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评估可持续蜗牛壳增强铝基复合材料摩擦钻削的微观结构和机器学习预测模型。

Evaluating microstructural and machine learning predictive models for friction drilling of sustainable snail shell reinforced aluminium matrix composites.

作者信息

Navasingh Rajesh Jesudoss Hynes, Sankaranarayanan R, Mishra Priyanka, J Angela Jennifa Sujana, Rajesh Jebasingh Jeremiah, Petru Jana

机构信息

Faculty of Mechanical Engineering, Opole University of Technology, Proszkowska 76, Opole, 45-758, Poland.

Department of Mechanical Engineering, Mepco Schlenk Engineering College, Sivakasi, India.

出版信息

Sci Rep. 2025 Aug 4;15(1):28336. doi: 10.1038/s41598-025-12555-w.

DOI:10.1038/s41598-025-12555-w
PMID:40760145
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12322022/
Abstract

For lightweight automotive applications, friction drilling is a choice candidate for ecofriendly drilling of aluminium matrix composites (AMCs) with green snail shell reinforcement. The present work investigates the effects of significant process variables such as spindle speed, feed rate, workpiece thickness, and drill diameter on bushing length, bushing thickness, and roundness. Higher spindle speeds and lower feed rates enhance bushing length due to controlled material flow and heat generation. However, higher spindle speeds and inappropriate feed rates resulted in decreased roundness. Microstructural examination reveals different zones across the bush formation during the friction drilling process. The head petal and tail petal regions have coarse grains in the range of 20 to 40 μm due to disrupted material flow. Surface topography of all bushing zones reflects the interconnected mechanical and thermal impacts which occur during friction drilling. Surface quality is on higher side at areas with optimal heat generation and material movement such as Upper Critical Region, and lower side at areas with excessive or insufficient deformation such as head and tail Petal Regions. The surface topography analysis at bushing zone reflects the coupled thermal and mechanical effects during friction drilling. Excessive deformation plays a crucial role in the surface quality. Poor surface quality can be observed at Head and Tail Petal Regions due to the excessive deformations. Dynamic recrystallisation produced fine grains in the order of 5 μm in the Upper Critical Region with ideal temperature and mechanical conditions. Random Forest (RF), Multilayer Perceptron (MLP), Gaussian Process Regression (GPR) and Support Vector Machine (SVM) models were employed for the prediction of distinct output responses.

摘要

对于轻型汽车应用,摩擦钻削是一种用于对含绿色蜗牛壳增强体的铝基复合材料(AMC)进行环保钻削的理想方法。目前的工作研究了主轴转速、进给速度、工件厚度和钻头直径等重要工艺变量对衬套长度、衬套厚度和圆度的影响。较高的主轴转速和较低的进给速度由于材料流动和热量产生得到控制,从而增加了衬套长度。然而,较高的主轴转速和不合适的进给速度会导致圆度降低。微观结构检查揭示了摩擦钻削过程中衬套形成过程中的不同区域。由于材料流动受到干扰,头部花瓣和尾部花瓣区域具有20至40μm范围内的粗晶粒。所有衬套区域的表面形貌反映了摩擦钻削过程中发生的相互关联的机械和热影响。在产生最佳热量和材料运动的区域,如上部临界区域,表面质量较高;而在变形过大或过小的区域,如头部和尾部花瓣区域,表面质量较低。衬套区域的表面形貌分析反映了摩擦钻削过程中的热和机械耦合效应。过度变形在表面质量中起着关键作用。由于过度变形,在头部和尾部花瓣区域可以观察到较差的表面质量。动态再结晶在上部临界区域产生了尺寸约为5μm的细晶粒,该区域具有理想的温度和机械条件。采用随机森林(RF)、多层感知器(MLP)、高斯过程回归(GPR)和支持向量机(SVM)模型来预测不同的输出响应。

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