Tungsten carbide is a common material used in industrial applications. It is hard and strong, making it an ideal choice for projects that require durability and wear resistance. But what are the exact tungsten carbide specifications? Let’s look at some of the most important ones and why they are so important.
Tungsten Carbide Specifications
High melting point
Tungsten carbide has a very high melting point, making it ideal for use in high-temperature applications. It can withstand temperatures up to 3000 degrees Celsius without being damaged. This makes it an ideal material for use in furnace linings and other high-temperature applications.
Tungsten carbide is also very dense, with a density of around 15 grams per cubic centimeter. This makes it an ideal material for use in weight-bearing applications such as golf clubs and drill bits.
Tungsten carbide is a good conductor of heat, meaning that it can quickly dissipate heat away from its surface. This makes it an ideal material for use in applications where heat needs to be quickly removed, such as car brakes and turbine blades.
Tungsten carbide is also a good conductor of electricity, meaning that it can be used in electrical applications such as wiring and electrical contacts.
Tungsten carbide is extremely strong, making it ideal for use in high-strength applications such as cutting tools and armour plating.
Hardness & Wear Resistance
One of the essential tungsten carbide specifications is its hardness rating. This rating determines just how durable the material is and its wear resistance. Tungsten carbide can be up to three times harder than steel, giving it exceptional strength and durability. Additionally, it has a very low friction coefficient, making it highly resistant to wearing down over time. This makes it an ideal choice for components that need to withstand heavy use or for tools that will be exposed to harsh elements such as heat and pressure.
Chemical Composition & Corrosion Resistance
Another important tungsten carbide specification is its chemical composition. The primary ingredient in tungsten carbide is carbon, but other substances, such as cobalt or nickel, can be added depending on the application. The addition of these substances helps increase corrosion resistance since they act as a barrier against moisture and other damaging elements. They also help improve performance by reducing wear on components due to friction or sudden impacts.
The temperature tolerance of tungsten carbide is also an important specification that should not be overlooked. Tungsten carbide can withstand temperatures up to 1400°C (2550°F), making it suitable for applications with high temperatures, such as automotive parts or welding tools, are expected. It also has excellent thermal conductivity, which means it can dissipate heat quickly and efficiently, so components don’t overheat during operation.
Tungsten carbide has many valuable properties that make it perfect for industrial applications, such as strength, durability, corrosion resistance, temperature tolerance, and more! Knowing exactly what the different tungsten specifications are can help you determine if this material is suitable for your project or tooling needs so you get the maximum performance out of your investment! If you have any questions about specific tungsten carbide specifications or advice on which type would work best for your needs, speak with one of our experts today!
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