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冷喷涂Al2219粉末在Al2219-T6基体上沉积的实验与数值研究:喷涂角度、横向速度和喷枪距靶材距离的影响

Experimental and Numerical Study of Al2219 Powders Deposition on Al2219-T6 Substrate by Cold Spray: Effects of Spray Angle, Traverse Speed, and Standoff Distance.

作者信息

Zhang Zheng, Meng Tzee Luai, Lee Coryl Jing Jun, Wei Fengxia, Ba Te, Zhang Zhi-Qian, Pan Jisheng

机构信息

Institute of Materials Research and Engineering (IMRE), Agency for Science, Technology and Research (A*STAR), 2 Fusionopolis Way, Innovis #08-03, Singapore 138634, Singapore.

Institute of High Performance Computing (IHPC), Agency for Science, Technology and Research (A*STAR), 1 Fusionopolis Way, Connexis #16-16, Singapore 138632, Singapore.

出版信息

Materials (Basel). 2023 Jul 26;16(15):5240. doi: 10.3390/ma16155240.

DOI:10.3390/ma16155240
PMID:37569945
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10419605/
Abstract

Cold spray (CS) is an emerging technology for repairing and 3D additive manufacturing of a variety of metallic components using deformable metal powders. In CS deposition, gas type, gas pressure, gas temperature, and powder feed rate are the four key process parameters that have been intensively studied. Spray angle, spray gun traverse speed, and standoff distance (SoD) are the other three process parameters that have been less investigated but are also important, especially when depositing on uneven substrates or building up 3D freeform structures. Herein, the effects of spray angle, traverse speed, and SoD during CS deposition have been investigated holistically on a single material system (i.e., Al2219 powders on Al2219-T6 substrate). The coatings' mass gain, thickness, porosity, and residual stress have been characterized, and the results show that spray angle and traverse speed exercise much more effects than SoD in determining coatings' buildup. Finite element method (FEM) modeling and computational fluid dynamic (CFD) simulation have been carried out to understand the effects of these three parameters for implementing CS as repairing and additive manufacturing using aluminum-based alloy powders.

摘要

冷喷涂(CS)是一种新兴技术,用于使用可变形金属粉末对各种金属部件进行修复和3D增材制造。在冷喷涂沉积过程中,气体类型、气体压力、气体温度和粉末进给速率是四个已被深入研究的关键工艺参数。喷涂角度、喷枪横向移动速度和喷枪距基材表面的距离(SoD)是另外三个研究较少但同样重要的工艺参数,尤其是在沉积到不平坦基材上或构建3D自由形状结构时。在此,针对单一材料体系(即Al2219粉末在Al2219-T6基材上),全面研究了冷喷涂沉积过程中喷涂角度、横向移动速度和喷枪距基材表面的距离的影响。对涂层的质量增益、厚度、孔隙率和残余应力进行了表征,结果表明,在决定涂层堆积方面,喷涂角度和横向移动速度的影响比喷枪距基材表面的距离大得多。已进行有限元方法(FEM)建模和计算流体动力学(CFD)模拟,以了解这三个参数对使用铝基合金粉末实施冷喷涂修复和增材制造的影响。

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