3-D stress intensity factors due to full autofrettage for inner radial or coplanar crack arrays and ring cracks in a spherical pressure vessel

Perl M.; Steiner M.

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3-D stress intensity factors due to full autofrettage for inner radial or coplanar crack arrays and ring cracks in a spherical pressure vessel

机译：球形压力容器内径向或共面裂纹阵列和环形裂纹由于完全自动强化而产生的3-D应力强度因子

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Three dimensional, stress intensity factor for inner radial or coplanar crack arrays and ring cracks prevailing in an autofrettaged spherical pressure vessel are evaluated. The 3-D analysis is performed via the finite element method implementing a novel realistic autofrettage residual stress field incorporating the Bauschinger effect. SIFs are evaluated for arrays of radial or coplanar cracks and ring cracks of depth to wall thickness ratios of a/t = 0.1-0.6, and ellipticities of a/c = 0.2-1.0 in fully autofrettaged spherical vessels, epsilon = 100%, of R-o/R-i = 1: 1; 1: 2, and 1.7. SIFs are evaluated for radial arrays containing n = 1-20 cracks, and for arrays of coplanar cracks of delta = 0-0.95 densities. (C) 2015 Elsevier Ltd. All rights reserved.

机译：评估了在内部自应力球形压力容器中普遍存在的内部径向或共面裂纹阵列和环形裂纹的三维应力强度因子。通过有限元方法执行3-D分析，该方法实现了包含Bauschinger效应的新型逼真的自增强残余应力场。对SIF进行了评估，其是在全自动装填的球形球形容器中（ε= 100％），径向/共面裂纹和环形裂纹的深度/壁厚比为a / t = 0.1-0.6，椭圆率a / c = 0.2-1.0的阵列。 Ro / Ri = 1：1; 1：2和1.7。对包含n = 1-20个裂纹的径向阵列和delta = 0-0.95密度的共面裂纹的阵列评估SIF。（C）2015 Elsevier Ltd.保留所有权利。

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《Engineering Fracture Mechanics》 |2015年第null期|共17页
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Perl M.; Steiner M.;
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正文语种 eng
中图分类工程力学;
关键词
Stress intensity factors; Autofrettage; Spherical pressure vessel; Radial crack arrays; Coplanar crack arrays; Ring cracks; Lunular crack; Crescentic crack;

机译：应力强度因子;自增强;球面压力容器;径向裂纹阵列;共面裂纹阵列;环形裂纹;圆形裂纹;新月形裂纹;

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1. 3-D stress intensity factors due to full autofrettage for inner radial or coplanar crack arrays and ring cracks in a spherical pressure vessel [J] . Perl M., Steiner M. Engineering Fracture Mechanics . 2015,第Null期

机译：球形压力容器内径向或共面裂纹阵列和环形裂纹由于完全自动强化而产生的3-D应力强度因子
2. The beneficial effect of full or partial autofrettage on the combined 3-D stress intensity factors for inner radial crack arrays in a spherical pressure vessel [J] . Perl M., Steiner M. Engineering Fracture Mechanics . 2017,第期

机译：全部或部分自动压缩对球形压力容器内径向裂纹阵列组合的3-D应力强度因子的有益效果
3. 3-D stress intensity factors due to autofrettage for an inner radial lunular or crescentic crack in a spherical pressure vessel [J] . M. Perl, M. Steiner, J. Perry Engineering Fracture Mechanics . 2014,第Null期

机译：球形压力容器中内部径向的月牙形或新月形裂纹的自动强化导致的3-D应力强度因子
4. 3-D Stress Intensity Factors due to Full Autofrettage for Inner Radial or Coplanar Crack Arrays and Ring Cracks in a Spherical Pressure Vessel [C] . M. Perl, M. Steiner European Conference on Fracture . 2016

机译：由于内径或共面裂纹阵列的完全自动分流引起的3-D应力强度因子和球形压力容器中的环裂纹
5. Effect of Residual Stresses on the Stress Intensity Factors for Cracks Near Fillet Welds. [D] . Du, Changyuan. 2015

机译：残余应力对角焊缝附近裂纹应力强度因子的影响。
6. The stress intensity factors for a periodic array of interacting coplanar penny-shaped cracks [O] . Huseyin Lekesiz, Noriko Katsube, Stanislav I. Rokhlin, -1

机译：应力强度因子相互作用共面硬币形裂纹的周期性阵列
7. 3-D Stress Intensity Factors due to Full Autofrettage for Inner Radial or Coplanar Crack Arrays and Ring Cracks in a Spherical Pressure Vessel [O] . Perl M., Steiner M. 2016

机译：球形压力容器内径向或共面裂纹阵列和环形裂纹由于完全自动强化而产生的3-D应力强度因子
8. Stress Intensity Factors for Radial Cracks at Outer Surface of a Partially Autofrettaged Cylinder Subjected to Internal Pressure [R] . Pu, S. L. 1982

机译：内压作用下部分自紧式圆筒外表面径向裂纹的应力强度因子

3-D stress intensity factors due to full autofrettage for inner radial or coplanar crack arrays and ring cracks in a spherical pressure vessel

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