Crack-Tip Stress Field of Cracked Pipe under Combined Tension and Thermal Load

机译：张力和热负荷下裂纹管裂纹应力场

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In the presence of excessive plasticity, the fracture toughness depends on the size and geometry. For material under fully yielded conditions, the stresses near the crack tip are not unique, but depend on geometry. So Single-parameter;; /-approach is limited to high-constraint crack geometry. J-Q theory has been proposed in order to decide crack geometry constraint. This approach assumes that the crack-tip fields have two degrees of freedom. In this paper, based on J-Q theory, crack-tip stress field of fully circumferential cracked pipe under combined load is investigated using FE analysis. Combined loads are tensile axial force and thermal gradient of radial direction, Q-stresses of a crack geometry and it's loading state are used to determine constraint effect, and give a characteristic order for crack-tip constraint.

机译：在过度可塑性的情况下，断裂韧性取决于尺寸和几何形状。对于完全产生的条件下的材料，裂缝尖端附近的应力不是独特的，而是取决于几何形状。所以单一参数;; / - ackach仅限于高约束裂缝几何形状。已经提出了J-Q理论以决定裂缝几何约束。这种方法假定裂缝尖端具有两度自由度。本文基于J-Q理论，使用Fe分析研究了组合负载下的完全周向裂纹管的裂纹尖端应力场。组合负载是拉伸轴向力和径向热梯度，裂纹几何形状的Q应力和其加载状态用于确定约束效果，并给出裂缝尖端约束的特征顺序。

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《International Conference on Pressure Vessel Technology》|2016年|2 v. (1794p.)|共9页
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J.-H. Je; H.-S. Lee; D.-J. Kim;
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中图分类压力容器;
关键词
Crack-tip Constraint; Q-stress; Combined load; Cracked pipe;

机译：裂缝尖端约束;Q应力;组合负载;裂纹管;

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1. Three-dimensional finite element analysis of crack-tip fields of clamped single-edge tension specimens - Part I: Crack-tip stress fields [J] . Enyang Wang, Wenxing Zhou, Guowu Shen Engineering Fracture Mechanics . 2014,第Null期

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2. Reference stress based elastic-plastic fracture analysis for circumferential through-wall cracked pipes under combined tension and bending [J] . Yun-Jae Kim, Nam-Su Huh, Young-Jin Kim Engineering Fracture Mechanics . 2002,第3期

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3. CRITICAL STRESS INTENSITY FACTORS FOR CRACKED HOLLOW PIPES UNDER TRANSIENT THERMAL LOADS [J] . K. R. Jayadevan Journal of thermal stresses . 2002,第10期

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4. Crack-Tip Stress Field of Cracked Pipe under Combined Tension and Thermal Load [C] . J.-H. Je, H.-S. Lee, D.-J. Kim International Conference on Pressure Vessel Technology . 2016

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5. ANALYSIS OF CRACKED PIPING SYSTEMS SUBJECTED TO THERMAL STRESS, RESIDUAL STRESS AND DYNAMIC LOADING. [D] . SHARMA, SUKHDEV RAJ. 1982

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6. A comparison of stress in cracked fibrous tissue specimens with varied crack location loading and orientation using finite element analysis [O] . John M. Peloquin, Dawn M. Elliott -1

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7. Crack-Tip Stress Field of Cracked Pipe under Combined Tension and Thermal Load [O] . Je J.-H., Lee H.-S., Kim D.-J., 2015

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8. Effects of Toughness Anisotropy and Combined Tension, Torsion, and Bending Loads on Fracture Behavior of Ferritic Nuclear Pipe [R] . Mohan, R., Marschall, C., Krishnaswamy, P., 1995

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Crack-Tip Stress Field of Cracked Pipe under Combined Tension and Thermal Load

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