Nanostructured titanium-based materials for medical implants: Modeling and development; Materials Science and Engineering: R: Reports; Vol. 81
| Parent link: | Materials Science and Engineering: R: Reports.— , 1993- Vol. 81.— 2014.— [P. 1-19] |
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| مؤلف مشترك: | |
| مؤلفون آخرون: | , , , , , , , , , , , , |
| الملخص: | Title screen 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. Режим доступа: по договору с организацией-держателем ресурса |
| اللغة: | الإنجليزية |
| منشور في: |
2014
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| الموضوعات: | |
| الوصول للمادة أونلاين: | http://dx.doi.org/10.1016/j.mser.2014.04.002 |
| التنسيق: | الكتروني فصل الكتاب |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=653772 |
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| 200 | 1 | |a Nanostructured titanium-based materials for medical implants: Modeling and development |f L. Mishnaevsky Jr. [et al.] | |
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| 300 | |a Title screen | ||
| 320 | |a [References: p. 17-19 (236 tit.)] | ||
| 330 | |a 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. | ||
| 333 | |a Режим доступа: по договору с организацией-держателем ресурса | ||
| 461 | |t Materials Science and Engineering: R: Reports |d 1993- | ||
| 463 | |t Vol. 81 |v [P. 1-19] |d 2014 | ||
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