What temperature can tungsten carbide withstand?
Tungsten carbide is valued for hardness and wear resistance in demanding environments. Temperature behavior matters when moulds face heat, friction, and repeated forming load.
Tungsten carbide is valued for hardness and wear resistance in demanding environments. Temperature behavior matters when moulds face heat, friction, and repeated forming load.
What this article helps buyers decide
This article helps buyers discuss carbide die use conditions, heat exposure, friction, cooling, and material selection before choosing tooling for demanding production.
Manufacturing and inspection points
- Confirm operating temperature, forming speed, material friction, lubrication, cooling, and production cycle.
- Review carbide grade, binder content, thermal shock risk, coating, and die holder design.
- Monitor cracking, wear, deformation, surface quality, and dimension change during production feedback.
Information to confirm before quotation
- 2D drawing and 3D model if available.
- Material grade, target hardness, coating, and surface finish requirements.
- Critical tolerance notes, application industry, annual demand, and expected delivery schedule.
How Jungu supports this requirement
Jungu supports carbide die selection and manufacturing review for buyers who need wear resistance, precision, and stable performance under demanding production conditions.
Need mould support for this topic?
Send drawings, material requirements, tolerance targets, surface requirements, annual demand, and application details. Jungu can review manufacturability and reply with a practical mould solution.
