原位制备碳化钛颗粒增强钛基复合材料研究进展
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摘要
总结了原位反应法制备钛基复合材料的特点;介绍了5种制备碳化钛颗粒增强钛基复合材料的原位合成工艺;综述了原位制备碳化钛颗粒增强钛基复合材料的微观组织、力学性能以及耐磨性的研究进展,并对其未来的发展进行了展望。
The advantages of in-situ reaction for the preparation of titanium composite material were summarized. Five techniques of in-situ synthesis were introduced. The research progresses of in-situ carbide particulate reinforced titanium matrix composites in microstructure, mechanical properties and wear resistance were reviewed. The future development of in-situ carbide particulate reinforced titanium matrix composites was prospected.
The advantages of in-situ reaction for the preparation of titanium composite material were summarized. Five techniques of in-situ synthesis were introduced. The research progresses of in-situ carbide particulate reinforced titanium matrix composites in microstructure, mechanical properties and wear resistance were reviewed. The future development of in-situ carbide particulate reinforced titanium matrix composites was prospected.
引文
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[2]许哲峰.纯钛板阳极氧化后在腐蚀介质中的电化学性能研究[J].热加工工艺,2017,46(6):155-159.
[3]程巨强,史超.钛合金的组织、性能及加工技术研究进展[J].热加工工艺,2016,45(2):5-8.
[4]Liu Y,Yong L,Tang H,et al.Fabrication and mechanical properties of in situ TiC/Ti metal matrix composites[J].Journal of Alloys&Compounds,2011,509(509):3592-3601.
[5]谢建华,王树奇,杨永涛.内生颗粒增强铁基表面复合材料的研究进展[J].表面技术,2005,34(2):4-7.
[6]彭德林,赵璐华,杜立明.陶瓷颗粒增强钛基复合材料的研究进展[J].钛工业进展,2010,27(2):1-8.
[7]张宇,王小美,葛禹锡,等.原位合成技术制备金属基复合材料的研究进展[J].热加工工艺,2014,43(24):23-26.
[8]樊少忠,钟黎声,程仕李,等.原位制备碳化钛颗粒增强钢铁基复合材料研究现状[J].热加工工艺,2015,44(10):16-19.
[9]Wei Z J,Cao L,Wang H W,et al.Microstructure and mechanical properties of TiC/Ti-6Al-4V composites processed by casting route[J].Materials Science and Technology,2011,27(8):1321-1327.
[10]Zhang C,Zhang S,Lin P,et al.Thermo mechanical processing of(TiB+TiC)/Ti matrix composites and effects on microstructure and tensile properties[J].Journal of Materials Research,2016,31(9):1-10.
[11]Zhao G,Huang C,He N,et al.Microstructure and mechanical properties at room and elevated temperatures of reactively hot pressed TiB2-TiC-SiC composite ceramic tool materials[J].Ceramics International,2016,42(4):5353-5361.
[12]Ruan M M,Feng X M,Ai T T,et al.Microstructure and mechanical properties of TiC/Ti3AlC2in situ composites prepared by hot pressing method[J].Materials Science Forum,2015(816):200-204.
[13]Kobashi M,Ichioka D,Kanetake N.Combustion synthesis of porous TiC/Ti composite by a self-propagating mode[J].Materials,2010,3(7):3939-3947.
[14]Licheri R,OrrùR,Cao G.Chemically-activated combustion synthesis of TiC-Ti composites[J].Materials Science&Engineering A,2004,367(367):185-197.
[15]吕维洁,杨志峰,张荻,等.原位合成钛基复合材料增强体TiC的微结构特征[J].中国有色金属学报,2002,12(3):511-515.
[16]Gu D,Wang Z,Shen Y,et al.In-situ TiC particle reinforced Ti-Al matrix composites:powder preparation by mechanical alloying and selective laser melting behavior[J].Applied Surface Science,2009,255(22):9230-9240.
[17]鞠红香.TC4钛合金表面TiC涂层的制备、组织与性能[J].铸造技术,2014(6):1230-1231.
[18]Hu H D,Liu Z D,Wang L.Microstructures and properties of TiC-reinforced me tal matrix composite coating on TC4 alloy prepared by laser cladding[J].Material Research Innovations,2016,19(9):192-197.
[19]余鹏程,刘秀波,陆小龙,等.Ti6Al4V合金表面激光熔覆复合涂层的高温摩擦学性能研究[J].摩擦学学报,2015,35(6):737-745.
[20]Qi J Q,Sui Y W,Chang Y,et al.Superior ductility in as-cast TiC/near-αTi composite obtained by three-step heat treatment[J].Vacuum,2016(216):1-4.
[21]Huang L J,Geng L,Xu H Y,et al.In situ,TiC particles reinforced Ti6Al4V matrix composite with a network reinforcement architecture[J].Materials Science&Engineering A,2011,528(6):2859-2862.
[22]Liu S N,Liu Z D,Yang W,et al.Ti-based composite coatings with gradient TiCxreinforcements on TC4 titanium alloy prepared by laser cladding[J].Science China Technological Sciences,2014,57(7):1454-1461.
[23]Kamynina O K,Vadchenko S G,Shchukin A S,et al.Multilayer coatings on Ti substrate by SHS method[J].International Journal of Self-Propagating High-Temperature Synthesis,2016,25(4):238-242.
[24]Li J,Yu Z S.Microstructural evolution of titanium matrix composite coatings reinforced by in situ synthesized TiB and TiC by laser cladding[J].International Journal of Minerals,Metallurgy,and Materials,2010,17(4):481-488.
[25]李俊刚,金云学,李庆芬.TiC/Ti-x Y基复合材料的熔铸法制备及微观组织[J].材料科学与工艺,2005,13(6):586-588.
[26]Yu H L,Zhang W,Wang H M,et al.In-situ synthesis of TiC/Ti composite coating by high frequency induction cladding[J].Journal of Alloys&Compounds,2017(701):244-255.
[27]Yang J,Pan L,Gu W,et al.Microstructure and mechanical properties of in situ synthesized(TiB2+TiC)/Ti3SiC2composites[J].Ceramics International,2012,38(1):649-655.
[28]郭世柏,康启平,黄庆兵.机械合金化及真空烧结法制备TiC/Ti材料[J].材料热处理学报,2010,31(5):22-25.
[29]Li Q H,Savalani M M,Zhang Q M,et al.High temperature wear characteristics of TiC composite coatings formed by laser cladding with CNT additives[J].Surface&Coatings Technology,2014(239):206-211.
[30]Monfared A,Kokabi A H,Asgari S.Microstructural studies and wear assessments of Ti/TiC surface composite coatings on commercial pure Ti produced by titanium cored wires and TIGprocess[J].Materials Chemistry&Physics,2013,137(3):959-966.