Carbide punches and dies play a vital role in metal processing and forming processes, improving production efficiency and product quality, extending service life, adapting to a variety of application scenarios, and improving process accuracy and stability. Therefore, carbide punches and dies have been widely used and recognized in the metal processing industry.
Carbide (such as tungsten carbide) has high hardness, high wear resistance and high thermal stability, allowing carbide punches and dies to withstand high load and high-speed stamping operations, thereby significantly improving production efficiency and product quality during the metal forming process It can maintain high-precision shape and size to ensure that the products produced meet the design requirements.
Due to the excellent properties of carbide materials, carbide punches and dies often have a longer service life than traditional materials such as steel. This means that during the production process, the number of punch and mold replacements can be reduced, production costs are reduced, and the overall stability of the production line is improved.
Carbide punches and dies have a wide range of applicability and can be used to make metal parts of various shapes and sizes. They are not only suitable for traditional stamping processes, but also for other metal forming processes such as extrusion, drawing and bending. In addition, it can also be used to process various metal materials, including stainless steel, aluminum alloy, copper alloy, etc.
During metal processing, the high precision and stability of carbide punches and dies help achieve finer processing results. They can maintain stable stamping force and stamping speed, ensuring uniform deformation and consistent dimensional accuracy of metal parts during the forming process. This helps reduce scrap rates and improve product qualification rates.