Products
General wear protection in various sectors and industries.
We create effective carbide solutions for a wide variety of applications.
PROPERTIES
Tungsten carbide is used in special applications where e.g. good corrosion, abrasion and oxidation properties are required and offers above-average possibilities.
APPLICATION
The wear-resistant carbide components are used in an increasing number of industries.
We are suppliers to the following industries:
APPLICATION
Due to the extremely good wear resistance and dimensional stability, tungsten carbide balls are the preferred choice for grinding / milling media, precision hydraulic valves, high-load bearings, ball screws, linear bearings in slideways, measuring and testing instruments and measuring devices.
PROPERTIES
Tungsten carbide balls are famous for their high hardness, wear resistance, corrosion resistance and flexural strength. Therefore, they are ideal for applications where extreme conditions have to be met.
Precision balls made of tungsten carbide – class G5 / G10 / G25 mainly for the oil seal, bearing ball, dosing and milling industries.
APPLICATION
Our material was specially developed for the demanding operation of today’s high-speed roller mills, which are capable of high speeds of up to 110 m / s with a rotation of approx. 35,000 rpm and a temperature of 800-1000 degrees. All GH10 guide rollers are manufactured with SINTER HIP technology (Hot Isostatic Press) to ensure the best sinter quality.
PROPERTIES
Titanium carbide has proven to be an inexpensive material for the production of guide rollers for wire rod mills. It has a low density, excellent antioxidant and wear resistance and a relatively good resistance to thermal shock. TiC hard metals have a relatively simple metallographic structure, but the grain size and porosity must be checked for quality control. Porosity in particular is the main quality problem, since even vacuum sintering cannot completely overcome the problem of oxygen uptake. However, the hot isostatic pressure sintering (HIP) process introduced in the late 1980s significantly improved the final quality of TiCs by solving the porosity problems.