Additive manufacturing of metallic biomaterials: sustainability aspect, opportunity, and challenges

IF 4 Q2 ENGINEERING, INDUSTRIAL

Journal of Industrial and Production Engineering Pub Date : 2023-06-27 DOI:10.1080/21681015.2023.2229341

Pralhad Pesode, S. Barve

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引用次数: 6

Abstract

ABSTRACT The use of cutting-edge techniques is beneficial for the research and development of biomaterials and the production of new sustainable biomaterials. Eco-friendly biomaterials should be promoted. As prospective substitutes for conventional materials, a variety of biomaterials have been conceived and produced to date and successfully used in various biomedical disciplines. The sustainability component in the additive manufacturing of biomaterials is the main goal of this article. There is discussion of various metallic biomaterials, including titanium, stainless steel, magnesium, cobalt-chromium alloy, zinc, tantalum etc. The effects of several additive manufacturing techniques on sustainability are examined. Also, the properties of additive manufactured biomaterials and sustainability aspect of biomaterials are discussed in detail. By reducing material waste and using time and energy efficiently, additive manufacturing can assist to lower costs and having less harmful effects on the environment. This article discussed sustainability aspects of different additive manufacturing techniques used for manufacturing of biomaterials. Graphical abstract

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金属生物材料的增材制造:可持续性方面，机遇和挑战

摘要尖端技术的应用有利于生物材料的研发和新型可持续生物材料的生产。应推广生态友好型生物材料。作为传统材料的潜在替代品，迄今为止，各种生物材料已经被构思和生产出来，并成功应用于各种生物医学学科。生物材料增材制造中的可持续性部分是本文的主要目标。讨论了各种金属生物材料，包括钛、不锈钢、镁、钴铬合金、锌、钽等。研究了几种增材制造技术对可持续性的影响。此外，还详细讨论了添加剂制造的生物材料的性能和生物材料的可持续性方面。通过减少材料浪费并有效利用时间和能源，增材制造可以帮助降低成本并减少对环境的有害影响。本文讨论了用于制造生物材料的不同增材制造技术的可持续性方面。图形摘要

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来源期刊

Journal of Industrial and Production Engineering ENGINEERING, INDUSTRIAL-

CiteScore

7.50

自引率

6.70%

发文量