Rapid evaluation of notch stress intensity factors using the peak stress method: Comparison of commercial finite element codes for a range of mesh patterns

G. Meneghetti; A. Campagnolo; M. Avalle; D. Castagnetti; M. Colussi; P. Corigliano; M. De Agostinis; E. Dragoni; V. Fontanari; F. Frendo; L. Goglio; G. Marannano; G. Marulo; F.Moroni; A. Pantano; A. Rebora; A. Scattina; A. Spaggiari; B. Zuccarello

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Rapid evaluation of notch stress intensity factors using the peak stress method: Comparison of commercial finite element codes for a range of mesh patterns

机译：使用峰值应力方法快速评估缺口应力强度因子：一系列网格图案的商业有限元代码比较

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The peak stress method (PSM) is an engineering, finite element (FE)-oriented method to rapidly estimate the notch stress intensity factors by using the singular linear elastic peak stresses calculated from coarse FE analyses. The average element size adopted to generate the mesh pattern can be chosen arbitrarily within a given range. Originally, the PSM has been calibrated under pure mode I and pure mode II loadings by means of Ansys FE software. In the present contribution, a round robin between 10 Italian universities has been carried out to calibrate the PSM with 7 different commercial FE codes. To this aim, several two-dimensional mode I and mode II problems have been analysed independently by the participants. The obtained results have been used to calibrate the PSM for given stress analysis conditions in (i) FE software, (ii) element type and element formulation, (iii) mesh pattern, and (iv) criteria for stress extrapolation and principal stress analysis at FE nodes.

机译：峰值应力法（PSM）是一种面向工程，有限元（FE）的方法，通过使用从粗略有限元分析得出的奇异线性弹性峰值应力，可以快速估算缺口应力强度因子。可以在给定范围内任意选择用于生成网格图案的平均元素大小。最初，PSM已通过Ansys FE软件在纯模式I和纯模式II负载下进行了校准。在目前的贡献中，已在10所意大利大学之间进行了循环测试，以使用7种不同的商业FE代码来校准PSM。为了这个目的，参与者已经独立地分析了几个二维模式I和模式II问题。获得的结果已用于在（i）FE软件，（ii）元素类型和元素配方，（iii）网格模式以及（iv）应力外推和主应力分析标准下针对给定应力分析条件校准PSM。 FE节点。

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来源
《Fatigue & fracture of engineering materials and structures》 |2018年第5期|1044-1063|共20页
作者
G. Meneghetti; A. Campagnolo; M. Avalle; D. Castagnetti; M. Colussi; P. Corigliano; M. De Agostinis; E. Dragoni; V. Fontanari; F. Frendo; L. Goglio; G. Marannano; G. Marulo; F.Moroni; A. Pantano; A. Rebora; A. Scattina; A. Spaggiari; B. Zuccarello;
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作者单位

Department of Industrial Engineering, University of Padova, Via Venezia, 1-35131 Padova, Italy;

Department of Industrial Engineering, University of Padova, Via Venezia, 1-35131 Padova, Italy;

Department of Mechanical, Energy, Management and Transportation Engineering, University of Genova, Via all'Opera Pia, 15-16145 Genova, Italy;

Department of Sciences and Methods for Engineering, University of Modena and Reggio Emilia, Via Amendola, 2-42122 Reggio Emilia, Italy;

Department of Management and Engineering, University of Padova, Stradella San Nicola, 3-36100 Vicenza, Italy;

Engineering Department, University of Messina, Contrada di Dio - 98166 Sant'Agata, Messina, Italy;

Department of Industrial Engineering, University of Bologna, Viale del Risorgimento, 2-40136 Bologna, Italy;

Department of Sciences and Methods for Engineering, University of Modena and Reggio Emilia, Via Amendola, 2-42122 Reggio Emilia, Italy;

Department of Management and Engineering, University of Padova, Stradella San Nicola, 3-36100 Vicenza, Italy;

Department of Civil and Industrial Engineering, University of Pisa, Largo L. Lazzarino, 2-56122 Pisa, Italy;

Department of Mechanical and Aerospace Engineering, Politecnico di Torino, Corso Duca degli Abruzzi, 24-10129 Torino, Italy;

Department of Industrial and Digital Innovation, University of Palermo, Viale delle Scienze, 90128 Palermo, Italy;

Department of Civil and Industrial Engineering, University of Pisa, Largo L. Lazzarino, 2-56122 Pisa, Italy;

Department of Engineering and Architecture, University of Parma, Via G. P Usberti 181/A, 43124 Parma, Italy;

Department of Industrial and Digital Innovation, University of Palermo, Viale delle Scienze, 90128 Palermo, Italy;

Department of Mechanical, Energy, Management and Transportation Engineering, University of Genova, Via all'Opera Pia, 15-16145 Genova, Italy;

Department of Mechanical and Aerospace Engineering, Politecnico di Torino, Corso Duca degli Abruzzi, 24-10129 Torino, Italy;

Department of Sciences and Methods for Engineering, University of Modena and Reggio Emilia, Via Amendola, 2-42122 Reggio Emilia, Italy;

Department of Industrial and Digital Innovation, University of Palermo, Viale delle Scienze, 90128 Palermo, Italy;

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正文语种 eng
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关键词
coarse mesh; finite element (FE) analysis; notch stress intensity factor (NS1F); peak stress method (PSM);

机译：粗目有限元分析缺口应力强度因子（NS1F）;峰值应力法（PSM）;

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1. The peak stress method to estimate the mode I notch stress intensity factor in welded joints using three-dimensional finite element models [J] . Giovanni Meneghetti, Carlo Guzzella Engineering Fracture Mechanics . 2014,第Null期

机译：使用三维有限元模型估算焊接接头中I型缺口应力强度因子的峰值应力方法
2. Evaluation of mode Ⅲ stress intensity factors for bi-material notched bodies using the fractal-like finite element method [J] . Muhammad Treifi, S. Olutunde Oyadiji Computers & Structures . 2013,第deca期

机译：分形有限元法评估双材料缺口体Ⅲ型应力强度因子
3. Rapid estimation of notch stress intensity factors in 3D large-scale welded structures using the peak stress method [J] . Alberto Campagnolo, Giovanni Meneghetti MATEC Web of Conferences . 2018,第1期

机译：峰值应力法快速估算3D大型焊接结构中的缺口应力强度因子
4. Numerical Study of Stress Intensity Factor in Notched Specimens using Extended Finite Element Method [C] . Geng CHEN, Tao XU, Qiang XU, International Conference on Civil Engineering, Architecture and Building Materials . 2012

机译：延长有限元法测定缺口试样应力强度因子的数值研究
5. Development of an evaluation technique for mode-I stress intensity factor of notched carbon/epoxy orthotropic laminate composites and its application. [D] . Lee, Dongyeon. 2005

机译：缺口碳/环氧正交各向异性层压材料复合材料的I型应力强度因子评估技术的开发及其应用。
6. Comparison and evaluation of stresses generated by rapid maxillary expansion and the implant-supported rapid maxillary expansion on the craniofacial structures using finite element method of stress analysis [O] . Varun Jain, Tarulatha R. Shyagali, Prabhuraj Kambalyal, 2017

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7. Rapid evaluation of notch stress intensity factors using the peak stress method: Comparison of commercial finite element codes for a range of mesh patterns [O] . G. Meneghetti, A. Campagnolo, M. Avalle, 2017

机译：利用峰值应力法快速评估凹口应力强度因子：商业有限元代码对一系列网格图案的比较
8. An Evaluation of Finite Element Methods for the Computation of Elastic Stress Intensity Factors [R] . Oglesby, J. J., Lomacky, O. 1971

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Rapid evaluation of notch stress intensity factors using the peak stress method: Comparison of commercial finite element codes for a range of mesh patterns

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