具有良好生物相容性、耐腐蚀性和力学强度的钛合金是近年来人体硬组织替代材料的研究热点.如何降低钛合金的弹性模量,进一步提高其生物力学相容性已受到国内外科研工作者的重点关注.综述了国内外在降低钛合金弹性模量方面的研究进展,对如何进一步降低钛合金弹性模量提出了建议.
参考文献
| [1] | 周长忍.生物材料学[M].北京:中国医药科技出版社,2004:114. |
| [2] | Niinomi Mitsuo .Mechanical biocompatibilities of titanium alloys for biomedical applications[J].Journal of the Mechanical Behavior of Biomedical Materials,2008,1(01):30. |
| [3] | 李世普.生物医用材料导论[M].武汉:武汉工业大学出版社,2000:11. |
| [4] | Genfen A.Computational simulations of stress shielding and bone resorption around existing and computer-designed orthopedic screws[J].Medical and Biological Engineering and Computing,2002(40):311. |
| [5] | Genfen A.Optimizing the biomechanical compatibility of orthopedic screws for bone fracture fixation[J].Medical Engineering and Physics,2002(24):337. |
| [6] | López M F;Gutiérrez A;Jiménez J A .Surface characterization of new non-toxic titanium alloys for use as biomaterials[J].Surface Science,2001,482(01):300. |
| [7] | 邓安华 .钛合金的马氏体相变[J].上海有色金属,1999,20(04):193. |
| [8] | Matsumoto Hiroaki;Watanabe Sadao;Hanada Shuji.α'martensite Ti-V-Sn alloys with low Young's modulus and high strength[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2007(448):39. |
| [9] | 常辉,周廉,张廷杰.钛合金固态相变的研究进展[J].稀有金属材料与工程,2007(09):1505-1510. |
| [10] | 赵树萍;吕双坤;郝文杰.钛合金及其表面处理[M].哈尔滨:哈尔滨工业大学出版社,2003:10. |
| [11] | Collings E W.The physical metallurgy of titanium alloys[M].Metals Park OH:ASM Press,1984:32. |
| [12] | Niinomi M. .Mechanical properties of biomedical titanium alloys[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,1998(1/2):231-236. |
| [13] | 于振涛,周廉,牛金龙,袁思波,贺新杰,皇甫强,张亚锋.合金元素、加工与热处理对医用β型钛合金力学性能的影响及微观分析[J].稀有金属,2007(04):416-419. |
| [14] | Rack HJ;Qazi JI .Titanium alloys for biomedical applications[J].Materials science & engineering, C. Biomimetic and supramolecular systems,2006(8):1269-1277. |
| [15] | Zhou Yinglong;Niinomi Mitsuo .Microstructures and mechanical properties of Ti-50mass% Ta alloy for biomedical applications[J].Journal of Alloys and Compounds,2008,466(1-2):535. |
| [16] | 周彦邦.钛合金铸造概论[M].北京:航空工业出版社,2000:14. |
| [17] | 司乃潮;傅明喜.有色金属材料及制备[M].北京:化学工业出版社,2006:107. |
| [18] | Song Y;Xu D S.Theoretical study of the effects of alloying elements on the strength and modulus of β-type bio-titanium alloys[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,1999(260):269. |
| [19] | Zhou Yinglong;Niinomi Mitsuo;Akahori Toshikazu.Effects of Ta content on Young's modulus and tensile properties of binary Ti-Ta alloys for biomedical applications[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2004(371):283. |
| [20] | Kim Han-Sol;Kim Won-Yong;Lim Sung-Hwan.Microstructure and elastic modulus of Ti-Nb-Si ternary alloys for biomedical applications[J].Scripta Materialia,2006(54):887. |
| [21] | Silva H M;Schneider S G;Moura Nero C.Study of nontoxic aluminum and vanadium-free titanium alloys for biomedical applications[J].Materials Science and Engineering C:Biomimetic and Supramolecular Systems,2004(24):679. |
| [22] | Hao Y L;Li S J;Sun S Y.Effect of Zr and Sn on Young's modulus and superelasticity of Ti-Nb-based alloys[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2006(441):112. |
| [23] | 张志辉,王希哲,商顺利,白克武,沈剑韵.加工工艺对高弹高强钛合金弹性模量的影响[J].稀有金属,2001(01):19-22. |
| [24] | Matsumoto Hiroaki;Chiba Akihiko;Hanada Shuji .Anisotropy of Young's modulus and tensile properties in cold rolled martensite Ti-V-Sn alloys[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2008,486(1-2):503. |
| [25] | 李虎 .生物力学相容多孔钛的制备及其活化研究[D].四川大学,2005. |
| [26] | 丑晓明 .粉末冶金钛合金及多孔钛研究[D].中南大学,2007. |
| [27] | 李伯琼,陆兴,王德庆.制备工艺对多孔钛的微观结构和压缩性能的影响[J].大连铁道学院学报,2006(03):70-76. |
| [28] | 王泽 .多孔钛基表面复合材料的制备与表征[D].广州:暨南大学,2008. |
| [29] | Froes F H;Eylon D;Eichelman G E et al.Developments in titanium powerer metallurgy[J].JOM-Journal of the Minerals Metals and Materials Society,1980,32(02):47. |
| [30] | 宁聪琴 .Ti/HA生物复合材料的力学性能与生物学行为[D].哈尔滨工业大学,2001. |
| [31] | 储成林;朱景川;尹钟大 .HA-Ti/Ti/HA-Ti轴对称生物功能梯度材料的制备及其热应力缓和特性[J].中国有色金属学报,1999,9(增1):57. |
| [32] | 庞鹏沙 .粉末冶金纳米羟基磷灰石-钛复合材料的制备及生物活性[D].广州:暨南大学,2006. |
| [33] | 张辉耀 .提高钛及钛合金种植体表面生物活性的方法[J].国外医学(口腔医学分册),2004,31(增刊):109. |
| [34] | 黄岳山,赵修华,吴源青.微弧氧化改性二氧化钛生物活性膜的研究进展[J].医疗卫生装备,2004(04):22-23. |
| [35] | 张玉梅,赵铱民,黄平,憨勇,P Bataillon-1inez,H F Hildebrand,M Traisnel.钛表面处理后表面能分析及对细胞附着的影响[J].稀有金属材料与工程,2004(05):518-521. |
| [36] | 刘建平;旷亚非 .微弧氧化技术及其发展[J].材料导报,1998,12(05):27. |
| [37] | 赵树萍.钛及其合金微弧氧化镀层的形成及性质[J].钛工业进展,2002(03):5-8. |
| [38] | 张鹏 .工艺参数对钛材微弧氧化膜层厚度、结合强度及生物活性的影响[D].广州:暨南大学,2008. |
| [39] | 黄平,徐可为,憨勇.钛合金表面微弧氧化膜的特点及成膜分析[J].稀有金属材料与工程,2003(04):272-275. |
| [40] | 黄艳 .钛基表面复合材料的制备及其生物活性和摩擦学研究[D].广州:暨南大学,2007. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%