Numerical simulation of three-point bending fatigue of four-step 3-D braided rectangular composite under different stress levels from unit-cell approach

Sun B.; Liu R.; Gu B.

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Numerical simulation of three-point bending fatigue of four-step 3-D braided rectangular composite under different stress levels from unit-cell approach

机译：单元格法研究四步3-D编织矩形复合材料在不同应力水平下的三点弯曲疲劳数值模拟

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This paper reports the three-point bending fatigue behavior of 3-D carbon/epoxy braided composite in experimental and finite element analyses (FEAs) approaches. In the experimental approach, the stiffness degradation and maximum deflection curves were obtained to illustrate the relationship between applied stress levels and number of cycles to failure. In FEA approach, a user-defined material subroutine UMAT which characterizes the stiffness matrix and fatigue damage evolution of the 3-D braided composite was developed. It was incorporated with a finite element code ABAQUS/Standard to calculate the stiffness degradation and maximum deflection of the 3-D braided composite during each loading cycle. From the comparisons between experimental and FEA results, good agreements prove the validity of the unit cell model and the subroutine UMAT.

机译：本文在实验和有限元分析（FEA）方法中报告了3-D碳/环氧编织复合材料的三点弯曲疲劳行为。在实验方法中，获得了刚度下降和最大挠度曲线，以说明所施加的应力水平与破坏循环次数之间的关系。在FEA方法中，开发了用户定义的材料子例程UMAT，该子例程描述了3-D编织复合材料的刚度矩阵和疲劳损伤演化。它与有限元代码ABAQUS / Standard结合使用，以计算每个加载周期内3-D编织复合材料的刚度下降和最大挠度。从实验结果和FEA结果之间的比较，良好的一致性证明了晶胞模型和子例程UMAT的有效性。

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《Computational Materials Science》 |2012年第null期|共8页
作者
Sun B.; Liu R.; Gu B.;
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正文语种 eng
中图分类工程材料学;
关键词
3-D braided composite; Finite element analysis (FEA); Stiffness degradation; Three-point bending fatigue; User-defined materials (UMATs);

机译：3-D编织复合材料;有限元分析（FEA）;刚度降低;三点弯曲疲劳;用户定义材料（UMAT）;

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1. Numerical simulation of three-point bending fatigue of four-step 3-D braided rectangular composite under different stress levels from unit-cell approach [J] . Sun B., Liu R., Gu B. Computational Materials Science . 2012,第Null期

机译：单元格法研究四步3-D编织矩形复合材料在不同应力水平下的三点弯曲疲劳数值模拟
2. Transverse impact behaviors of four-step 3-D rectangular braided composites from unit-cell approach [J] . Yan Zhang, Lili Jiang, Baozhong Sun Journal of Reinforced Plastics and Composites . 2012,第4期

机译：单元格法研究的四步3-D矩形编织复合材料的横向冲击行为
3. Numerical analyses of bending fatigue of four-step three-dimensional rectangular-braided composite materials from unit cell approach [J] . Liwei Wu, Baozhong Sun, Bohong Gu The Journal of the Textile Institute . 2015,第1期

机译：基于单元格的四步三维矩形编织复合材料弯曲疲劳数值分析
4. FEM SIMULATION OF BALLISTIC PERFORATION OF 3-D RECTANGULAR BRAIDED COMPOSITE [C] . Jun Lian, Bohong Gu International Conference on Composite Materials . 2007

机译：三维矩形编织复合材料弹道穿孔的有限元模拟
5. Numerical simulations of crack propagation driven by stress-assisted corrosion in brittle solids and composite materials. [D] . Tang, Zhibo. 2003

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6. Energy-Based Approach to Predict Fatigue Life of Asphalt Mixture Using Three-Point Bending Fatigue Test [O] . Yazhen Sun, Chenze Fang, Jinchang Wang, 2018

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7. Numerical modeling on compressive behaviors of 3-D braided composites under high temperatures at microstructure level [O] . Hailou Wang, Baozhong Sun, Bohong Gu 2017

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8. Fatigue resistance of unnotched and post impact(/- 30 deg/0 deg) 3-D braided composites [R] . Portanova, Marc A. 1994

机译：无缺口和后冲击（/ - 30度/ 0度）3-D编织复合材料的抗疲劳性

Numerical simulation of three-point bending fatigue of four-step 3-D braided rectangular composite under different stress levels from unit-cell approach

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