多孔钛及钛合金的研究进展
|
摘要
简要介绍了多孔金属材料的制备方法、特殊性能及应用状况,着重综述了多孔钛及钛合金的最新研究进展,总结了多孔钛及钛合金在制备和应用方面存在的问题,并对其未来的发展方向进行了展望。
Preparation methods,special properties and application of porous metal materials are briefly introduced.The latest research progress of porous titanium and its alloys are emphatically reviewed.Some problems existing in preparation and application of porous titanium and its alloy are summarized,and their future development directions are proposed.
Preparation methods,special properties and application of porous metal materials are briefly introduced.The latest research progress of porous titanium and its alloys are emphatically reviewed.Some problems existing in preparation and application of porous titanium and its alloy are summarized,and their future development directions are proposed.
引文
[1]刘培生.多孔材料引论[M].北京:清华大学出版社,2012:12.
[2]SLATER A G,COOPER A I.Function-led design of new porous materials[J].Science,2015,348(6 238):988-997.
[3]GEETHA M,SINGH A K,ASOKAMANI R,et al.Ti based biomaterials,the ultimate choice for orthopaedic implants—A review[J].Progress in Materials Science,2009,54(1):397-425.
[4]MA C C,LAN F C.Review the research trends and application in car body of aluminum foam[J].Applied Mechanics and Materials,2015,729:73-78.
[5]WANG X J,XU S Q,ZHOU S W,et al.Topological design and additive manufacturing of porous metals for bone scaffolds and orthopaedic implants:A review[J].Biomaterials,2016,83:127-141.
[6]STANGL R,RINNE B,KASTL S,et al.The influence of pore geometry in cp Ti-implants—A cell culture investigation[J].European Cells and Materials,2001,2:1-9.
[7]TEIXEIRA L N,CRIPPA G E,LEFEBVRE L P,et al.The influence of pore size on osteoblast phenotype expression in cultures grown on porous titanium[J].International Journal of Oral and Maxillofacial Surgery,2012,41(9):1 097-1 101.
[8]刘洁,刘旭燕,刘芳,等.纳米多孔铜钛合金的制备及其超级电容器性能[J].材料研究学报,2015,29(12):913-920.
[9]肖逸锋,刘艳,汤智,等.Ni-Cr-Fe多孔材料的制备及抗氧化性能[J].中国有色金属学报,2017,27(2):295-304.
[10]WANG H,ZHOU X Y,LONG B,et al.Thermal properties of closed-cell aluminum foams prepared by melt foaming technology[J].Transactions of Nonferrous Metals Society of China,2016,26(12):3 147-3 153.
[11]AGUILAR M A E,GRANA D R,HAZARABEDIAN A,et al.Zr-Ti-Nb porous alloys for biomedical application[J].Materials Science and Engineering C,2012,32(2):321-329.
[12]WANG X H,LI J S,HU R,et al.Mechanical properties of porous titanium with different distributions of pore size[J].Transactions of Nonferrous Metals Society of China,2013,23(8):2 317-2 322.
[13]WANG Q,QIAO Y Q,CHENG M Q,et al.Tantalum implanted entangled porous titanium promotes surface osseointegration and bone ingrowth[J].Scientific Reports,2016,6:26 248.
[14]ST-PIERRE J P,GAUTHIER M,LEFEBVRE L P,et al.Three-dimensional growth of differentiating MC3T3-E1pre-osteoblasts on porous titanium scaffolds[J].Biomaterials,2005,26(35):7 319-7 328.
[15]YE B,DUNAND D C.Titanium foams produced by solid-state replication of NaCl powders[J].Materials Science and Engineering A,2010,528(2):691-697.
[16]MUOZ S,PAVN J,RODRGUEZ-ORTIZ J A,et al.On the influence of space holder in the development of porous titanium implants:Mechanical,computational and biological evaluation[J].Materials Characterization,2015,108(10):68-78.
[17]李虎,虞奇峰,张波,等.浆料发泡法制备生物活性多孔钛及其性能[J].稀有金属材料与工程,2006,35(1):154-157.
[18]沈宏飞,尤德强,张鹏,等.以NH4HCO3为造孔剂制备的多孔钛及其力学性能[J].特种铸造及有色合金,2016,36(3):291-294.
[19]王晓花.生物多孔钛力学行为及孔结构表征[D].西安:西北工业大学,2014.
[20]胡海波,刘会群,王杰恩,等.生物医用多孔钛及钛合金的研究进展[J].材料导报,2012,26(S1):262-266,270.
[21]王哲君,强洪夫,王学仁.新型亚稳β钛合金Ti2448的温变形行为及本构模型[J].中国有色金属学报,2013,23(5):1 295-1 300.
[22]LU J,JIA Z,LI J,et al.Electron beam melting fabrication of porous Ti6Al4V scaffolds:Cytocompatibility and Osteogenesis[J].Advanced Engineering Materials,2015,17(9):1 391-1 398.
[23]HUANG H,LAN P H,ZHANG Y Q,et al.Surface characterization and in vivo performance of plasmasprayed hydroxyapatite-coated porous Ti6Al4V implants generated by electron beam melting[J].Surface&Coatings Technology,2015,283:80-88.
[24]AYDOMU爦T,BOR S.Superelasticity and compression behavior of porous TiNi alloys produced using Mg spacers[J].Journal of the Mechanical Behavior of Biomedical Materials,2012,15:59-69.
[25]颉芳霞,何雪明,俞经虎,等.生物医用多孔Ti-6Mo合金选择性激光烧结的结构特征和力学行为[J].稀有金属材料与工程,2016,45(6):1 477-1 482.
[2]SLATER A G,COOPER A I.Function-led design of new porous materials[J].Science,2015,348(6 238):988-997.
[3]GEETHA M,SINGH A K,ASOKAMANI R,et al.Ti based biomaterials,the ultimate choice for orthopaedic implants—A review[J].Progress in Materials Science,2009,54(1):397-425.
[4]MA C C,LAN F C.Review the research trends and application in car body of aluminum foam[J].Applied Mechanics and Materials,2015,729:73-78.
[5]WANG X J,XU S Q,ZHOU S W,et al.Topological design and additive manufacturing of porous metals for bone scaffolds and orthopaedic implants:A review[J].Biomaterials,2016,83:127-141.
[6]STANGL R,RINNE B,KASTL S,et al.The influence of pore geometry in cp Ti-implants—A cell culture investigation[J].European Cells and Materials,2001,2:1-9.
[7]TEIXEIRA L N,CRIPPA G E,LEFEBVRE L P,et al.The influence of pore size on osteoblast phenotype expression in cultures grown on porous titanium[J].International Journal of Oral and Maxillofacial Surgery,2012,41(9):1 097-1 101.
[8]刘洁,刘旭燕,刘芳,等.纳米多孔铜钛合金的制备及其超级电容器性能[J].材料研究学报,2015,29(12):913-920.
[9]肖逸锋,刘艳,汤智,等.Ni-Cr-Fe多孔材料的制备及抗氧化性能[J].中国有色金属学报,2017,27(2):295-304.
[10]WANG H,ZHOU X Y,LONG B,et al.Thermal properties of closed-cell aluminum foams prepared by melt foaming technology[J].Transactions of Nonferrous Metals Society of China,2016,26(12):3 147-3 153.
[11]AGUILAR M A E,GRANA D R,HAZARABEDIAN A,et al.Zr-Ti-Nb porous alloys for biomedical application[J].Materials Science and Engineering C,2012,32(2):321-329.
[12]WANG X H,LI J S,HU R,et al.Mechanical properties of porous titanium with different distributions of pore size[J].Transactions of Nonferrous Metals Society of China,2013,23(8):2 317-2 322.
[13]WANG Q,QIAO Y Q,CHENG M Q,et al.Tantalum implanted entangled porous titanium promotes surface osseointegration and bone ingrowth[J].Scientific Reports,2016,6:26 248.
[14]ST-PIERRE J P,GAUTHIER M,LEFEBVRE L P,et al.Three-dimensional growth of differentiating MC3T3-E1pre-osteoblasts on porous titanium scaffolds[J].Biomaterials,2005,26(35):7 319-7 328.
[15]YE B,DUNAND D C.Titanium foams produced by solid-state replication of NaCl powders[J].Materials Science and Engineering A,2010,528(2):691-697.
[16]MUOZ S,PAVN J,RODRGUEZ-ORTIZ J A,et al.On the influence of space holder in the development of porous titanium implants:Mechanical,computational and biological evaluation[J].Materials Characterization,2015,108(10):68-78.
[17]李虎,虞奇峰,张波,等.浆料发泡法制备生物活性多孔钛及其性能[J].稀有金属材料与工程,2006,35(1):154-157.
[18]沈宏飞,尤德强,张鹏,等.以NH4HCO3为造孔剂制备的多孔钛及其力学性能[J].特种铸造及有色合金,2016,36(3):291-294.
[19]王晓花.生物多孔钛力学行为及孔结构表征[D].西安:西北工业大学,2014.
[20]胡海波,刘会群,王杰恩,等.生物医用多孔钛及钛合金的研究进展[J].材料导报,2012,26(S1):262-266,270.
[21]王哲君,强洪夫,王学仁.新型亚稳β钛合金Ti2448的温变形行为及本构模型[J].中国有色金属学报,2013,23(5):1 295-1 300.
[22]LU J,JIA Z,LI J,et al.Electron beam melting fabrication of porous Ti6Al4V scaffolds:Cytocompatibility and Osteogenesis[J].Advanced Engineering Materials,2015,17(9):1 391-1 398.
[23]HUANG H,LAN P H,ZHANG Y Q,et al.Surface characterization and in vivo performance of plasmasprayed hydroxyapatite-coated porous Ti6Al4V implants generated by electron beam melting[J].Surface&Coatings Technology,2015,283:80-88.
[24]AYDOMU爦T,BOR S.Superelasticity and compression behavior of porous TiNi alloys produced using Mg spacers[J].Journal of the Mechanical Behavior of Biomedical Materials,2012,15:59-69.
[25]颉芳霞,何雪明,俞经虎,等.生物医用多孔Ti-6Mo合金选择性激光烧结的结构特征和力学行为[J].稀有金属材料与工程,2016,45(6):1 477-1 482.