Surface texture characterization for thin-wall NASA HR-1 Fe–Ni–Cr alloy using laser powder directed energy deposition (LP-DED)

IF 3.9 Q2 ENGINEERING, INDUSTRIAL Advances in Industrial and Manufacturing Engineering Pub Date : 2022-05-01 DOI:10.1016/j.aime.2022.100084
Paul R. Gradl , Angelo Cervone , Eberhard Gill
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引用次数: 3

Abstract

Additive Manufacturing (AM) offers new design and manufacturing opportunities of thin-wall microchannel heat exchangers for aerospace and industrial applications. Laser Powder Directed Energy Deposition (LP-DED) is an AM process providing large scale manufacturing of thin-wall microchannel heat exchangers. Successful industrialization of the LP-DED process requires critical quantification and understanding of the metallurgical, geometric, and process limitations. Specifically, understanding the as-built surface texture, inclusive of roughness and waviness, is significant due to its effects on the friction factor and pressure drop within a heat exchanger. This experimental study completed a design of experiments (DOE) to determine the critical build parameters that impact surface texture for enclosed thin-wall samples. This study summarizes the characterization work of the LP-DED process for 1 mm enclosed walls with an Fe–Ni–Cr (NASA HR-1) alloy. The LP-DED parameters including laser power, powder feedrate, travel speed, layer height, and rotary atomized powder feedstock were modified in the experiment. An evaluation of the DOE samples and resulting surface texture is provided along with conclusions from these experiments. Results indicate that 3D areal and 2D profile (directional) surface texture is estimated by 2x the powder diameter that becomes captured or partially melted on the trailing edge of the melt pool. The fine powder showed a higher sensitivity to parameter changes but resulted in a higher density material and 23% reduction in roughness. Surface texture was also shown to vary between closed channel shapes (internal) due to ricochets, recirculation, and higher volume of powder available to bond compared to external (outer) surfaces. The understanding of the LP-DED process as-built surface texture is essential to fluid flow applications such as heat exchanges and can modify performance for enhanced heat transfer or can be a detriment to pressure drop.

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利用激光粉末定向能沉积(LP-DED)表征NASA HR-1 Fe-Ni-Cr薄壁合金表面织构
增材制造(AM)为航空航天和工业应用的薄壁微通道热交换器提供了新的设计和制造机会。激光粉末定向能沉积(LP-DED)是一种可大规模制造薄壁微通道热交换器的增材制造工艺。LP-DED工艺的成功产业化需要对冶金、几何和工艺限制进行关键的量化和理解。具体来说,了解建成后的表面纹理,包括粗糙度和波浪形,是非常重要的,因为它会影响热交换器内的摩擦系数和压降。本实验研究完成了实验设计(DOE),以确定影响封闭薄壁样品表面纹理的关键构建参数。本研究总结了Fe-Ni-Cr (NASA HR-1)合金1 mm封闭壁的LP-DED工艺的表征工作。实验中对激光功率、进给粉速度、行程速度、层高、旋转雾化粉料等参数进行了修改。对DOE样品和由此产生的表面纹理进行了评估,并提供了这些实验的结论。结果表明,通过在熔池尾缘捕获或部分熔化的粉末直径的2倍来估计三维面状和二维轮廓(方向)表面纹理。细粉对参数变化的敏感性较高,但密度较高,粗糙度降低23%。由于反弹、再循环和与外部(外部)表面相比可粘合的粉末体积较大,表面纹理在封闭通道形状(内部)之间也有所不同。对LP-DED工艺的表面结构的理解对于热交换等流体流动应用至关重要,可以改变性能以增强传热,也可以损害压降。
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来源期刊
Advances in Industrial and Manufacturing Engineering
Advances in Industrial and Manufacturing Engineering Engineering-Engineering (miscellaneous)
CiteScore
6.60
自引率
0.00%
发文量
31
审稿时长
18 days
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