14 kinds of cemented carbide tools, what are the differences

14 kinds of cemented carbide tools, what are the differences

01
cemented carbide ( steel) WC-Co cemented carbide tools are suitable for processing ordinary steel and stainless steel, cast iron, non-ferrous metals (such as copper, aluminum, brass), alloy steel and tool steel, high-hardness materials (such as hardened steel) and other hard and high-strength materials.
1. Material characteristics ① High hardness: extremely high hardness, so that it can maintain a sharp blade during cutting. ② High toughness: good toughness, can withstand large cutting forces and impacts. ③ Wear resistance: very good wear resistance, can extend the service life of the tool. ④ Thermal stability: can maintain mechanical properties during high-temperature cutting, reduce tool wear and deformation.
2. Processing advantages ① High precision: cemented carbide tools can achieve high-precision processing and are suitable for the manufacture of precision parts.
② Fast speed: suitable for high-speed cutting, improve processing efficiency and shorten processing time.
③ Wide applicability: can adapt to a variety of processing conditions and environments, with a wide range of applications.
3. Typical applications ① Automobile manufacturing: used to produce engine parts and gearbox gears. ② Aerospace: manufacturing aircraft fuselages and engine parts. ③ Mold manufacturing: used to manufacture high-precision injection molds and stamping molds. ④ Machining: used to process various precision mechanical parts.
In short, compared with other cemented carbides, cemented carbides have extremely high toughness, are particularly suitable for withstanding large cutting forces and impacts, and are more suitable for heavy-duty machining tasks that require high strength and durability.

02
Titanium- cemented carbides TiC-WC-Co Titanium- cemented carbides made of cemented carbides are suitable for machining high-strength steel, titanium alloys, nickel-based alloys, stainless steel and other difficult-to-machine materials.
1. Material characteristics
① High hardness: It has extremely high hardness, which enables it to maintain a sharp blade during cutting.
② High strength: Good strength, able to withstand large cutting forces and impacts.
③ Wear resistance: Very good wear resistance, which can extend the service life of the tool.
④ Antioxidation: It can maintain mechanical properties in high-temperature cutting and reduce tool wear and deformation. 2. Processing advantages
① High precision: Titanium cobalt cemented carbide tools can achieve high-precision processing and are suitable for the manufacture of precision parts.
② Fast speed: Suitable for high-speed cutting, improve processing efficiency and shorten processing time.
③ Good heat resistance: Able to adapt to high-temperature processing conditions and maintain stable performance. 3. Typical applications
① Automobile manufacturing: used to produce high-strength parts and engine components.
② Aerospace: Manufacturing aircraft fuselages, engines and other key components.
③ Medical equipment: Used to manufacture high-precision medical tools and equipment.
④ Energy industry: Used to process key parts in oil, natural gas and power equipment. In short, compared with other cemented carbides, titanium cobalt cemented carbides have better oxidation resistance and heat resistance, and are particularly suitable for processing tasks with high strength and durability requirements in high-temperature environments.

03
Tantalum cobalt cemented carbide TaC-WC-CoTantalum cobalt cemented carbide tools are suitable for processing wear-resistant steel, high-temperature alloys, difficult-to-cut materials, etc.
1. Material characteristics
① High hardness: It has extremely high hardness to ensure that the blade is sharp during the cutting process.
② High toughness: Good toughness, able to withstand large cutting forces and impacts.
③ Wear resistance: Excellent wear resistance, significantly extending the service life of the tool.
④ Thermal stability: It can maintain mechanical properties in high temperature environments and reduce tool wear and deformation.
2. Processing advantages
① High precision: It can achieve high-precision processing and is suitable for the manufacture of high-precision parts.
② Good heat resistance: It can be cut under high temperature conditions to improve processing efficiency.
③ Corrosion resistance: It can maintain stable performance in corrosive environments and has a wide range of applications. 3. Typical applications
① Aerospace: Used to manufacture high-temperature components and turbine blades.
② Electronics industry: Produce wear-resistant electronic components.
③ Medical equipment: Manufacture high-strength surgical tools.
④ Energy industry: Used to manufacture key parts of nuclear power plant equipment. In short, compared with other cemented carbides, tantalum- cemented carbides have higher corrosion resistance and toughness, and are particularly suitable for precision machining tasks in corrosive environments and high stress conditions.

04
Titanium-tantalum- cemented carbide TiC-TaC-WC-Co titanium-tantalum- cemented carbide tools are suitable for processing high-strength alloys, heat-resistant alloys and difficult-to-process materials.
1. Material characteristics
① High hardness: It has extremely high hardness to ensure that the tool remains sharp during the cutting process.
② High strength: Excellent strength, able to withstand large cutting forces and impacts.
③ Wear resistance: Excellent wear resistance, extending the service life of the tool.
④ Heat resistance: Maintain good mechanical properties in high-temperature cutting, reduce tool wear and deformation.
2. Processing advantages
① High precision: Suitable for high-precision processing, meeting the requirements of precision parts manufacturing.
② Good heat resistance: Able to process in high-temperature environments to improve processing efficiency.
③ Widely applicable: Suitable for the processing of a variety of materials, with a wide range of applications.
3. Typical applications
① Automobile manufacturing: used for the production of high-precision engine parts.
② Mold manufacturing: Produce high-wear-resistant and high-precision molds.
③ Medical equipment: Suitable for the manufacture of complex surgical implants.
④ Petroleum industry: Key parts for drilling equipment. In short, compared with other cemented carbides, titanium, tantalum, and cobalt cemented carbides have higher comprehensive performance and are particularly suitable for complex and precision machining under high strength and high temperature conditions.