Thermal multi-sensor instrumentation for the enhancement of a directed energy deposition process

Materials Research Proceedings Pub Date : 2024-05-15 DOI:10.21741/9781644903131-8

Lilou de Peindray d'Ambelle

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Abstract

Abstract. Directed energy deposition (DED) is an additive manufacturing process with growing industrial interests. Nonetheless, its industrialization will not be possible until it is fully mature. Such maturity lies in the upstream research to optimize and control it. In DED, process parameters, physical quantities and parts properties are interrelated which makes it a complex process. To have a better understanding of these relations, the experimental approach of instrumentation has been chosen. Multi-sensor method has been implemented for its more extensive possibilities in comparison to single-sensor methods. A bichromatic pyrometer was coupled to an IR camera to measure the temperature distributions in real time. Post-process characterizations of the aspects and geometries of the parts were related to the sensors’ measurements and consequently, to the process parameters. Twelves sets of parameters were tested to conclude that the energy input impacts the size of the melting pool and the temperature distribution. High energies lead to defects such as edge defects and layer thickening but can mitigate surface roughness. Both the pyrometer and camera proved to have a relevance in this study for the enhancement of the DED process.

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用于增强定向能沉积过程的热多传感器仪器

摘要。定向能沉积（DED）是一种快速成型制造工艺，其产业利益日益增长。然而，在其完全成熟之前，不可能实现工业化。这种成熟度取决于对其进行优化和控制的上游研究。在 DED 中，工艺参数、物理量和零件属性相互关联，这使得它成为一个复杂的过程。为了更好地理解这些关系，我们选择了仪器实验方法。与单传感器方法相比，多传感器方法具有更广泛的可能性。双色高温计与红外摄像机相结合，实时测量温度分布。工件各方面和几何形状的后处理特征与传感器的测量结果有关，因此也与工艺参数有关。对两组参数进行测试后得出结论，输入的能量会影响熔池的大小和温度分布。高能量会导致边缘缺陷和层增厚等缺陷，但可以减轻表面粗糙度。在这项研究中，高温计和照相机都被证明与增强 DED 工艺有关。

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来源期刊

Materials Research Proceedings

CiteScore

0.30

自引率

0.00%

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