What question did this study set out to answer?

This study aims to evaluate the thermal stability of titanium–copper coatings on cubic boron nitride particles.

March 7, 2026

Enhanced Thermal Stability by Ti–Cu Coating on cBN Particle Surface Using Vacuum Vapor Deposition

Key Points

This study aims to evaluate the thermal stability of titanium–copper coatings on cubic boron nitride particles.
Deposited Ti–Cu coatings on cBN particle surfaces using vacuum vapor deposition techniques.
Conducted thermal stability tests at elevated temperatures (up to 750°C).
Compared performance to conventional titanium coatings.
Ti–Cu coatings display significantly enhanced thermal stability compared to titanium coatings.
Synergistic effects from the deposition process and composite material properties contribute to improvements.
Findings indicate potential for applications in next-generation grinding wheels and cutting instruments.

Abstract

The application of metal coating on cubic boron nitride (cBN) particles surfaces has emerged as an effective strategy for enhancing abrasive bonding performance, with thermal stability of these coatings recognized as a critical parameter in practical applications. This study investigates titanium–copper (Ti–Cu) coatings deposited onto cBN particle surfaces through vacuum vapor deposition techniques. Experimental findings demonstrate that Ti–Cu coatings exhibit significantly enhanced thermal stability at elevated temperatures (750°C) compared to conventional titanium coatings. This advancement stems from the synergistic integration of precise vacuum deposition process control with the inherent advantages of Ti–Cu composite materials, offering promising solutions for next-generation abrasive tools such as grinding wheels and cutting instruments.

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Enhanced Thermal Stability by Ti–Cu Coating on cBN Particle Surface Using Vacuum Vapor Deposition

Key Points

Abstract

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