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引用次数: 2
摘要
本文介绍了最近对压力容器和管道部件窄间隙焊缝残余应力分布的综合研究,涵盖了组件壁厚从1 " (25.4mm)到10 " (254mm),组件半径与壁厚比从2到100,线性焊接加热输入从低(300 J/mm)到高(18000 J/mm)。通过残馀应力分解技术,确定了影响残馀应力分布的两个关键参数,即薄膜和弯曲量。一个是构件半径与壁厚比(r/t),另一个是特征热输入密度(Q /),单位为J/mm3。有了这两个参数,提出了一个统一的函数形式来表示窄间隙焊缝的全厚度残余应力分布,以支持服务评估的适应度,例如使用f API 579-RP。对选定的一些窄间隙焊缝进行了全面的热力有限元残余应力分析,进一步证实了该方法的有效性。
A Residual Stress Profile Estimation Method for Narrow Groove Girth Welds
A recent comprehensive investigation into residual stress distributions in narrow gap welds in pressure vessels and pipe components are presented in this paper, covering component wall thickness from 1” (25.4mm) to 10” (254mm), component radius to wall thickness ratio from 2 to 100, and linear welding heating input from low (300 J/mm) to high (18000 J/mm). By means of a residual stress decomposition technique, two key parameters that govern through-thickness residual stress distributions in terms of their membrane and bending content have been identified. One is component radius to wall thickness ratio (r/t) and the other is a characteristic heat input density (Q̂) having a unit of J/mm3. With these two parameters, a unified functional form for representing through-thickness residual stress profile in narrow gap welds is proposed for supporting fitness for service assessment, e.g., using f API 579-RP. Its validity is further confirmed by full-blown thermomechanical finite element residual stress analyses for a number of selected narrow gap weld cases.
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