilization for the support of instrument qualification in the quality management system for the Variable Speed Rotor Mill PULVERISETTE 14 premium line.

Select certification

Certification

IQ/OQ documentation (questionnaire format - implementation by customer)
N° 96.0330.00
IQ/OQ documentation (questionnaire format - implementation by customer)

IQ/OQ documentation (questionnaire format - implementation by customer) for the independent support of instrument qualification in the quality management system for the Variable Speed Rotor Mill PULVERISETTE 14 premium line.


ACCESSORIES FOR AUTOMATIC SAMPLE FEEDING

Directly controlled by and precisely matched to the mill, the new FRITSCH Vibratory Feeder LABORETTE 24 always ensures the correct feed rate – ideal for slowly feeding small or smallest material quantities or for grinding larger quantities.

SELECT ACCESSORIES FOR AUTOMATIC SAMPLE FEEDING

Accessories for automatic sample feeding

Vibratory Feeder LABORETTE 24 with V-shaped channel
N° 24.4200.00
Vibratory Feeder LABORETTE 24 with V-shaped channel

Vibratory Feeder LABORETTE 24 with V-shaped channel and stand,  incl. connection cable for automatic control via the Variable Speed Rotor Mill PULVERISETTE 14 premium line.


IQ/OQ documentation (questionnaire format – implementation by customer)
N° 96.0370.00
IQ/OQ documentation (questionnaire format – implementation by customer)

IQ/OQ documentation (questionnaire format - implementation by customer) for the independent utilization for the support of instrument qualification in the quality management system for the Vibratory Feeder LABORETTE 24.


Référence
14.
Sales Consultant Particle Sizing
M.Sc. (Phys.) Maik Paluga
FRITSCH GmbH - Milling and Sizing
Industriestrasse 8
55743 Idar-Oberstein
Téléphone +49 67 84 70 188
Portable +49 151 40 48 38 41
Jessica Seifert
FRITSCH GmbH - Milling and Sizing
Industriestrasse 8
55743 Idar-Oberstein
Téléphone +49 67 84 70 0
EFFECTUEZ UN TEST

ANALYSE DE PARTICULES GRATUITE

Faites-nous parvenir un échantillon, nous le soumettrons à une analyse de particules - nous vous enverrons un compte rendu individuel d'analyse.

Base de données de protocoles de mesure