基于BP神经网络的选择性激光熔化致密化预测模型

Current Materials Science Pub Date : 2023-08-21 DOI:10.2174/2666145417666230821153025

L. Pan, Bin Qian, Yaqin Wang, Xinyu Liu, Huarui Jiang, Liang Wang

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引用次数: 0

摘要

在选择性激光熔化(SLM)过程中，成形质量(致密化、伸长率、力学性能)与激光工艺参数之间存在复杂的非线性关系，不当的激光工艺参数将直接导致成形缺陷，包括孔洞、裂纹甚至打印失效。成形质量受原材料性能、设备性能、激光工艺参数、后处理工艺等一系列因素的限制。本文通过实验进行了可行性试验和密度数据试验(激光功率130 ~ 280w，激光扫描速度1200 ~ 1500mm /s，激光扫描距离0.01 mm，厚度0.03 mm)。得到了Zl205A致密化预测曲线的数学模型和致密化分布云图。利用BP神经网络工具箱，开发了基于SLM的ZL205A BP神经网络预测系统。将该预测系统应用于ZL205A致密化预测，误差小于5%。

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A Densification prediction Model of Selective Laser Melting Based on BP Neural Network

During the process of Selective Laser Melting (SLM), there is a complex nonlinear relationship between forming quality (Densification, elongation, and mechanical properties) and laser process parameters, and improper laser process parameters will directly lead to forming defects, including holes, cracks and even printing failure. Forming quality is limited by a series of factors, such as raw material properties, equipment properties, laser process parameters, and the post-treatment process, etc. In this paper, the feasibility test and density data test (laser power 130-280 w, laser scanning speed 1200-1500 mm/s, laser scanning distance 0.01 mm, and thickness 0.03 mm) were carried out by experiments. And the mathematical model of the Zl205A densification prediction curve and the densification distribution cloud plot were obtained. The BP neural network prediction system for ZL205A by SLM was developed with the help of the BP neural network toolbox. The prediction system was applied to ZL205A densification prediction with an error of less than 5%.

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来源期刊

Current Materials Science Materials Science-Materials Science (all)

CiteScore

0.80

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0.00%

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