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Stress Concentration, Stress Intensity, and Fatigue Lifetime Calculations inAutofrettaged Tubes Containing Axial Perforations within the Wall

机译：墙内轴向穿孔的全部夹层管的应力集中，应力强度和疲劳寿命计算

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Elastic, elastic-plastic, and experimental stress analyses and fatigue lifetimepredictions are presented for thick cylinders containing multiple, axial holes within the wall. The holes are generally semi-elliptical (including semi-circular) and the cylinders are autofrettaged after introduction of the holes and are subsequently subjected to cyclic pressurization of the bore. Two potentially critical failure locations are identified; a fracture-mechanics based design methodology is proposed; elastic and elastic-plastic finite element (FE) analyses are undertaken. The elastic FE analysis predicts hoop stresses at the bore resulting from internal pressurization which are some 7% higher than those for the equivalent plain tube. For a given hole size and location and for nominal overstrains of 40% or greater, the residual compressive stress at the bore is reduced by approximately 15% below the value for a plain tube of the same radius ratio. Two experimental investigations are reported, one based upon X-ray diffraction, to measure residual stresses, and the other based upon radial tube slitting, to measure opening angle. They confirm most features of the residual stress profiles predicted from FE analysis, with the exception of high compressive residual stresses and stress gradients immediately adjacent to the hole boundaries. Appropriate use of the residual stress information permits prediction of tube lifetimes for cracks emanating from the bore and from the hole. For the geometry and loading under consideration, the more critical location is predicted to be the hole boundary, the lifetime for failures originating from this point being some 60% of the lifetime for cracks originating at the bore.

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Parker, A. P.; Endersby, S. N.; Bond, T. J.; Underwood, J. H.; Lee, S. L.;
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年度 1997
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总页数 21
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Fatigue life; Bores; Autofrettage; Stress concentration; Stress strain relations; Stress analysis; Finite element analysis; Cracking(Fracturing); X ray diffraction; Boreholes; Fracture(Mechanics); Strain rate; Crack propagation; Residual stress; Failure(M;

机译：疲劳寿命;孔径;自增强;应力集中;应力应变关系;应力分析;有限元分析;裂纹（压裂）; X射线衍射;钻孔;断裂（力学）;应变率;裂纹扩展;残余应力;失效（m;

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1. A geometry-dependent generalized shape function for calculation of stress intensity factor for axially cracked thin-walled tubes [J] . Gopal Sanyal, Mahendra K. Samal International Journal of Advanced Structural Engineering . 2014,第2期

机译：几何相关的广义形状函数，用于计算轴向裂纹薄壁管的应力强度因子
2. APPLICATION OF THE CHENG-FINNIE METHOD TO THE CALCULATION OF STRESS INTENSITY FACTORS IN THIN-WALLED PIPES WITH LONG AXIAL CRACKS WITH ALLOWANCE FOR GEOMETRIC NONLINEARITY [J] . I. V. Orynyak, E. S. Yakovleva, V. V. Rozgonyuk Strength of Materials . 2007,第5期

机译：程芬妮方法在长轴裂纹薄壁管应力强度因子计算中的应用
3. Mixed-mode fatigue from stress concentrations: an approach based on equivalent stress intensity [J] . D. Taylor, W. Zhou, A.J. Ciepalowicz International Journal of Fatigue . 1999,第2期

机译：应力集中引起的混合模式疲劳：基于等效应力强度的方法
4. STRESS CONCENTRATION, STRESS INTENSITY AND FATIGUE LIFETIME CALCULATIONS IN AUTOFRETTAGED TUBES CONTAINING AXIAL PERFORATIONS WITHIN THE WALL [C] . Anthony P. Parker, Stephen N. Endersby, Timothy J. Bond, ASME Pressure Vessels and Piping Conference . 1996

机译：在墙壁内含有轴向穿孔的自动反射管中的应力浓度，应力强度和疲劳寿命计算
5. Residual stress effects on fatigue life via the stress intensity parameter, K. [D] . Roberts, Jeffrey Lynn. 2002

机译：残余应力通过应力强度参数K对疲劳寿命产生影响。
6. Effects of Residual Stress Axial Stretch and Circumferential Shrinkage on Coronary Plaque Stress and Strain Calculations: A Modeling Study Using IVUS-Based Near-Idealized Geometries [O] . Liang Wang, Jian Zhu, Habib Samady, -1

机译：残余应力轴向拉伸和周向收缩对冠状动脉斑块应力和应变计算的影响：使用基于IVUS的近似理想几何的模型研究
7. A geometry-dependent generalized shape function for calculation of stress intensity factor for axially cracked thin-walled tubes [O] . Gopal Sanyal, Mahendra K. Samal 2015

机译：用于计算轴向裂纹薄壁管应力强度因子的几何相关广义形状函数

Stress Concentration, Stress Intensity, and Fatigue Lifetime Calculations inAutofrettaged Tubes Containing Axial Perforations within the Wall

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