Nanostructured titanium-based materials for medical implants: Modeling and development

被引:199
|
作者
Mishnaevsky, Leon, Jr. [1 ]
Levashov, Evgeny [2 ]
Valiev, Ruslan Z. [3 ]
Segurado, Javier [4 ]
Sabirov, Ilchat [4 ]
Enikeev, Nariman [3 ]
Prokoshkin, Sergey [2 ]
Solov'yov, Andrey V. [5 ]
Korotitskiy, Andrey [2 ]
Gutmanas, Elazar [6 ]
Gotman, Irene [6 ]
Rabkin, Eugen [6 ]
Psakh'e, Sergey [7 ,8 ]
Dluhos, Ludek [9 ]
Seefeldt, Marc [10 ]
Smolin, Alexey [7 ,8 ]
机构
[1] Tech Univ Denmark, Dept Wind Energy, Riso Campus,Frederiksborgvej 399, DK-4000 Roskilde, Denmark
[2] Natl Univ Sci & Technol MISIS, Moscow 119049, Russia
[3] Ufa State Aviat Tech Univ IPAM USATU, Inst Phys Adv Mat, Ufa 450000, Russia
[4] IMDEA Mat Inst, Madrid 28906, Spain
[5] Goethe Univ Frankfurt, FIAS, D-60438 Frankfurt, Germany
[6] Technion Israel Inst Technol, Dept Mat Engn, IL-32000 Haifa, Israel
[7] Russian Acad Sci ISPMS SB RAS, Siberian Branch, Inst Strength Phys & Mat Sci, Tomsk 634050, Russia
[8] Tomsk State Univ, Tomsk 634050, Russia
[9] Timplant Ltd, Ostrava, Czech Republic
[10] Katholieke Univ Leuven, Dept MTM, B-3001 Louvain, Belgium
来源
MATERIALS SCIENCE & ENGINEERING R-REPORTS | 2014年 / 81卷
基金
欧盟第七框架计划;
关键词
Ultrafine grained titanium; Medical implants; Computational modeling; Severe plastic deformation; Thermomechanical processing; Nitinol; SEVERE PLASTIC-DEFORMATION; SHAPE-MEMORY ALLOYS; NONEQUILIBRIUM GRAIN-BOUNDARIES; MARTENSITIC PHASE-TRANSITION; IN-VITRO BIOCOMPATIBILITY; MECHANICAL-PROPERTIES; CORROSION BEHAVIOR; MOLECULAR-DYNAMICS; NICKEL-TITANIUM; LATTICE-PARAMETERS;
D O I
10.1016/j.mser.2014.04.002
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Nanostructuring of titanium-based implantable devices can provide them with superior mechanical properties and enhanced biocompatibity. An overview of advanced fabrication technologies of nanostructured, high strength, biocompatible Ti and shape memory Ni-Ti alloy for medical implants is given. Computational methods of nanostructure properties simulation and various approaches to the computational, "virtual" testing and numerical optimization of these materials are discussed. Applications of atomistic methods, continuum micromechanics and crystal plasticity as well as analytical models to the analysis of the reserves of the improvement of materials for medical implants are demonstrated. Examples of successful development of a nanomaterial-based medical implants are presented. (C) 2014 Elsevier B.V. All rights reserved.
引用
收藏
页码:1 / 19
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