Multiphysics Modeling and Simulation of an Arc-Jet Sprayer

Juan J. Campos Manzo, Nicole J. Wagner, K. Anderson
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Abstract

Twin wire arc spraying (TWAS) is a plasma spraying process that offers low workpiece heating and high deposition rates at a lower cost. Variations in TWAS process conditions cause the substrate temperature to fluctuate and even melt. Therefore, the motivation of this project was to simulate the heat transfer from the TWAS torch to the substrate during spraying and layer formation of a coating. Simulations using ANSYS FLUENT Computational Fluid Dynamics (CFD) software were used to model the heat transfer in a TWAS system. The results of this paper are meant to augment and improve the database of TWAS technology. A CFD numerical heat transfer model is presented that was used to investigate the substrate surface temperature during the TWAS process. The results for the different pressure models showed that for a 3 second simulation, substrate surface temperatures increased as nozzle inlet pressure was decreased. For the upper and lower bound pressures of 75 psia and 29 psia, substrate surface temperature resulted in 946 °C and 1010 °C, respectively.
电弧射流喷雾器多物理场建模与仿真
双线电弧喷涂(TWAS)是一种等离子喷涂工艺,以较低的成本提供低工件加热和高沉积速率。TWAS工艺条件的变化导致衬底温度波动甚至熔化。因此,这个项目的动机是模拟在喷涂和涂层形成过程中TWAS火炬到基材的传热。利用ANSYS FLUENT计算流体动力学(CFD)软件对TWAS系统的传热进行了模拟。本文的研究结果旨在扩充和完善TWAS技术数据库。提出了一种CFD数值传热模型,用于研究TWAS过程中基材表面温度的变化。对不同压力模型的模拟结果表明,在3秒内,随着喷嘴入口压力的降低,基材表面温度升高。当压力上限为75 psia和下限为29 psia时,衬底表面温度分别为946°C和1010°C。
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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