Product Introduction
attachment:Carbide Turning Inserts for High Hard Materials.docxCarbide Turning Inserts for High Hard Materials: Precision and Durability
When tackling high-hardness materials you need carbide turning inserts that deliver on performance and longevity. Our carbide inserts are specifically designed for the challenges of machining hard materials, offering:Advanced Substrate: Engineered with a high-strength high-toughness substrate to withstand the rigors of hard material machining.
Multi-layer Coating: Equipped with a thick Al2O3 and TiN coating these inserts provide exceptional wear resistance and heat resistance ensuring a long tool life
Optimized for High Hardness: Ideal for semi-finishing of steel parts and other hard materials these inserts maintain their edge even under the most demanding conditions.
Grade TBC2005: This grade is a perfect blend of high strength and toughness coupled with an MT-TiCN thick Al2O3 and TiN coating. It's specifically designed for semi-finishing of steel parts, where a combination of hardness and toughness is required Grade TBC2015: For extreme durability, this grade features a high wear resistance substrate with a CVD coating. It offers strong resistance to plastic deformation and edge strength, making it ideal for finishing to semi-finish machining of steel. The grade's properties also make it easy to recognize when wear has set in allowing for timely replacement and minimal downtime
Why Choose Our Carbide Inserts for High Hard Materials?
Enhanced Performance: Our inserts are designed to maintain their sharpness and performance when machining materials up to 68 HRC.
Cost-Effective: By extending the life of your cutting tools and reducing the need for frequent replacements, you can lower your overall machining costs.
Versatility: Suitable for a wide range of hard materials, including hardened steel, these inserts are the versatile choice for your machining needs.
Application Tips:
Cutting Parameters: Optimize your cutting parameters to balance tool life and surface finish. Higher cutting speeds can be used for harder materials, while feed rates and depth of cut should be adjusted to avoid excessive heat and tool wear.
Coolant Usage: The use of coolant can significantly extend tool life and improve surface finish, especially when machining hard materials that generate a lot of heat.
Insert Selection: Choose the right insert geometry and size for your specific application to ensure efficient chip removal and minimal vibration.
Upgrade your machining capabilities with our carbide turning inserts, designed to handle the challenges of high-hard materials with ease and precision.
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