论述了渗流铸造法、定向凝固法、熔模铸造法、粉末冶金法、整体铸造法、熔体直接发泡法、真空发泡法和中空球铸造法等几种主要的泡沫镁制备方法,从泡沫镁合金的仿生性能和力学性能两方面突出泡沫镁合金在将来的汽车、航天航空、船舶、生医材料等领域的巨大应用潜力.在综述分析泡沫镁材料研究现状的基础上,针对存在的问题和不足,提出了泡沫镁合金今后研究发展的方向.
参考文献
[1] | Sosnick B .Process for making foamdike mass of metal[P].US2434775,1948-01-20. |
[2] | Yang Donghui;Yang Shangrun;Wang Hui et al.Compressive properties of cellular Mg foams fabricated by meltfoaming method[J].MATERIALS SCIENCE & ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,2010,527(21):5405. |
[3] | Akiyama S;Ueno H;Imagawa K et al.Foamed metal and method of producing same[P].US4713277,1987-12-15. |
[4] | Banhart J .Manufacture,characterisation and application of cellular metals and metal foams[J].Progress in Material Science,2001,46(06):559. |
[5] | John Banhart;Hans-Wolfgang Seeliger .Aluminium Foam Sandwich Panels: Manufacture, Metallurgy and Applications[J].Advanced Engineering Materials,2008(9):793-802. |
[6] | John Banhart;Hans-Wolfgang Seeliger .Recent Trends in Aluminum Foam Sandwich Technology[J].Advanced Engineering Materials,2012(12):1082-1087. |
[7] | Louis-Philippe Lefebvre;John Banhart;David C. Dunand .Porous Metals and Metallic Foams: Current Status and Recent Developments[J].Advanced Engineering Materials,2008(9):775-787. |
[8] | Mordike B L;Ebert T .Magnesium:Properties-applications-potential[J].Material Science and Engineering,2001,302(01):37. |
[9] | 周全,陈乐平.熔体发泡法制备泡沫镁材料的研究[J].特种铸造及有色合金,2009(03):224-226. |
[10] | Elliott J C .Metal foam and method for making[P].US2983597,1961-05-09. |
[11] | Yang Donghui;Hur Boyoung;Yang Shangrun .Study on fabrication and foaming mechanism of Mg foam using CaCO3 as blowing agent[J].Journal of Alloys and Compounds,2008,461(01):221. |
[12] | Park SH;Um YS;Kum CH;Hur BY .Thermophysical properties of Al and Mg alloys for metal foam fabrication[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2005(1/3):280-283. |
[13] | Park S H;Song K;Um Y S et al.Rheological characteristics of Mg-Al alloys with ceramic particles for meta foam[J].Materials Science Forum,2006,510-511:742. |
[14] | Yang Donghui;Seo C H;Wang X S .Fabrication of Mg alloy foam via melting foaming method using CaCO3 as blowing agent[J].J Korean Foundrymen' s Society,2006,26(06):272. |
[15] | Wen C E;Yamada Y;Shimojima K et al.Compressibility of porous magnesium foam:Dependency on porosity and pore size[J].Materials Letters,2004,58(03):357. |
[16] | C.E. Wen;M. Mabuchi;Y. Yamada .Processing of biocompatible porous Ti and Mg[J].Scripta materialia,2001(10):1147-1153. |
[17] | Gang Ling Hao;Fu Sheng Han;Wei Dong Li .Processing and mechanical properties of magnesium foams[J].Journal of porous materials,2009(3):251-256. |
[18] | Neu T R;Mukherjee M;Garcia-Moreno F.Magnesium and magnesium alloy foams[A].Busan,2011:133. |
[19] | Garcia-Moreno F;Banhart J .Foaming of blowing agent-free aluminium powder compacts[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2007(1/3):264-269. |
[20] | Shapovalov V I .Method for manufacturing porous articles[P].US5181549,1993-01-26. |
[21] | Nakajima H;Ikeda T;Hyun S K .Fabrication of lotus-type porous metals and their physical properties[J].Advancde Engineering Materials,2004,6(06):377. |
[22] | Liu Yuan;Li Yanxiang;Wan Jiang;Zhang Huawei .Evaluation of porosity in lotus-type porous magnesium fabricated by metal/gas eutectic unidirectional solidification[J].Materials Science & Engineering. A, Structural Materials: Properties, Microstructure and Processing,2005(1/2):47-54. |
[23] | Wang Xue;Li Yanxiang;Liu Yuan .Structural features in radial-type porous magnesium fabricated by radial solidification[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2007(1/2):306-313. |
[24] | Hyun S K;Murakami K;Nakajirna H .Anisotropic mechanical properties of porous copper fabricated by unidirectional solidification[J].MATERIALS SCIENCE & ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,2001,299(01):241. |
[25] | Nakajima H.;Ohashi K.;Ota K.;Murakami K.;Hyun SK. .Fabrication of porous copper by unidirectional solidification under hydrogen and its properties[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2001(2/3):209-214. |
[26] | 刘源,李言祥,张华伟.藕状多孔金属Mg的Gasar工艺制备[J].金属学报,2004(11):1121-1126. |
[27] | S. K. Hyun;H. Nakajima .Effect of solidification velocity on pore morphology of lotus-type porous copper fabricated by unidirectional solidification[J].Materials Letters,2003(21):3149-3154. |
[28] | J.S. Park;S.K. Hyun;S. Suzuki .Effect of transference velocity and hydrogen pressure on porosity and pore morphology of lotus-type porous copper fabricated by a continuous casting technique[J].Acta materialia,2007(16):5646-5654. |
[29] | 刘源,李言祥,刘润发,周荣,蒋业华,黎振华.连铸法Gasar工艺中抽拉速率对多孔金属结构影响的理论分析[J].金属学报,2010(02):129-134. |
[30] | 金青林,黎振华,李再久,杨天武,周荣.藕状多孔铜的连铸法制备工艺研究[J].铸造技术,2011(03):306-309. |
[31] | Hideo Nakajima .Fabrication of Lotus-type Porous Metals through Hydride Decomposition[J].Advanced Engineering Materials,2008(9):816-819. |
[32] | Y. Yamada;K. Shimojima .Processing of an open-cellular AZ91 magnesium alloy with a low density of 0.05 g/cm3[J].Journal of Materials Science Letters,1999(18):1477-1480. |
[33] | Gibson J K .Metal-aggkegate product[P].US3055763,1962-09-25. |
[34] | Kuchelr H A .Method of making porous metallic article[P].US3236706,1966-02-22. |
[35] | 徐建辉,冒国兵,陈乐平,胡志强.真空渗流铸造法制备泡沫镁合金材料的试验研究[J].江西冶金,2003(06):84-87. |
[36] | 冒国兵,徐建辉,陈乐平,胡志强.用新型填料制备泡沫镁和泡沫铝材料[J].特种铸造及有色合金,2003(06):8-10. |
[37] | Harald Wiehler;Carolin Korner;Robert F. Singer .High Pressure Integral Foam Moulding of Aluminium-Process Technology[J].Advanced Engineering Materials,2008(3):171-178. |
[38] | K(o)rner C;Hirschmann M;Wiehler H .Integral foam moulding of light metals[J].MATERIALS TRANSACTIONS,2006,47:2188. |
[39] | K(o)rner C;Hirschmann M;Singer R F .Verfahren zur herstellung eines metallschaumk(o)rpers[P].DE 102004032089,2005-12-08. |
[40] | K(o)rner C;Hirschmann M;Br(a)utigam V et al.Endogenous particle stabilization during magnesium integral foam production[J].Advancde Engineering Materials,2004,6(06):385. |
[41] | Ashby M F;Evans T;Fleck N A.Metal foams:A design guide[M].London:Butterworth-Heinemann,2000 |
[42] | Karin Rengerand;Helmut Kaufmann .Vacuum Foaming of Magnesium Slurries[J].Advanced Engineering Materials,2005(3):117-123. |
[43] | Hartmann M;Reindel K;Singer R F.Fabrication and properties of syntactic magnesium foams[A].,1998 |
[44] | A. Daoud;M. T. Abou El-khair;M. Abdel-Aziz;P. Rohatgi .Fabrication, microstructure and compressive behavior of ZC63 Mg-microballoon foam composites[J].Composites science and technology,2007(9):1842-1853. |
[45] | Gupta N;Luong D D;Cho K .Magnesium matrix composite foams-Density,mechanical properties,and applications[J].Metals,2012,2(03):238. |
[46] | Zhiqiu Huang;Sirong Yu;Jiaan Liu;Xianyong Zhu .Microstructure and mechanical properties of in situ Mg_2Si/AZ91D composites through incorporating fly ash cenospheres[J].Materials & design,2011(10):4714-4719. |
[47] | Rohatgi P K;Daoud A;Schultz B F et al.Microstructure and mechanical behavior of die casting AZ91D-Fly ash cenosphere composites[J].Compos Part A:Appl Sci Manuf,2009,40(06):883. |
[48] | Xin Y;Huo K;Tao H .Influence of aggressive ions on the degradation behavior of biomedical magnesium alloy in physiological environment.[J].Acta biomaterialia,2008(6):2008-2015. |
[49] | Wiesmann HP;Tkotz T;Joos U;Zierold K;Stratmann U;Szuwart T;Plate U;Hohling HJ .Magnesium in newly formed dentin mineral of rat incisor.[J].Journal of bone and mineral research: the official journal of the American Society for Bone and Mineral Research,1997(3):380-383. |
[50] | Serre CM;Papillard M;Chavassieux P;Voegel JC;Boivin G .Influence of magnesium substitution on a collagen-apatite biomaterial on the production of a calcifying matrix by human osteoblasts.[J].Journal of biomedical materials research, Part B. Applied biomaterials,1998(4):626-633. |
[51] | Kuwahara H.;Aizawa T. .Surface Reaction of Magnesium in Hank's Solutions[J].Materials Science Forum,2000(0):349-358. |
[52] | Staiger MP;Pietak AM;Huadmai J;Dias G .Magnesium and its alloys as orthopedic biomaterials: A review[J].Biomaterials,2006(9):1728-1734. |
[53] | 陈利;刘春雷;张庆明.闭孔泡沫镁材料静动态压缩力学性能与吸能特性[J].兵工学报,2009(z2):197. |
[54] | 潘艺,胡时胜,凤仪,朱震刚.泡孔尺寸对开孔泡沫铝合金力学性能的影响[J].工程力学,2003(04):171-175. |
[55] | 王志华 .泡沫铝合金动态力学性能及其吸能机理的研究[D].太原理工大学,2005. |
[56] | 田杰,胡时胜,蒋家桥,黄西成.泡沫金属材料的孔径效应[J].爆炸与冲击,2004(04):347-351. |
[57] | EXPERIMENTAL STUDY OF ENERGY ABSORPTION IN A CLOSE-CELLED ALUMINUM FOAM UNDER DYNAMIC LOADING[J].Scripta materialia,1999(8):921-927. |
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%