粉末床熔融-激光束(PBF-LB)在工业陶瓷快速成型制造中的潜力和挑战

IF 2.9 Q1 MATERIALS SCIENCE, CERAMICS
Christian Berger , Gabriela Schimo-Aichhorn , Stefan Gronau , Franziska Saft , Sarah Seiringer , Uwe Scheithauer
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引用次数: 0

摘要

近年来,陶瓷三维打印技术已经证明了其在提高陶瓷制造成本和时间效率方面的潜力,特别是在定制产品、小批量生产和具有复杂设计的(多材料)部件方面。本作品概述了目前可用于工业生产的陶瓷添加剂制造方法及其优缺点。其中介绍了陶瓷粉末床熔融-激光束(PBF-LB),也称为选择性激光烧结或熔化(SLS/SLM),使用陶瓷粉末作为起始材料,通过选择性激光照射成型。除其他外,该技术还具有卓越的生产率,这可能是未来评估 PBF-LB 是否适用于工业制造的核心论据。此外,还介绍了陶瓷 PBF-LB 的新方法,即使用热固性粘合剂在起始材料中加入陶瓷颗粒,由于粘合剂的不可融性,可在热脱脂和烧结过程中提高绿色部件的尺寸稳定性。大型复杂结构的生产开辟了广泛的应用领域。光催化氧化钛制成的多孔结构在水处理方面的应用前景广阔。这种经过印刷、脱脂和烧结的过滤模块能够降解水中的有机残留物,从而有助于提高水质的安全性。此外,高分辨率印刷可通过微型-PBF-LB(μ-PBF-LB,也称为 μ-SLS)实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Potential and challenges for Powder Bed Fusion – Laser Beam (PBF-LB) in industrial ceramic additive manufacturing

Potential and challenges for Powder Bed Fusion – Laser Beam (PBF-LB) in industrial ceramic additive manufacturing

In recent years, ceramic 3D printing has proven its potential for increasing the cost and time efficiency of ceramic manufacturing, especially for customizable products, small series production and for (multi-material) parts with complex design. This work gives an overview of the methods for ceramic additive manufacturing that are currently available for industrial production with their advantages and disadvantages. Ceramic Powder Bed Fusion- Laser Beam (PBF-LB) or also known as selective laser sintering or melting (SLS/SLM) is introduced, using a ceramic powder as starting material for shaping by selective laser irradiation. Amongst others, the technique offers a superior productivity, which might be the central argument in the future for evaluating the applicability of PBF-LB for industrial manufacturing. Additionally, a novel approach to ceramic PBF-LB is presented, using a thermoset binder for incorporating ceramic particles in the starting material that, due to the non-meltable nature of the binder, improve the dimension stability of the green parts during thermal debinding and sintering. The production of large, complex structures opens up a wide range of applications. One promising application for porous structures made of photocatalytic titanium oxide is water treatment. Such printed, debinded and sintered filter modules enable the degradation of organic residues in water, thus contributing to safer and higher water quality. Furthermore, high-resolution printing can be realized via micro-PBF-LB (μ-PBF-LB, also known as μ-SLS).

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来源期刊
Open Ceramics
Open Ceramics Materials Science-Materials Chemistry
CiteScore
4.20
自引率
0.00%
发文量
102
审稿时长
67 days
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