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Micronized Biomers

Drop point
°C
Penetration
dmm
Particle size
50 % ≤ x µm
TDS MDS
Drop point
°C
Penetration
dmm
Particle size
50 % ≤ x µm
BIOMER 140 M Biodegradable wax, micronized
Drop point °C 140-150
Penetration dmm ≤ 3
Particle size 50 % ≤ x µm ≤ 10

Biomers as granules

Drop point
°C
Penetration
dmm
Emulsifiability
HLB
TDS MDS
Drop point
°C
Penetration
dmm
Emulsifiability
HLB
BIOMER 119 P Biodegradable wax, powder
Drop point °C 110-120
Penetration dmm -
Emulsifiability HLB 10

Micronized waxes

Drop point
°C
Penetration
dmm
Density (Wax)
g/cm³
Particle size
98 % ≤ x µm
TDS MDS
Drop point
°C
Penetration
dmm
Density (Wax)
g/cm³
Particle size
98 % ≤ x µm
DEUREX A 2035 M Bio based Ethylene-Bis-Stearamide wax, micronized
Drop point °C 142-151
Penetration dmm 1-3
Density (Wax) g/cm³ 0,98-1,00
Particle size 98 % ≤ x µm ≤ 35
Drop point
°C
Penetration
dmm
Density (Wax)
g/cm³
Particle size
98 % ≤ x µm
DEUREX A 2050 M Bio based Ethylene-Bis-Stearamide wax, micronized
Drop point °C 142-151
Penetration dmm 1-3
Density (Wax) g/cm³ 0,98-1,00
Particle size 98 % ≤ x µm ≤ 50
Drop point
°C
Penetration
dmm
Density (Wax)
g/cm³
Particle size
98 % ≤ x µm
DEUREX H 7480 M Hybrid wax, amide wax and lubricants, micronized
Drop point °C -
Penetration dmm -
Density (Wax) g/cm³ -
Particle size 98 % ≤ x µm ≤ 80

Sinter

The sintering process is a widely used method for manufacturing high-quality components from powder materials. In recent years, waxes have proven to be extremely effective additives in the sintering process. The sintering process is a procedure in which fine powder particles are combined under controlled conditions to form a solid material. During this process, the particles are compacted by heat treatment with virtually no melting, resulting in a compact component. The sintering process offers a variety of advantages, including the ability to produce complex shapes and minimize material waste.

Waxes are used as additives in the sintering process to improve the processing properties of the powder material. They serve as binders that hold the powder particles together as they compact during the sintering process. Waxes enable uniform distribution of the particles, improve the green strength of the component, and minimize potential cracking or deformation during compaction. 

The use of waxes as additives in the sintering process offers several advantages. Firstly, waxes improve the lubricity of the powder material, which leads to easier shaping and increased filling levels. Second, waxes increase the green strength of the pressed parts, resulting in better handling and less risk of breakage during further processing. Finally, waxes enable more precise dimensional accuracy of the parts by reducing shrinkage during the sintering process.

The use of waxes as additives in the sintering process has proven to be extremely versatile in various industries. In particular, waxes are widely used in jewelry manufacturing, dental technology and the production of precision parts. The ability to create complex shapes and detailed structures makes waxes a preferred choice for demanding applications.

The addition of waxes can improve the processing properties of the powder material and optimize the quality of the end products. The multiple benefits of waxes in the sintering process make them a popular choice in various industries. If you are looking for a precise and efficient method of component manufacture, the use of waxes in the sintering process is definitely worth considering.