一种用于硬化复杂形状零件的电感器的设计开发

V. Lebedev, E. Gotovkina
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引用次数: 0

摘要

由于积极的进口替代进程,国内工业开始生产以前从国外购买的零件。这些部件是各种技术对象和系统稳定可靠运行所必需的。因此,开发用于硬化金属型材的技术装置是当前的课题。由于型材具有非常薄的不规则形状的壁,因此只应从内部硬化,而型材的外壁应最小限度地加热以保持强度,因此任务变得复杂。建立了电磁场和电磁场的仿真模型,使研究对象的感应加热过程得以再现。由于零件在整个长度上具有相同的形状,因此在二维空间中对其感应加热过程进行了模拟。作者建立了非标准形状零件感应加热过程的仿真模型,包括电磁场和电磁场的计算。提出了电感器的设计,补充了铁氧体插入,这使得实现硬化过程所需的温度状态成为可能。所建立的仿真模型可以评估零件的电磁场分布,从而预测在使用各种电感器设计时其硬化所需的温度。数值实验结果与感应加热的物理概念相一致,证明了对形状复杂的薄壁零件采用感应淬火代替激光淬火的可能性。该模型可用于工程实践中非标准件电感器的设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of design of an inductor for hardening a part of a complex shape
Due to active process of import substitution, domestic industry starts producing the parts previously purchased abroad. These parts are necessary for stable and reliable operation of various technical objects and systems. Thus, the development of a technological installation for hardening a metal profile is topical. The task is complicated by the fact that the profile has very thin irregularly shaped walls, which should be hardened only from the inside, while the outer wall of the profile should be heated minimally to maintain strength. The studies have been carried out on simulation models of electromagnetic and thermal fields, which make it possible to reproduce the process of induction heating of the research object. Since the part has the same shape along the entire length, the simulation of the process of its induction heating is performed in two-dimensional space. The authors have developed a simulation model of the process of induction heating of a part of a non-standard shape, which includes calculations of thermal and electromagnetic fields. The design of the inductor is proposed, supplemented with ferrite inserts, which makes it possible to achieve the temperature regime necessary for the hardening process. The developed simulation model makes it possible to evaluate the distribution of the thermal and electromagnetic fields of the part, thereby predicting getting the temperatures required for its hardening when using various designs of inductors. The results of numerical experiments are consistent with the physical concepts of induction heating and prove the possibility to use induction hardening for thin-walled parts of complex shape instead of laser hardening used for this type of parts. The proposed model can be used in engineering practice to design inductors of non-standard parts.
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