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Cross Beater Mill - cast iron grinding insert

PULVERISETTE 16

Order No.
16.6020.00
Accessories

The Cross Beater Mill PULVERISETTE 16 is equipped with a grinding insert and cross beater made of cast iron, and impact plates made of hardened steel. A 5 litre collecting vessel with filter hose is also included.
Also available are bottom sieves made of stainless steel in various sizes and perforations and for the comminution of large quantities a special 30 litre collecting vessel with filter hose.

The element analysis for grinding insert, cross beater and Impact plates are found here

Please note: For this FRITSCH mill, you require at least bottom sieve.

BOTTOM SIEVES

For the PULVERISETTE 16 are bottom sieves made of stainless steel either in trapezoidal or round perforations in various sizes available. In general, the finer the desired final fineness, the smaller the perforation of the bottom sieve should be; the larger the perforation, the higher the throughput.

SELECT BOTTOM SIEVES MADE OF STAINLESS STEEL

BOTTOM SIEVES MADE OF STAINLESS STEEL

0.12 mm trapezoidal perforation
No. 16.6710.10
Bottom sieve 0.12 mm trapezoidal perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
No. 16.6712.10
Bottom sieve 0.2 mm trapezoidal perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
0.25 mm trapezoidal perforation
No. 16.6714.10
Bottom sieve 0.25 mm trapezoidal perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
0.35 mm trapezoidal perforation
No. 16.6715.10
Bottom sieve 0.35 mm trapezoidal perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
No. 16.6716.10
Bottom sieve 0.5 mm trapezoidal perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
No. 16.6718.10
Bottom sieve 0.75 mm trapezoidal perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
No. 16.6720.10
Bottom sieve 1 mm trapezoidal perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
No. 16.6722.10
Bottom sieve 1.5 mm trapezoidal perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
No. 16.6724.10
Bottom sieve 2 mm trapezoidal perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
No. 16.6750.10
Bottom sieve 3 mm round perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
No. 16.6752.10
Bottom sieve 4 mm round perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
5 mm round perforation
No. 16.6754.10
Bottom sieve 5 mm round perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
No. 16.6756.10
Bottom sieve 6 mm round perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
8 mm round perforation
No. 16.6758.10
Bottom sieve 8 mm round perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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
10 mm round perforation
No. 16.6760.10
Bottom sieve 10 mm round perforation made of stainless steel

The bottom sieves are made of stainless steel trapezoidal resp. round perforation sheets of metal. Larger openings mean faster throughput, less time in the mill and less wear.


Bottom sieves with trapezoidal perforation offer an improved size reduction through extra shearing action. Bottom sieves with round perforation are recommended for size reduction of brittle material of medium fineness with smaller grain width band.


Element Analysis
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

FURTHER ACCESSORIES

The standard equipment delivered with the PULVERISETTE 16 includes a cloth filter hose between the mill and the 5 litre collecting vessel that ensures a constant airflow in the grinding chamber; accelerates the throughput and prevents blockages – for fast, gentle comminution.
We also offer a 30 litre collecting vessel for grinding larger quantities.
Combine your PULVERISETTE 16 with a support stand for a stand-alone instrument that you can place anywhere.

SELECT ACCESSORIES

UNIVERSAL SUPPORT STAND AND COLLECTING VESSEL

collecting vessel 30 litres with filter hose
No. 16.6124.00

As standard the PULVERISETTE 16 is delivered with a collecting vessel 5 litres. For grinding large quantities this collecting vessel with a capacity of 30 litres and filter hose is recommended.


Order No.
16.6020.00
Janine Allkofer
FRITSCH GmbH - Milling and Sizing
Industriestrasse 8
55743 Idar-Oberstein
Phone +49 67 84 70 0

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