Effect of Alternated Multiaxial Stress State on Fatigue Strength and Relaxation of Residual Stress in Welded S355 Steel with Nonlinear and Combined Hardening

Hamza Khatib, El Kebch Ali
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Abstract

This work aims to analyse the effect of the alternated multiaxial stress state on the relaxation mechanisms of residual stresses and the integrity of welded S355 steel, presenting a nonlinear and combined hardening behaviour. The first part of this work proposes a model to predict the residual stresses introduced by the thermal effect of the welding process. The stresses resulting from the thermal cycle were integrated into a second model in which the material was subjected to a cyclic load to analyse the relaxation process. To ensure a good accuracy of the relaxation results, the kinematic and isotropic hardening were combined in a nonlinear model. In the last part of this paper, a multiaxial fatigue strength analysis was carried out, taking into account the effect of residual stresses and the relaxation process. The results show a considerable relaxation of the residual stresses if they are subjected to low load levels applied under specific conditions. The relaxed residual stresses can have a considerable effect on fatigue strength. Also, the importance of the consideration of the relaxation process on the accuracy of the fatigue strength results is illustrated.
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多轴交变应力状态对S355钢非线性复合硬化焊接疲劳强度及残余应力松弛的影响
本工作旨在分析交变多轴应力状态对焊接后S355钢残余应力松弛机制和完整性的影响,结果表明S355钢呈现非线性复合硬化行为。本工作的第一部分提出了一个模型来预测焊接过程中热效应引起的残余应力。热循环产生的应力被整合到第二个模型中,在这个模型中,材料受到循环载荷来分析松弛过程。为了保证松弛结果的准确性,将运动硬化和各向同性硬化结合在一个非线性模型中。在本文的最后一部分,考虑了残余应力和松弛过程的影响,进行了多轴疲劳强度分析。结果表明,如果在特定条件下施加低负荷水平,残余应力会有相当大的松弛。松弛残余应力对疲劳强度有相当大的影响。此外,还说明了考虑松弛过程对疲劳强度计算结果准确性的重要性。
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来源期刊
CiteScore
2.40
自引率
10.00%
发文量
43
审稿时长
20 weeks
期刊介绍: The IJAME provides the forum for high-quality research communications and addresses all aspects of original experimental information based on theory and their applications. This journal welcomes all contributions from those who wish to report on new developments in automotive and mechanical engineering fields within the following scopes. -Engine/Emission Technology Automobile Body and Safety- Vehicle Dynamics- Automotive Electronics- Alternative Energy- Energy Conversion- Fuels and Lubricants - Combustion and Reacting Flows- New and Renewable Energy Technologies- Automotive Electrical Systems- Automotive Materials- Automotive Transmission- Automotive Pollution and Control- Vehicle Maintenance- Intelligent Vehicle/Transportation Systems- Fuel Cell, Hybrid, Electrical Vehicle and Other Fields of Automotive Engineering- Engineering Management /TQM- Heat and Mass Transfer- Fluid and Thermal Engineering- CAE/FEA/CAD/CFD- Engineering Mechanics- Modeling and Simulation- Metallurgy/ Materials Engineering- Applied Mechanics- Thermodynamics- Agricultural Machinery and Equipment- Mechatronics- Automatic Control- Multidisciplinary design and optimization - Fluid Mechanics and Dynamics- Thermal-Fluids Machinery- Experimental and Computational Mechanics - Measurement and Instrumentation- HVAC- Manufacturing Systems- Materials Processing- Noise and Vibration- Composite and Polymer Materials- Biomechanical Engineering- Fatigue and Fracture Mechanics- Machine Components design- Gas Turbine- Power Plant Engineering- Artificial Intelligent/Neural Network- Robotic Systems- Solar Energy- Powder Metallurgy and Metal Ceramics- Discrete Systems- Non-linear Analysis- Structural Analysis- Tribology- Engineering Materials- Mechanical Systems and Technology- Pneumatic and Hydraulic Systems - Failure Analysis- Any other related topics.
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