The company’s cemented carbide chip breaker end mill is designed, tested, purchased and manufactured for processing various materials such as aluminum, carbon and stainless steel, tool steel, titanium, cast iron, high-temperature alloys, copper and magnesium alloys, brass, Bronze, composite materials, plastics and graphite. Cemented carbide chip breaker end mill categories include high-performance and general purpose CNC milling cutters for industrial applications, drill bits, drill bits, countersinks, roughing/finishing, reamers, routers, die-cutting trimmers and customized special purpose precision tool.
Next, take a look at the manufacturing process of our company's cemented carbide chip breaker end mill:
1. Mix tungsten carbide and cobalt into powder that can be classified as raw materials. The granular mixture is poured into the mold cavity and pressed. It has a moderate strength like chalk.
2. Place the pressed body in a sintering furnace and heat it at a temperature of about 1400°C to produce cemented carbide.
3. After sintering, the volume of the content is significantly reduced.
In most cases, the alloy chip breaker end mill will leave a better surface finish on the part and allow faster processing of high-speed steel or other steels. Cemented carbide tools can withstand higher tool-workpiece interface temperatures than standard high-speed steel tools (this is the main reason for the faster processing speed).
The company's tool application fields are aerospace, military, automotive, AI intelligence, machining and other key manufacturing industries. The use of industry coverage is wide, the product quality is high, and the performance is high, and it is deeply recognized by customers.
