大孔径高孔隙率烧结泡沫钛的造孔剂研究述评
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摘要
大孔径高孔隙率烧结泡沫钛具有传统松装烧结多孔钛不可比拟的新奇物理化学性能,在航空航天、生物医学、新能源汽车和环境保护等领域有着广阔的应用前景。在作者及团队研究工作的基础上,对国内外用于制备大孔径高孔隙率泡沫钛材料的造孔剂进行了述评。总结了造孔剂的种类并根据它们的属性进行了分类,分析相关文献,筛选出了使用最为广泛的尿素、碳酸氢铵和氯化钠3种造孔剂,并重点介绍了它们的特性、脱除过程和制备的泡沫钛的结构特征,通过比较指出了造孔剂的发展趋势。
Because of their novel physical and chemical properties when compared with conventional loose sintered porous titanium,titanium foams with large pores and high porosity are attractive in fields of aerospace,biomedicine,new energy automobile and environmental protection. On the basis of the writer's research,this paper gives a review on space holders in preparation of titanium foams. First of all,the category of space holders was summarized and classified in accordance with their attributes. Then the most extensive kinds of space holders: carbamide,NH4 HCO3 and Na Cl,were sieved from analyzing literatures and their speciality,removal process and structure features of obtained titanium foams were emphatically introduced. Finally the future development trends of space holders were pointed out.
Because of their novel physical and chemical properties when compared with conventional loose sintered porous titanium,titanium foams with large pores and high porosity are attractive in fields of aerospace,biomedicine,new energy automobile and environmental protection. On the basis of the writer's research,this paper gives a review on space holders in preparation of titanium foams. First of all,the category of space holders was summarized and classified in accordance with their attributes. Then the most extensive kinds of space holders: carbamide,NH4 HCO3 and Na Cl,were sieved from analyzing literatures and their speciality,removal process and structure features of obtained titanium foams were emphatically introduced. Finally the future development trends of space holders were pointed out.
引文
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[2]Ashby M F,Evans A G,Fleck N A,et al.Metal Foams:A Design Guide[M].Amsterdam,Netherlands:Elsevier,2000:1755.
[3]BBenjamin S.US,486209[P].1948-01-20.
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[5]Xiao Jian(肖健),Qiu Guibao(邱贵宝).Rare Metal Metarials and Engineering(稀有金属材料与工程)[J],2017,46(6):1734-1748.
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[16]Xiao J,Cui H,Qiu G,et al.Materials Design[J],2015,88:132-137.
[17]Xiao Jian(肖健),Cui Hao(崔豪),Qiu Guibao(邱贵宝)Journal of Functional Materials(功能材料)[J],2015,46(22):22015-22021.
[18]Bansiddhi A,Dunand D C.Intermetallics[J],2007,15(12):1612-1622.
[19]Esen Z,Bor.Scripta Materialia[J],2007,56(5):341-344.
[20]Bansiddhi A,Dunand D.Acta Biomaterialia[J],2008,4(6):1996-2007.
[21]Hong T,Guo Z,Yang R.Journal of Materials Science:Materials in Medicine[J],2008,19(12):3489-3495.
[22]Kwok P J,Oppenheimer S M,Dunand D C.Advanced Engineering Materials[J],2008,10(9):820-825.
[23]Chino Y,Dunand D C.Advanced Engineering Materials[J],2009,11(1-2):52-55.
[24]Dabrowski B,Swieszkowski W,Godlinski D,et al.Journal of Biomedical Materials Research Part B:Applied Biomaterials[J],2010,95(1):53-61.
[25]Wang Y,Shen Y,Wang Z,et al.Materials Letters[J],2010,64(6):674-676.
[26]Engin G,Aydemir B,Gulsoy H O.Rare Metals[J],2011,30(6):565-571.
[27]Mansourighasri A,Muhamad N,Sulong A.Journal of Materials Processing Technology[J],2012,212(1):83-89.
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[29]Jakubowicz J,Adamek G,Dewidar M.Journal of Porous Materials[J],2013,20:1137-1141.
[30]Mondal D P,Patel M,Das S,et al.Materials Design[J],2014,63:89-99.
[31]Tuncer N,Bram M,Laptev A,et al.Journal of Materials Processing Technology[J],2014,214(7):1352-1360.
[32]Noor F M,Zain M I M,Jannaludin K R,et al.Potassium Bromide as Space Holder for Titanium Foam Preparation[M].Switzerland:Trans Tech Publications,2014:922-926.
[33]Lee B,Lee T,Lee Y,et al.Materials Design[J],2014,57:712-718.
[34]Torres Y,Rodriguez J A,Arias S,et al.Journal of Materials Science[J],2012,47(18):6565-6576.
[35]Zhang F,Otterstein E,Burkel E.Advanced Engineering Materials[J],2010,12(9):863-872.
[36]Aydo mu T,Bor.Journal of Alloys and Compounds[J],2009,478(1):705-710.
[37]Shbeh M M,Goodall R.Materials Design[J],2015,87:295-302.
[38]Li BQ,Li ZQ,Lu X.Transactions of Nonferrous Metals Society of China[J],2015,25(9):2965-2973.
[39]Mondal D P,Patel M,Jain H,et al.Materials Science and Engineering:A[J],2015,625:331-342.
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[41]Aydogmus T,Bor E T,Bor S.Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science[J],2011,42A(9):2547-2555.
[42]Kim S W,Jung H D,Kang M H,et al.Materials Science and Engineering:C[J],2013,33(5):2808-2815.
[43]Bram M,Kempmann C,Laptev A,et al.Advanced Engineering Materials[J],2003,5(6):441-447.
[44]Dewidar M,Mohamed H F,Lim J K.Journal of Materials Science&Technology[J],2008,24(6):931-935.
[45]Niu W,Bai C,Qiu G,et al.Materials Science and Engineering:A[J],2009,506(1-2):148-151.
[46]Tuncer N,Arslan G.Journal of Materials Science[J],2009,44(6):1477-1484.
[47]Tuncer N,Arslan G,Maire E,et al.Materials Science and Engineering:A[J],2011,528(24):7368-7374.
[48]Sharma M,Gupta G K,Modi O P,et al.Materials Letters[J],2011,65(21-22):3199-3201.
[49]Tuncer N,Arslan G,Maire E,et al.Materials Science and Engineering:A[J],2011,530(1):633-642.
[50]Sharma M,Gupta G,Modi O,et al.Powder Metallurgy[J],2012,56(1):55-60.
[51]Smorygo O,Marukovich A,Mikutski V,et al.Materials Letters[J],2012,83:17-19.
[52]Hosseini S A,Yazdani-Rad R,Kazemzadeh A,et al.Journal of Materials Engineering and Performance[J],2014,23(3):799-808.
[53]Arifvianto B,Leeflang M A,Zhou J.Materials Characterization[J],2016,121:48-60.
[54]Arifvianto B,Leeflang M A,Zhou J.Journal of the Mechanical Behavior of Biomedical Materials[J],2017,68:144-154.
[55]Laptev A,Bram M,Buchkremer H,et al.Powder Metallurgy[J],2004,47(1):85-92.
[56]Laptev A,Vyal O,Bram M,et al.Powder Metallurgy[J],2005,48(4):358-364.
[57]Imwinkelried T.Journal of Biomedical Materials Research Part A[J],2007,81(4):964-970.
[58]Liu Xuebin(刘学斌),Ma Mu(马募),Wang Xiufeng(王秀峰),et al.Rare Metal Materials&Engineering(稀有金属材料与工程)[J],2008,37(2):277-280.
[59]Lin J G,Li Y C,Wong C S,et al.Journal of Alloys and Compounds[J],2009,485(1-2):316-319.
[60]Singh R,Lee P D,Lindley T C,et al.Acta Biomaterialia[J],2009,5(1):477-487.
[61]Amigo V,Reig L,Busquets D J,et al.Powder Metallurgy[J],2011,54(1):67-70.
[62]Fan X,Feng B,Weng J,et al.Materials Letters[J],2011,65(19-20):2899-2901.
[63]Kashef S,Asgari A,Hilditch T B,et al.Materials Science and Engineering:A[J],2011,528(3):1602-1607.
[64]Li Y,Fan T,Zhang N.Rare Metal Materials&Engineering[J],2011,40(S2):84-86.
[65]Fan X,Feng B,Di Y,et al.Applied Surface Science[J],2012,258(19):7584-7588.
[66]Wang L,Liu P,Wang L,et al.Materials and Manufacturing Processes[J],2013,28(11):1166-1170.
[67]Di Yuli(狄玉丽),Feng Bo(冯波),Fan Xingping(范兴平),et al.Rare Metal Materials&Engineering(稀有金属材料与工程)[J],2013,42(4):814-818.
[68]Fan Xingping(范兴平).Heat Treatment of Metals(金属热处理)[J],2014,39(7):50-53.
[69]Wen C E,Yamada Y,Shimojima K,et al.Journal of Materials Research[J],2002,17(10):2633-2639.
[70]Wen C,Yamada Y,Shimojima K,et al.Journal of Materials Science:Materials in Medicine[J],2002,13(4):397-401.
[71]Munoz S,Pavon J,Rodriguez-Ortiz J A,et al.Materials Characterization[J],2015,108:68-78.
[72]Yue X Z,Fukazawa H,Kitazono K.Materials Science and Engineering:A[J],2016,673:83-89.
[73]Chen L J,Li T,Li Y M,et al.Transactions of Nonferrous Metals Society of China[J],2009,19(5):1174-1179.
[74]Ye B,Dunand D C.Materials Science and Engineering:A[J],2010,528(2):691-697.
[75]Li Ting(李挺),Li Yimin(李益民),Chen Liangjian(陈良建),et al.Rare Metal Materials&Engineering(稀有金属材料与工程)[J],2011,40(2):335-338.
[76]Torres Y,Pavon J J,Rodriguez J A.Journal of Materials Processing Technology[J],2012,212(5):1061-1069.
[77]Wang X H,Li J S,Hu R,et al.Transactions of Nonferrous Metals Society of China[J],2013,23(8):2317-2322.
[78]Jha N,Mondal D P,Majumdar J D,et al.Materials Design[J],2013,47:810-819.
[79]Torres Y,Lascano S,Bris J,et al.Materials Science&Engineering C-Materials for Biological Applications[J],2014,37:148-155.
[80]Jia J,Siddiq A R,Kennedy A R.Journal of the Mechanical Behavior of Biomedical Materials[J],2015,48:229-240.
[81]Lee D J,Jung J M,Latypov M I,et al.Computational Materials Science[J],2015,100:2-7.
[82]Perez L,Lascano S,Aguilar C,et al.Materials Design[J],2015,83:276-283.
[83]Wang X H,Li J S,Hu R,et al.Transactions of Nonferrous Metals Society of China[J],2015,25(5):1543-1550.
[84]Ozbilen S,Liebert D,Beck T,et al.Materials Science&Engineering C-Materials for Biological Applications[J],2016,60:446-457.
[85]Torres Y,Trueba P,Pavón J J,et al.Materials Design[J],2016,110:179-187.