Mechanical properties of AM Ti6Al4V porous scaffolds with various cell structures 被引量：4

Mechanical properties of AM Ti6Al4V porous scaffolds with various cell structures

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摘要 Porous scaffolds as succedaneum of natural bone were investigated and applied in medical field.In this work, we carried out studies on mechanical properties of solid parts and porous scaffolds obtained by additive manufacturing(AM) technique.It is found that productions of AM process have a higher yield strength and higher microhardness compared to commercial Ti6Al4V.Roughened surface was observed for layer-by-layer process of AM and sticking of powder particles.The machining accuracy is affected by both dimensions and angles.Meanwhile, mechanical properties of porous scaffolds are influenced by machining accuracy and microdefects.In addition, the unit cell structures also impact the mechanical properties of porous scaffolds in terms of elastic modulus, yield strength and failure mode.Overall,considering the mechanical properties and biological properties, scaffolds with cube(CB) crystal cells are the best choice in our study. Porous scaffolds as succedaneum of natural bone were investigated and applied in medical field.In this work, we carried out studies on mechanical properties of solid parts and porous scaffolds obtained by additive manufacturing(AM) technique.It is found that productions of AM process have a higher yield strength and higher microhardness compared to commercial Ti6Al4V.Roughened surface was observed for layer-by-layer process of AM and sticking of powder particles.The machining accuracy is affected by both dimensions and angles.Meanwhile, mechanical properties of porous scaffolds are influenced by machining accuracy and microdefects.In addition, the unit cell structures also impact the mechanical properties of porous scaffolds in terms of elastic modulus, yield strength and failure mode.Overall,considering the mechanical properties and biological properties, scaffolds with cube(CB) crystal cells are the best choice in our study.

作者 Hua-De Zheng Li-Li Liu Chun-Lin Deng Zhi-Feng Shi Cheng-Yun Ning

机构地区 School of Materials Science and Engineering National Engineering Research Center for Tissue Restoration and Reconstruction Key Laboratory of Biomedical Engineering of Guangdong Province South China Institute of Collaborative Innovation Medical Devices Research and Testing Center

出处《Rare Metals》 SCIE EI CAS CSCD 2019年第6期561-570,共10页 稀有金属（英文版）

基金 financially supported by the National Natural Science Foundation of China (No.51472089) the Fundamental Research Funds for the Central Universities (No.2018KZ15) the Natural Science Foundation of Guangdong Province (No.2018A030313803) the Guangdong Science and Technology Project (No.2017B090911008)

关键词 TI6AL4V POROUS scaffolds AM MECHANICAL PROPERTY Ti6Al4V Porous scaffolds AM Mechanical property

分类号 TG146.23 [金属学及工艺—金属材料]

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参考文献1

1Lawrence E.Murr.Frontiers of 3D Printing/Additive Manufacturing: from Human Organs to Aircraft Fabrication[J].Journal of Materials Science & Technology,2016,32(10):987-995. 被引量：10

共引文献9

1何垚垚,张航,陈子豪,李涤尘.多材料增材制造技术进展[J].特种铸造及有色合金,2020,40(10):1092-1098. 被引量：12
2于国庆,毕超.3D打印参数对聚乳酸试样拉伸性能的影响[J].中国塑料,2017,31(11):125-129. 被引量：10
3刘永长,张宏军,郭倩颖,周晓胜,马宗青,黄远,李会军.Inconel 718变形高温合金热加工组织演变与发展趋势[J].金属学报,2018,54(11):1653-1664. 被引量：33
4徐敬华,盛红升,张树有,郭洪帅,王康.基于邻接拓扑的流形网格模型层切多连通域构建方法[J].计算机辅助设计与图形学学报,2018,30(1):180-190. 被引量：15
5李旭,王强,杨驹,牛文娟,Ming-xing ZHANG,李洋洋,钱润玲,韩瑜.原位金属间化合物对冷喷涂Al-Ni增材沉积体力学性能的影响[J].表面技术,2020,49(10):294-302. 被引量：1
6Jinghua XU,Hongsheng SHENG,Shuyou ZHANG,Jianrong TAN,Jinlian DENG.Surface accuracy optimization of mechanical parts with multiple circular holes for additive manufacturing based on triangular fuzzy number[J].Frontiers of Mechanical Engineering,2021,16(1):133-150. 被引量：2
7Chuhong Zhang,Yijun Li,Wenbin Kang,Xingang Liu,Qi Wang.Current advances and future perspectives of additive manufacturing for functional polymeric materials and devices[J].SusMat,2021,1(1):127-147. 被引量：7
8李述军,侯文韬,郝玉琳,杨锐.3D打印医用钛合金多孔材料力学性能研究进展[J].金属学报,2023,59(4):478-488. 被引量：9
9秦艳利,贾煜琦,张昊,倪丁瑞,肖伯律,马宗义.热处理对激光粉末床熔融AlSi10Mg合金热物理性能的影响[J].航空材料学报,2024,44(2):184-191. 被引量：1

同被引文献16

1贺卫卫,贾文鹏,刘海彦,汤慧萍,康新婷,黄瑜.电子束熔化技术中钛合金粉末的预热工艺研究(英文)[J].稀有金属材料与工程,2011,40(12):2072-2075. 被引量：11
2胡铮,马爱斌,杨东辉,陈建清,江静华.基于面心立方孔洞堆砌模型的泡沫铝准静态及动态压缩模拟研究[J].材料导报,2015,29(16):124-131. 被引量：2
3Yu-Lin Hao,Shu-Jun Li,Rui Yang.Biomedical titanium alloys and their additive manufacturing[J].Rare Metals,2016,35(9):661-671. 被引量：25
4冯辰栋,夏宇,李祥,王成焘.3D打印多孔钛支架微观孔隙结构和力学性能[J].医用生物力学,2017,32(3):256-260. 被引量：21
5Yan Liu,Jun Zhang,Shu-Jun Li,Wen-Tao Hou,Hao Wang,Qin-Si Xu,Yu-Lin Hao,Rui Yang.Effect of HIP Treatment on Fatigue Crack Growth Behavior of Ti–6Al–4V Alloy Fabricated by Electron Beam Melting[J].Acta Metallurgica Sinica(English Letters),2017,30(12):1163-1168. 被引量：2
6Tao Sun,Yan Liu,Shu-Jun Li,Jian-Ping Li.Effect of HIP Treatment on Fatigue Notch Sensitivity of Ti-6Al-4V Alloy Fabricated by Electron Beam Melting[J].Acta Metallurgica Sinica(English Letters),2019,32(7):869-875. 被引量：2
7夏麒帆,梁益龙,杨春林,张松,欧梅桂.TC4钛合金拉伸变形行为的研究[J].稀有金属,2019,43(7):765-773. 被引量：24
8Long Pan,Chun-Ming Wang,Su-Fen Xiao,Yun-Gui Chen.Hydrogenation behaviors and characteristics of bulk Ti-6Al-4V alloy at different isothermal temperatures[J].Rare Metals,2019,38(12):1131-1135. 被引量：2
9崔宇,王丽,徐晓辰,徐广晨.闭孔泡沫铝准静态压缩试验的有限元仿真[J].有色金属材料与工程,2021,42(2):9-12. 被引量：2
10郭芳,黄硕,刘宁,薛洋,胡敏,刘昌奎.具有多孔和支撑结构的修复体重建下颌骨节段性缺损的生物力学研究[J].医用生物力学,2021,36(5):776-782. 被引量：3

引证文献4

1Ming Wang,Hao-Qing Li,Hong Guo,Liu Feng,Shu-Yu Liu,Xiao-Ying Fang.Evolution of microstructure and intervariant boundaries ofαphase in electron beam melted and heat-treated Ti-6Al-4V alloy[J].Rare Metals,2021,40(8):2118-2126.
2张建国,赵晟,胡凤玲,宋亮,周琼,张而耕.基于SLM的Ti6AL4V多孔材料压缩性能及数值模拟[J].热加工工艺,2023,52(10):43-47. 被引量：1
3孙梦超,罗洋,刘婕,高丽兰,李瑞欣,谭沿松,张春秋.不同胞元结构多孔钛合金支架的力学性能[J].医用生物力学,2024,39(1):69-75.
4Xue-Qin Zhang,Ru-Yue Su,Xiong Gao,Jing-Yi Chen,Guo Liu,Ru-Jie He,Ying Li.Circumventing brittleness of 3D-printed Al_(2)O_(3)cellular ceramic structures via compositing with polyurea[J].Rare Metals,2024,43(11):5994-6005.

二级引证文献1

1常秋香,于艳美.热处理对选择性激光熔融制备模锻铝合金的显微组织调控研究[J].热加工工艺,2024,53(20):106-109.

1Christopher Michael Gabbott ],Tao Sun.Mechanistic Insights of Cells in Porous Scaffolds via Integrated Culture Technologies[J].Journal of Life Sciences,2017,11(4):163-175.
2Haohao Yang,Guanyu Zhou,Yuying Zhu,Guan-Ming Gong,Qinghua Zhang,Menghan Liao,Zheng Li,Cui Ding,Fanqi Meng,Mohsin Rafique,Heng Wang,Lin Gu,Ding Zhang,Lili Wang,Qi-Kun Xue.Superconductivity above 28K in single unit cell FeSe ?lms interfaced with GaO_(2-δ) layer on NdGaO_3(110)[J].Science Bulletin,2019,64(8):490-494. 被引量：1
3石志良,卢小龙,黄琛,李锋,孙允龙.钛合金植入物梯度孔结构设计及其力学性能[J].稀有金属材料与工程,2019,48(6):1829-1834. 被引量：11
4Fariborz Tavangarian,Abbas Fahami,Guoqiang Li,Mohammadhassan Kazemi,Anoosha Forghani.Structural characterization and strengthening mechanism of forsterite nanostructured scaffolds synthesized by multistep sintering method[J].Journal of Materials Science & Technology,2018,34(12):2263-2270. 被引量：4
5LIU Kang,ZHANG Xianglin.Scaffolds Prepared with Bovine Hydroxyapatite Composites by 3D Printing[J].Journal of Wuhan University of Technology(Materials Science),2019,34(1):230-235. 被引量：2
6Peng Wen,Yu Qin,Yanzhe Chen,Maximilian Voshage,Lucas Jauer,Reinhart Poprawe,Johannes Henrich Schleifenbaum.Laser additive manufacturing of Zn porous scaffolds: Shielding gas flow, surface quality and densification[J].Journal of Materials Science & Technology,2019,35(2):368-376. 被引量：14
7M.E.Aleman-Domfnguez,Z.Ortega,A.N.Benitez,Mario Monzon,L.V.Garzon,Sara Ajami,Chaozong Liu.Polycaprolactone-carboxymethyl cellulose composites for manufacturing porous scaffolds by material extrusion[J].Bio-Design and Manufacturing,2018,1(4):245-253. 被引量：3
8赖曲芳,付鹏,杜兆新.锻态Ti6Al4V合金的高温变形和热处理行为[J].金属热处理,2019,44(4):52-58.
9池玉磊,卜宪敏,查玉梅,王海滨,孟纯阳,吴彬.骨髓间充质干细胞复合支架材料治疗骨缺损:研究现状及前景展望[J].中国组织工程研究,2019,23(29):4749-4756. 被引量：16
10Life Research Editorial Office.Art is therapy[J].Life Research,2019,2(2):84-86.

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