Feasibility study of using digital twins for conceptual design of air-quenching processes

IF 2.9 3区 工程技术 Q2 AUTOMATION & CONTROL SYSTEMS
Zhuming Bi, Donald Mueller, Aki Mikkola
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Abstract

The concepts of digital twins (DTs) have been widely studied to predict system performance, shorten design cycles, and implement preventive maintenance, but mainly, in large-scale enterprises. It is extremely beneficial to the whole manufacturing sector, since DTs can be readily implemented in small and medium-sized enterprises (SMEs) with basic computer aided engineering (CAE) tools; over 95% enterprises are SMEs. This paper aims to prove the feasibility of using commercial CAE tools, such as SolidWorks Simulation, to design air-quenching processes for SMEs. SMEs can benefit to explore new business opportunities, reduce system design cycle, and improve existing air-quenching processes. To our knowledge, it will be the first work of adopting DTs in conceptual design of an air-quenching process in sense that (1) the need of simulating an air-quenching process before physical implementation is discussed thoroughly; (2) heat transfer processes are classified, governing mathematical models for various heat transfer behaviors are introduced to present an evaluation model of a heat transfer process; (3) main process variables of air-quenching are identified; (4) a DT of an air-quenching process is developed and simulated to verify the capabilities of commercial SolidWorks Simulation; (5) case studies are developed to show how a CAE tool can be used in DTs. The findings from the reported work are summarized with a debrief of our future work.

Abstract Image

利用数字双胞胎进行空气淬火工艺概念设计的可行性研究
数字孪生(DTs)的概念已在预测系统性能、缩短设计周期和实施预防性维护方面得到广泛研究,但主要是在大型企业中。但数字孪生(DTs)的概念已被广泛研究,但主要是在大型企业中应用,而在中小型企业(SMEs)中,只要有基本的计算机辅助工程(CAE)工具,就可以轻松实现数字孪生(DTs),这对整个制造业都极为有利;超过 95% 的企业都是中小型企业。本文旨在证明使用商业 CAE 工具(如 SolidWorks 仿真)设计中小型企业空气淬火工艺的可行性。中小型企业可以从中获益,开拓新的商机,缩短系统设计周期,改进现有气淬工艺。据我们所知,这将是首次在气淬工艺概念设计中采用 DTs 的工作,其意义在于:(1)深入讨论了在物理实施之前模拟气淬工艺的必要性;(2)对传热工艺进行了分类,引入了各种传热行为的支配数学模型,从而提出了传热工艺的评估模型;(3) 确定空气淬火的主要过程变量;(4) 开发并模拟空气淬火过程的 DT,以验证商用 SolidWorks 仿真的能力;(5) 开展案例研究,以说明如何在 DT 中使用 CAE 工具。在总结报告工作成果的同时,还对我们未来的工作进行了汇报。
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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来源期刊
CiteScore
5.70
自引率
17.60%
发文量
2008
审稿时长
62 days
期刊介绍: The International Journal of Advanced Manufacturing Technology bridges the gap between pure research journals and the more practical publications on advanced manufacturing and systems. It therefore provides an outstanding forum for papers covering applications-based research topics relevant to manufacturing processes, machines and process integration.
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