Blow molded parts for industrial applications
Germany,
Berlin Land, Berlin
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Product Information
Order volume from: On request
Delivery terms: Pickup
Description
Molybdenum-hafnium carbide (MHC) is a specialized product that is highly resistant to high temperatures, making it ideal for industries where extreme heat is a common factor. With its exceptional thermal conductivity, low coefficient of thermal expansion, and high recrystallization temperature, MHC ensures reliable performance even in temperatures as high as 1,550 °C.
At lower temperatures, up to 800 °C, MHC is particularly suitable for use in die inserts, providing excellent durability and dimensional stability. However, when exposed to even higher temperatures, it is recommended to utilize MHC for full dies. This versatility allows you to adapt and choose the right applications for your specific needs.
The advantages of choosing MHC are numerous. First and foremost, it offers optimum nondeformability and dimensional stability, ensuring that your components retain their shape and functionality over an extended period of time. Additionally, MHC exhibits a low tendency to crack, a crucial factor for components with edged profiles.
Moreover, MHC boasts high thermal stability and conductivity, allowing for efficient heat transfer and management. Furthermore, its low thermal expansion minimizes the risk of thermal stress or distortion. Excellent hot ductility and a remarkably high recrystallization temperature further enhance MHC's reliability and longevity.
As a reputable supplier, Plansee is proud to offer MHC components in disc form, providing the necessary versatility for various applications. These components can be supplied with or without drilled start holes, allowing for further customization based on your specific requirements.
Choose Molybdenum-hafnium carbide (MHC) from Plansee and experience the benefits of its exceptional temperature resistance, thermal conductivity, dimensional stability, and longevity, making it an ideal choice for high-temperature environments.