Our high-temperature components for research and development

Research and development are of great importance in practically every field. However, the requirements for necessary technical solutions are different. M.E.SCHUPP^® provides both standard and custom made products for the field of high-temperature technology. They fulfill your application requirements perfectly. For example, technical universities and in-house laboratories obtain the correct components from us.

Products

MolyCom^®-Ultra

Elektrische Heizelemente bis 1.800°C

The M.E.SCHUPP^® MolyCom^®-Ultra electric heating elements are composed of the intermetallic compound MoSi₂and ceramic additives.They are optimal for high-temperature applications up to 1,800°C.

MolyTec^® 1650

Electric heating panels and cylinders up to 1,650°C

MolyTec^® are heating panels and cylinders for electric heating systems up to 1,650°C. These components from M.E.SCHUPP^® are a combination of MolyCom^{^®}(MoSi₂) and UltraBoard^® or UltraVac^® (PCW). MolyTec^® makes controlled and precise heating possible.

UltraBoard^® & UltraVac^®

Insulation boards, shapes and cylinders for temperatures from 1,250°C to 1,850°C

UltraBoard^® und UltraVac^® are made of polycrystalline (PCW) mullite/Al₂O₃ wool for applications temperatures from 1,250°C to 1,850°C. These products are rigid high-temperature fibrous insulating materials . They have high bending strength at high temperatures, are extremely light and resistant to thermal shock. They are suitable for insulation in rapidly heating and cooling conditions such as high-temperature electric furnaces.

ITM-Fibermax^® 1600

Wool, needled blankets and modules for temperatures up to 1,600°C

ITM-Fibermax^® 1,600 is an optimal product for thermal insulation of electric-heated laboratory and industrial furnaces up to 1,600°C. This product is available as wool, needled blanket and module and made of high quality polycrystalline (PCW) mullite/AI₂O₃ wool.

PTCR^®

The ceramic PTCR^® rings measure and accurately reflect total heat input.

Thanks to advanced technology and the use of high-quality materials, the PTCR^® can record the actual firing process at the location where it is positioned in the furnace. The measurement result tolerance is ± 3°C or less. Use of the PTCR^® enables determination of temperature distribution, both in a furnace and between different cycles, thereby guaranteeing a sustainable and assured quality standard.

Application Areas

Our high-temperature components for research and development

MolyCom^®-Ultra

Elektrische Heizelemente bis 1.800°C

MolyTec^® 1650

Electric heating panels and cylinders up to 1,650°C

UltraBoard^® & UltraVac^®

Insulation boards, shapes and cylinders for temperatures from 1,250°C to 1,850°C

ITM-Fibermax^® 1600

Wool, needled blankets and modules for temperatures up to 1,600°C

PTCR^®

The ceramic PTCR^® rings measure and accurately reflect total heat input.

Laboratories

Technical Universities

Electric-heated Furnaces

Combustion-heated Furnaces

Applications

About us

Downloads

Our high-temperature components for research and development

MolyCom®-Ultra

Elektrische Heizelemente bis 1.800°C

MolyTec® 1650

Electric heating panels and cylinders up to 1,650°C

UltraBoard® & UltraVac®

Insulation boards, shapes and cylinders for temperatures from 1,250°C to 1,850°C

ITM-Fibermax® 1600

Wool, needled blankets and modules for temperatures up to 1,600°C

PTCR®

The ceramic PTCR® rings measure and accurately reflect total heat input.

Laboratories

Technical Universities

Electric-heated Furnaces

Combustion-heated Furnaces

Applications

About us

Downloads

MolyCom^®-Ultra

MolyTec^® 1650

UltraBoard^® & UltraVac^®

ITM-Fibermax^® 1600

PTCR^®

The ceramic PTCR^® rings measure and accurately reflect total heat input.