通过原位同步辐射 X 射线成像研究多层定向能沉积增材制造过程中孔隙形成和演变的动力学:高熵康托合金案例研究

IF 14 1区 工程技术 Q1 ENGINEERING, MANUFACTURING International Journal of Machine Tools & Manufacture Pub Date : 2024-06-25 DOI:10.1016/j.ijmachtools.2024.104181
Shuya Zhang , Chunxia Yao , Dongsheng Zhang , Wei Liu , Lin He , Dafan Du , Baode Sun , Anping Dong , Bingbing Zhang , Lianghua Xiong
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引用次数: 0

摘要

吹塑粉末定向能沉积(DED)增材制造在新型合金加工过程中会出现明显的有害孔隙。然而,在多层沉积过程中,孔隙的形成和演变机制仍然难以确定,因此无法制定孔隙缓解策略。在此,我们利用高能高速同步辐射 X 射线成像技术对一种典型的高熵 Cantor 合金的传导模式多层 DED 过程进行了现场研究。在沉积第一层和连续层时,揭示了三种新的孔隙形成机制:高速粉末注入熔池引起的气孔、湍流熔体流的漩涡剪切产生的孔隙以及表面波捕获的孔隙。再次确认了三种孔隙形成机制:从原料粉末继承孔隙、激光重熔上一层现有孔隙的缺陷敏感位置或熔池表面附着的未熔化粉末时产生孔隙,以及熔池冷却时形成孔隙。本文提出了一种独特的孔隙消除机制:实验发现,在稳定的熔池中存在反马兰戈尼熔体流,这种反马兰戈尼熔体流延长了孔隙在几十毫秒尺度上的寿命;在激光相互作用区以及与循环区相邻的位置,孔隙容易凝聚成较大的孔隙;在马兰戈尼力和浮力的共同作用下,凝聚的较大孔隙很容易从熔池中消除。在 Cantor 合金中揭示的孔隙形成和演变动力学结果为高保真计算建模提供了量化的实验数据,并为高熵合金印刷的孔隙率控制深入到熔池尺度提供了深入的见解。
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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Dynamics of pore formation and evolution during multi-layer directed energy deposition additive manufacturing via in-situ synchrotron X-ray imaging: A case study on high-entropy Cantor alloy

Blown-powder directed energy deposition (DED) additive manufacturing is impeded for novel alloys processing by perceivable and detrimental porosity. During multi-layer depositions, however, mechanisms of pore formation and evolution remain elusive for developing pore mitigation strategies. Here, conduction-mode multi-layer DED process of an exemplary high-entropy Cantor alloy have been investigated in-situ by high-energy high-speed synchrotron X-ray imaging. Three new pore formation mechanisms are unveiled when depositing first layer and successive layers: gas pore induced by high-velocity powder injection into melt pool, pore generated from swirl shear of turbulent melt flow, and pore trapped by surface wave. Three pore formation mechanisms are reconfirmed: pore inheritance from feedstock powder, pore generation when laser remelting defect-sensitive locations of existing pore from previous layer or unmelted powder attached on the melt pool surface, and pore formation as cooling of melt pool. A unique mechanism for pore elimination is proposed: a counter-Marangoni melt flow is experimentally found in the stable melt pool and contributes to the prolonged pore lifetime at tens of milliseconds scale; pores are prone to coalesce into larger sizes in laser interaction zone and the adjacent location with circulation zone; coalesced larger pores driven by combined effect of Marangoni and buoyant forces easily get eliminated from melt pool. The results of pore formation and evolution dynamics revealed in Cantor alloy provide quantified experimental data for high-fidelity computational modeling and in-depth insights of porosity control for high-entropy alloy printing down to melt pool scale.

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来源期刊
CiteScore
25.70
自引率
10.00%
发文量
66
审稿时长
18 days
期刊介绍: The International Journal of Machine Tools and Manufacture is dedicated to advancing scientific comprehension of the fundamental mechanics involved in processes and machines utilized in the manufacturing of engineering components. While the primary focus is on metals, the journal also explores applications in composites, ceramics, and other structural or functional materials. The coverage includes a diverse range of topics: - Essential mechanics of processes involving material removal, accretion, and deformation, encompassing solid, semi-solid, or particulate forms. - Significant scientific advancements in existing or new processes and machines. - In-depth characterization of workpiece materials (structure/surfaces) through advanced techniques (e.g., SEM, EDS, TEM, EBSD, AES, Raman spectroscopy) to unveil new phenomenological aspects governing manufacturing processes. - Tool design, utilization, and comprehensive studies of failure mechanisms. - Innovative concepts of machine tools, fixtures, and tool holders supported by modeling and demonstrations relevant to manufacturing processes within the journal's scope. - Novel scientific contributions exploring interactions between the machine tool, control system, software design, and processes. - Studies elucidating specific mechanisms governing niche processes (e.g., ultra-high precision, nano/atomic level manufacturing with either mechanical or non-mechanical "tools"). - Innovative approaches, underpinned by thorough scientific analysis, addressing emerging or breakthrough processes (e.g., bio-inspired manufacturing) and/or applications (e.g., ultra-high precision optics).
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