Experimental and numerical study on the material constraint effect in pipeline steel welded joint

IF 3 2区 工程技术 Q2 ENGINEERING, MECHANICAL International Journal of Pressure Vessels and Piping Pub Date : 2024-08-28 DOI:10.1016/j.ijpvp.2024.105301
Yinhui Zhang, Fuxiang Wang, Zhengqiang Lei, Yanhui Zhang, Wenbo Xuan, Hui Yang, Guangyong Yang, Xin Su, Jian Chen, Ting Zhong
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Abstract

An in-depth analysis of the material constraint effect is crucial for accurately determining the constitutive relationship and safety evaluation of pipeline steel welded joint. Therefore, this work combines experiments and finite element simulations to study the constraint effect. Through the welding method, the weld specimens with different sizes and strength mismatch conditions are prepared. The microstructure and hardness distribution of the specimens are measured, and tensile tests based on the digital image correlation (DIC) technology are conducted. Finite element models of the weld specimens with different sizes and material parameters are established, followed by tensile simulations and detailed analysis. Based on the experiments and numerical simulations, the tensile strain responses, stress-strain curves, and material parameters of different weld specimens are obtained. The results show that the smaller the weld width, the more significant the effect of the material constraint. For undermatched welds, the calculated stress of the weld metal (WM) increases with the decrease of the weld width. Additionally, the calculated stress of WM also increases with the decrease of the mismatch coefficient, where the mismatch coefficient refers to the ratio of the yield strength of WM to that of the base metal (BM). Conversely, for overmatched welds, the calculated stress of WM decreases with the decrease of the weld width. The material constraint effect is also influenced by the mismatch condition of the weld. An increase in the mismatch coefficient reduces the effective range of the stress-strain curve obtainable for WM. To analyze the effect of the mismatch condition, it is necessary to comprehensively compare the yield strength and strain hardening capacity of each material. The width-to-thickness ratio of the weld specimen has little effect on the calculated stress of WM. The finite element simulation method can be used to correct the stress-strain curves obtained from the tests to achieve accurate constitutive relationships.

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管道钢焊接接头材料约束效应的实验和数值研究
深入分析材料的约束效应对于准确确定管道钢焊接接头的构成关系和安全评估至关重要。因此,本研究结合实验和有限元模拟对约束效应进行了研究。通过焊接方法,制备了不同尺寸和强度失配条件下的焊接试样。测量了试样的微观结构和硬度分布,并基于数字图像相关(DIC)技术进行了拉伸试验。建立了不同尺寸和材料参数的焊接试样的有限元模型,随后进行了拉伸模拟和详细分析。在实验和数值模拟的基础上,得出了不同焊缝试样的拉伸应变响应、应力-应变曲线和材料参数。结果表明,焊缝宽度越小,材料约束的影响越明显。对于咬合焊缝,焊缝金属(WM)的计算应力随着焊缝宽度的减小而增大。错配系数是指 WM 的屈服强度与母材 (BM) 的屈服强度之比。相反,对于过匹配焊缝,WM 的计算应力随着焊缝宽度的减小而减小。材料约束效应还受到焊缝失配情况的影响。失配系数的增加会减小 WM 应力-应变曲线的有效范围。要分析错配条件的影响,有必要综合比较每种材料的屈服强度和应变硬化能力。焊接试样的宽厚比对 WM 的计算应力影响不大。有限元模拟法可用于修正试验获得的应力-应变曲线,以实现精确的构成关系。
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来源期刊
CiteScore
5.30
自引率
13.30%
发文量
208
审稿时长
17 months
期刊介绍: Pressure vessel engineering technology is of importance in many branches of industry. This journal publishes the latest research results and related information on all its associated aspects, with particular emphasis on the structural integrity assessment, maintenance and life extension of pressurised process engineering plants. The anticipated coverage of the International Journal of Pressure Vessels and Piping ranges from simple mass-produced pressure vessels to large custom-built vessels and tanks. Pressure vessels technology is a developing field, and contributions on the following topics will therefore be welcome: • Pressure vessel engineering • Structural integrity assessment • Design methods • Codes and standards • Fabrication and welding • Materials properties requirements • Inspection and quality management • Maintenance and life extension • Ageing and environmental effects • Life management Of particular importance are papers covering aspects of significant practical application which could lead to major improvements in economy, reliability and useful life. While most accepted papers represent the results of original applied research, critical reviews of topical interest by world-leading experts will also appear from time to time. International Journal of Pressure Vessels and Piping is indispensable reading for engineering professionals involved in the energy, petrochemicals, process plant, transport, aerospace and related industries; for manufacturers of pressure vessels and ancillary equipment; and for academics pursuing research in these areas.
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