陶瓷增材制造技术及其设备和材料的可用性综述

Q3 Materials Science

Cerâmica Pub Date : 2022-09-01 DOI:10.1590/0366-69132022683873331

I. L. D. Camargo, C. Fortulan, H. Colorado

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引用次数: 4

摘要

陶瓷增材制造允许制造小系列的复杂零件，而不需要传统陶瓷加工中高昂的模具成本。尽管对陶瓷3D打印的各种技术研究始于90年代，但与聚合物和金属相比，其工业应用仍然相当有限，这与此类应用的设备和材料的可用性和成本有限有关。本文综述了各种工艺(粘结剂喷射、直接油墨书写、定向能沉积、熔融沉积、材料喷射、选择性激光烧结、选择性激光熔化和还原光聚合)的优点和局限性，并讨论了它们的特殊性。它还总结了商用3D打印机和陶瓷加工的原材料，指出了每种技术的趋势和挑战。

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A review on the ceramic additive manufacturing technologies and availability of equipment and materials

Ceramic additive manufacturing allows the fabrication of small series of complex parts without the high costs of molds usually associated with traditional ceramic processing. Although research into ceramic 3D printing by all technologies started back in the 90s, its industrial application is still quite restricted when compared to polymers and metals, which is related to the limited availability and costs of equipment and materials for such applications. This review examined the advantages and limitations of each process (binder jetting, direct ink writing, directed energy deposition, fused deposition, material jetting, selective laser sintering, selective laser melting, and vat photopolymerization), discussing their particularities. It also summarized the commercially available 3D printers and raw materials for ceramic processing, pointing out to trends and challenges of each technology.

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来源期刊

Cerâmica Materials Science-Ceramics and Composites

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： A Revista Cerâmica, órgão oficial da Associação Brasileira de Cerâmica (ABCERAM) publica contribuições originais de interesse na área de cerâmica, compreendendo arte cerâmica, abrasivos, biocerâmicas, cerâmicas avançadas, cerâmica branca, cerâmica de mesa, cerâmica eletroeletrônica, cerâmica estrutural, cerâmica magnética, cerâmica nuclear, cerâmica óptica, cerâmica química, cerâmica termomecânica, cerâmica vermelha, cimento, compósitos de matriz cerâmica, materiais refratários, materiais de revestimento, matérias-primas, vidrados, vidros e vitrocerâmicas, análise microestrutural, ciência básica, instrumentação, processos de fabricação, síntese de pós, técnicas de caracterização etc.