Effect of Carburization on the Mechanical Properties of Biomedical Grade Titanium Alloys

Titanium cermets were successfully synthesized on the surface of biomedical grade titanium alloys by using sequential carburization method. The mechanical properties such as hardness, fracture toughness and plasticity were measured to estimate the potential application of titanium cermets. The resul...

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Published in	Journal of bionics engineering Vol. 8; no. 1; pp. 86 - 89
Main Authors	Luo, Yong, Jiang, Haibo, Cheng, Gang, Liu, Hongtao
Format	Journal Article
Language	English
Published	Singapore Elsevier Ltd 01.03.2011 Springer Singapore
Subjects	Artificial Intelligence Biochemical Engineering Bioinformatics Biomaterials Biomedical Engineering and Bioengineering Biomedical Engineering/Biotechnology ceramics Engineering hardness sequential carburization surfaces titanium alloys 力学性能宾夕法尼亚州断裂韧性生物医学表面渗碳表面硬度金属陶瓷钛合金 sequential carburization hardness ceramics titanium alloys surfaces
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ISSN	1672-6529 2543-2141
DOI	10.1016/S1672-6529(11)60004-8

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Abstract	Titanium cermets were successfully synthesized on the surface of biomedical grade titanium alloys by using sequential carburization method. The mechanical properties such as hardness, fracture toughness and plasticity were measured to estimate the potential application of titanium cermets. The results show that after carburization the surface hardness of titanium cermets was 778 HV, with a significant improvement of 128% compared with that of titanium alloys. In addition, the fracture toughness of titanium cermets was 21.5 × 10^6 Pa.m^1/2, much higher than that of other ceramics. Furthermore, the analysis of the loading-unloading curve in the nanoindentation test also indicates that the plasticity of titanium cermet reached 32.1%, a relatively high value which illustrates the combination of the metal and ceramics properties. The results suggest that sequential carburization should be an efficient way to produce titanium cermets with hard surface, high toughness and plasticity.
AbstractList	Titanium cermets were successfully synthesized on the surface of biomedical grade titanium alloys by using sequential carburization method. The mechanical properties such as hardness, fracture toughness and plasticity were measured to estimate the potential application of titanium cermets. The results show that after carburization the surface hardness of titanium cermets was 778 HV, with a significant improvement of 128% compared with that of titanium alloys. In addition, the fracture toughness of titanium cermets was 21.5 × 10^6 Pa.m^1/2, much higher than that of other ceramics. Furthermore, the analysis of the loading-unloading curve in the nanoindentation test also indicates that the plasticity of titanium cermet reached 32.1%, a relatively high value which illustrates the combination of the metal and ceramics properties. The results suggest that sequential carburization should be an efficient way to produce titanium cermets with hard surface, high toughness and plasticity. Titanium cermets were successfully synthesized on the surface of biomedical grade titanium alloys by using sequential carburization method. The mechanical properties such as hardness, fracture toughness and plasticity were measured to estimate the potential application of titanium cermets. The results show that after carburization the surface hardness of titanium cermets was 778 HV, with a significant improvement of 128% compared with that of titanium alloys. In addition, the fracture toughness of titanium cermets was 21.5×10 6 Pa·m 1/2, much higher than that of other ceramics. Furthermore, the analysis of the loading-unloading curve in the nanoindentation test also indicates that the plasticity of titanium cermet reached 32.1%, a relatively high value which illustrates the combination of the metal and ceramics properties. The results suggest that sequential carburization should be an efficient way to produce titanium cermets with hard surface, high toughness and plasticity. Titanium cermets were successfully synthesized on the surface of biomedical grade titanium alloys by using sequential carburization method. The mechanical properties such as hardness, fracture toughness and plasticity were measured to estimate the potential application of titanium cermets. The results show that after carburization the surface hardness of titanium cermets was 778 HV, with a significant improvement of 128% compared with that of titanium alloys. In addition, the fracture toughness of titanium cermets was 21.5 × 106 Pa·m½, much higher than that of other ceramics. Furthermore, the analysis of the loading- unloading curve in the nanoindentation test also indicates that the plasticity of titanium cermet reached 32.1%, a relatively high value which illustrates the combination of the metal and ceramics properties. The results suggest that sequential carburization should be an efficient way to produce titanium cermets with hard surface, high toughness and plasticity. Titanium cermets were successfully synthesized on the surface of biomedical grade titanium alloys by using sequential carburization method. The mechanical properties such as hardness, fracture toughness and plasticity were measured to estimate the potential application of titanium cermets. The results show that after carburization the surface hardness of titanium cermets was 778 HV, with a significant improvement of 128% compared with that of titanium alloys. In addition, the fracture toughness of titanium cermets was 21.5x10[super]6 Pa super(.m[super]1/2, much higher than that of other ceramics. Furthermore, the analysis of the loading-unloading curve in the nanoindentation test also indicates that the plasticity of titanium cermet reached 32.1%, a relatively high value which illustrates the combination of the metal and ceramics properties. The results suggest that sequential carburization should be an efficient way to produce titanium cermets with hard surface, high toughness and plasticity.)
Author	Luo, Yong Jiang, Haibo Liu, Hongtao Cheng, Gang
AuthorAffiliation	Institute of Tribology and Reliability Engineering, School of Material Science and Engineering, China University of Mining and Technology, Xuzhou 221116, P. R. China Mechanical and Electrical Engineering Institute, Xuzhou Normal University, Xuzhou 221116, P. R. China
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Cites_doi	10.1016/S1672-6529(08)60116-X 10.1016/S1006-1266(07)60106-0 10.1016/S0257-8972(03)00137-3 10.1016/j.matchemphys.2009.01.016 10.1016/j.wear.2007.01.045 10.1016/j.elecom.2008.01.026 10.1016/S0043-1648(03)00198-4 10.1016/j.wear.2006.03.008 10.1016/j.biomaterials.2004.02.026 10.1016/0254-0584(95)80035-2 10.1016/S0043-1648(96)07454-6 10.1063/1.1560862 10.1016/j.jmatprotec.2004.06.025 10.1016/j.jcrysgro.2007.02.018 10.1016/j.msea.2005.01.011 10.1016/S1359-6462(97)00393-X
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Snippet	Titanium cermets were successfully synthesized on the surface of biomedical grade titanium alloys by using sequential carburization method. The mechanical...
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SubjectTerms	Artificial Intelligence Biochemical Engineering Bioinformatics Biomaterials Biomedical Engineering and Bioengineering Biomedical Engineering/Biotechnology ceramics Engineering hardness sequential carburization surfaces titanium alloys 力学性能宾夕法尼亚州断裂韧性生物医学表面渗碳表面硬度金属陶瓷钛合金
Title	Effect of Carburization on the Mechanical Properties of Biomedical Grade Titanium Alloys
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