Effect of Y2O3 on Cracking Susceptibility of Laser-Clad Ti-Based Composites Coatings
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2014年第5期
论文作者:李军 LI Guangjie LUO Xing
文章页码:1011 - 1018
摘 要:Ti-based composite coatings reinforced by in situ synthesized TiB and TiC were deposited on Ti6Al4 V substrates by laser cladding. The effects of Y2O3 on the microstructure and cracking susceptibility of the coatings were investigated in details. It is shown that a small amount of Y2O3 addition can significantly refine the microstructure of the coatings by hastening spheroidization of the primary phase structure. The maximum refinement in microstructure was obtained with the optimum(2 wt%) addition of Y2O3. Moreover, it can increase the volume fraction of TiC and reduce the residual stress of the coatings due to the decrease in lattice distortion of the a(Ti) matrix. All of these factors lead to the reduction in cracking susceptibility of the coatings containing Y2O3 on the premise that the hardness of the coatings is improved. The fracture toughness of the coatings without and with Y2O3(2 wt%) is 8.32 and 17.36 MPa?m1/2, respectively. Scanning electron microscope examination reveals a transition of the fractured surfaces from cleavage fracture to quasi-cleavage fracture resulting from the Y2O3 addition.
李军,LI Guangjie,LUO Xing
School of Materials Engineering, Shanghai University of Engineering Science
摘 要:Ti-based composite coatings reinforced by in situ synthesized TiB and TiC were deposited on Ti6Al4 V substrates by laser cladding. The effects of Y2O3 on the microstructure and cracking susceptibility of the coatings were investigated in details. It is shown that a small amount of Y2O3 addition can significantly refine the microstructure of the coatings by hastening spheroidization of the primary phase structure. The maximum refinement in microstructure was obtained with the optimum(2 wt%) addition of Y2O3. Moreover, it can increase the volume fraction of TiC and reduce the residual stress of the coatings due to the decrease in lattice distortion of the a(Ti) matrix. All of these factors lead to the reduction in cracking susceptibility of the coatings containing Y2O3 on the premise that the hardness of the coatings is improved. The fracture toughness of the coatings without and with Y2O3(2 wt%) is 8.32 and 17.36 MPa?m1/2, respectively. Scanning electron microscope examination reveals a transition of the fractured surfaces from cleavage fracture to quasi-cleavage fracture resulting from the Y2O3 addition.
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