Dry powder coating in additive manufacturing

IF 2.5 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Frontiers in chemical engineering Pub Date : 2022-09-16 DOI:10.3389/fceng.2022.995221

Jochen Schmidt, W. Peukert

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引用次数: 4

Abstract

Dry powder coating is used in many industries to tailor the bulk solid characteristics of cohesive powders. Within this paper, the state of the art of dry coating of feedstock materials for powder based additive manufacturing (AM) processes will be reviewed. The focus is on feedstock materials for powder bed fusion AM processes, such as powder bed fusion of polymers with a laser beam and powder bed fusion of metals with lasers or an electron beam. Powders of several microns to several ten microns in size are used and the feedstock’s bulk solid properties, especially the flowability and packing density are of immanent importance in different process steps in particular for powder dosing and spreading of powder layers onto the building area. All these properties can be tuned by dry particle coating. Moreover, possibilities to improve AM processability and to manipulate the resulting microstructure (c.f. grain refinement, dispersion strengthening) by adhering nanoparticles on the powders will be discussed. The effect of dry coating on the obtained powder properties along the whole AM process chain and the resulting part properties is assessed. Moreover, appropriate characterization methods for bulk solid properties of dry-coated AM powders are critically discussed.

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增材制造中的干粉涂料

干粉涂料在许多行业中被用于定制粘性粉末的整体固体特性。在本文中，将对粉末基增材制造（AM）工艺原料的干涂层技术进行综述。重点是粉末床熔融AM工艺的原料，例如用激光束进行聚合物的粉末床熔融，以及用激光或电子束进行金属的粉末床熔合。使用尺寸为几微米至几十微米的粉末，并且原料的整体固体性质，特别是流动性和填充密度在不同的工艺步骤中具有内在的重要性，特别是对于粉末配料和将粉末层铺展到建筑区域而言。所有这些特性都可以通过干颗粒涂层进行调节。此外，还将讨论通过将纳米颗粒粘附在粉末上来提高AM可加工性和操纵所得微观结构（如晶粒细化、分散强化）的可能性。评估了干涂层对整个AM工艺链上获得的粉末性能以及由此产生的零件性能的影响。此外，还对干涂层AM粉末体相固体性质的适当表征方法进行了严格的讨论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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