Titlebook: 3D Printing and Biofabrication; Aleksandr Ovsianikov,James Yoo,Vladimir Mironov Living reference work 20200th edition Fabrication of scaf

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书目名称3D Printing and Biofabrication影响因子(影响力)




书目名称3D Printing and Biofabrication影响因子(影响力)学科排名




书目名称3D Printing and Biofabrication网络公开度




书目名称3D Printing and Biofabrication网络公开度学科排名




书目名称3D Printing and Biofabrication被引频次




书目名称3D Printing and Biofabrication被引频次学科排名




书目名称3D Printing and Biofabrication年度引用




书目名称3D Printing and Biofabrication年度引用学科排名




书目名称3D Printing and Biofabrication读者反馈




书目名称3D Printing and Biofabrication读者反馈学科排名

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J. Régis,F. Bartolomei,M. Hayashi,P. Chauvelacturing, and coating techniques. The use of bioceramic-based scaffolds in bone repair animal models and clinical studies is reviewed. Finally, this chapter provides an outlook of future research directions for improved bioceramic use in synthetic bone grafts or regenerative skeletal devices.

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H. Löllgen,C. Bretschneider,P. Dirschedl elaborated stiffness and strength homogenization approach related to a hydroxyapatite-based granular bone tissue engineering material. For the latter, the derivation of an upscaling scheme allowing for estimating the macroscopic stiffness and the macroscopic strength is demonstrated. Finally, avenu

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https://doi.org/10.1007/978-3-662-53305-5n, in order to design better biomimetic scaffolds with high surface-to-volume ratio, high porosity, and good mechanical properties. The effect of two parametric parameters (thickness and surface radius) is also evaluated regarding its porosity and mechanical behavior.

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Francisco Rebelo,Marcelo M. Soaresarch, enabling deeper understanding of physiological phenomena of specific tissues/organs and more accurate prediction of drug or toxicity responses. In this chapter, we discuss recent applications of 3D bioprinting; first to create tissues and organs for the purposes of tissue engineering and regen

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