Research on the microstructure and wear resistance of titanium alloy structural members repaired by laser cladding

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• 作者：Weifu Wang ; Maocai Wang ; Zhang Jie ; Fengjiu Sun ; Dawei Huang
• 关键词：Laser cladding ; Titanium alloy ; Repair ; Microstructure ; Wear resistance
• 刊名：Optics and Lasers in Engineering
• 出版年：2008
• 出版时间：November 2008
• 年：2008
• 卷：46
• 期：11
• 页码：810-816
• 全文大小：1150 K

文摘

Aero-engine overhaul calls for low-cost and high-quality method to solve the failure of structural members. This paper presents a pulsed-laser cladding (repair coating) of near α titanium alloy used for structural member repairing and investigates the microstructures, microhardness and wear resistance of the repair coating. The repair coating is mainly composed of α′ martensite. The center region of the melting zone formed by each single pulse is characterized by micro-acicular martensite. At the margin, the microstructure shows columnar morphology. With a simplified model of laser cladding, the formation of columnar morphology is discussed. Compared with the substrate, the repair coatings show near performances on microhardness and wear resistance, and decrease the wear of lining pads dramatically in same condition. The different performances between repair coatings and substrate are mainly attributed to the different microstructures and the diffusive behaviors of O, C, and other elements. The results above indicate that, it is feasible to repair the near α titanium alloy structural members by pulse-laser cladding.