Particle Swarm Optimization of Printing Parameters for Open-source TIG-based Metal 3D Printing

Shane Oberloier , Wilson J Holmes , Luke A Reich , Joshua M Pearce
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引用次数: 1

Abstract

Proprietary metal 3D printing is still relegated to relatively expensive systems that have been constructed over years of expensive trial-and-error to obtain optimum 3D printing settings. Low-cost open-source metal 3D printers can potentially democratize metal additive manufacturing; however, significant resources are required to redevelop optimal printing parameters for each metal on new machines. In this study, the particle swam optimization (PSO) experimenter, a free and open-source software package, is utilized to obtain the optimal printing parameters for a tungsten inert gas-based metal open source 3D printer. The software is a graphical user interface implementation of the PSO method and is designed specifically for hardware-in-loop testing. It uses the input of experimental variables and their respective ranges, and then proposes iterations for experiments. A custom fitness function is defined to characterize the experimental results and provide feedback to the algorithm for low-cost metal additive manufacturing. Four separate trials are performed to determine the optimal parameters for 3D printing. First, an experiment is designed to deposit and optimize the parameters for a single line. Second, the parameters for a single-layer plane is optimized experimentally. Third, the optimal printing parameters for a cube is determined experimentally. Fourth, the line optimization experiment is revised and reconducted using different shield gas parameters. The results and limitations are presented and discussed in the context of expanding wire arc additive manufacturing to more systems and material classes for distributed digital manufacturing.

基于开源tig的金属3D打印参数粒子群优化
专有的金属3D打印仍然被降级到相对昂贵的系统中,这些系统已经经过多年昂贵的试错来构建,以获得最佳的3D打印设置。低成本的开源金属3D打印机有可能使金属增材制造民主化;然而,在新机器上重新开发每种金属的最佳打印参数需要大量资源。本研究利用免费开源软件包粒子游优化(particle swim optimization, PSO)实验器,获得了钨惰性气体基金属开源3D打印机的最佳打印参数。该软件是PSO方法的图形用户界面实现,专为硬件在环测试而设计。它利用实验变量的输入及其各自的范围,提出实验迭代。定义了自定义适应度函数来表征实验结果,并为低成本金属增材制造算法提供反馈。为了确定3D打印的最佳参数,进行了四次单独的试验。首先,设计了一个实验来沉积和优化单线的参数。其次,对单层平面的参数进行了实验优化。第三,通过实验确定了立方体的最佳打印参数。第四,对不同保护气参数下的线路优化实验进行了修正和重新设计。在将线弧增材制造扩展到更多系统和材料类别以实现分布式数字制造的背景下,提出并讨论了结果和局限性。
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