在役焊接和感应预热的多物理场仿真：第 1 部分

Welding Journal Pub Date : 2024-02-01 DOI:10.29391/2024.103.005

K. C. Riffel, R. H. Gonçalves e Silva, Antonio Ramirez, Andres Fabricio FISCHDICK ACUNA, G. Dalpiaz, Marcelo Torres Piza Paes

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引用次数: 0

摘要

利用多物理场有限元分析（FEA）将传热、流体流动和电磁加热耦合在一起，建立了一个有限元模型。第 1 部分介绍了模拟 B 型套筒修复圆周焊接的软件实现、模型方程、网格设置和建模方法。模拟分为四个步骤，对模型中的每个物理问题依次进行求解。对感应预热进行了模拟，并通过比较模拟温度和实验测量结果进行了验证。多物理场模型不同于文献中常见的模拟，其结果更加可靠，可为在役应用提供更完整的模型。

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Multiphysics Simulation of In-Service Welding and Induction Preheating: Part 1

A finite element model was developed using a multiphysics finite element analysis (FEA) coupling heat transfer, fluid flow, and electromagnetic heating. Part 1 presents the software implementation and model equations beside the mesh setting and modeling approach to simulate circumferential welding of Type B sleeve repair. The simulation was divided into four steps running sequentially for each physic solved in the model. Induction preheating was simulated and validated by comparing simulated temperature with experimental measurements. The multiphysics model differs from the usual simulations present in the literature, expressing more reliability in the results and making way for more-complete modeling for in-service applications.

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Welding Journal

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