Elastoplastic micromechanics model for multiscale analysis of metal matrix composite structures

Moon Shik Park; Young W. Kwon

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Elastoplastic micromechanics model for multiscale analysis of metal matrix composite structures

机译：用于金属基复合材料结构多尺度分析的弹塑性微力学模型

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摘要

An elastoplastic micromechanics model was developed for metal matrix composites reinforced by elastic particles, long or short fibers. The matrix material undergoes elastoplastic deformation. The model is based on a unit cell consisting of multiple subcells representing reinforcing and binding materials, respectively. The model can be implemented for multiscale analysis because it can compute mechanical properties and stresses/strains at both the constituent and composite levels and link them from one level to the other. Residual stresses at the both levels can also be computed with unloading. Elastoplastic analyses of various composites and structures were presented to demonstrate the developed model.

机译：针对由弹性颗粒，长或短纤维增强的金属基复合材料，建立了弹塑性微力学模型。基体材料经历弹塑性变形。该模型基于一个单元格，该单元格由分别代表增强材料和粘合材料的多个子单元格组成。该模型可用于多尺度分析，因为它可以计算组成层和复合层的机械性能和应力/应变，并将它们从一个层链接到另一个层。两个水平的残余应力也可以通过卸荷来计算。提出了各种复合材料和结构的弹塑性分析，以证明开发的模型。

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来源
《Computers & Structures》 |2013年第7期|28-38|共11页
作者
Moon Shik Park; Young W. Kwon;
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作者单位

Department of Mechanical Engineering, Hannam University, Daejeon 306-791, Republic of Korea;

Department of Mechanical and Aerospace Engineering, Naval Postgraduate School Monterey, CA 93943, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Elastoplasticity; Micromechanics; Multiscale analysis; Unit cell; Metal matrix composite; Laminated composite;

机译：弹塑性微力学;多尺度分析;晶胞;金属基复合材料;层压复合材料;

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专利

1. Elastoplastic behavior of the metal matrix nanocomposites containing carbon nanotubes: A micromechanics-based analysis [J] . Haghgoo M., Ansari R., Hassanzadeh-Aghdam M. K., Proceedings of the Institution of Mechanical Engineers. Part L, Journal of Materials: Design and Application . 2019,第4期

机译：含碳纳米管的金属基质纳米复合材料的弹塑性行为：基于微力学的分析
2. Effective elastoplastic behavior of metal matrix composites containing randomly located aligned spheroidal inhomogeneities. Part I: micromechanics-based formulation [J] . Ju JW., Sun LZ. International Journal of Solids and Structures . 2001,第2期

机译：包含随机排列的球状不均匀性的金属基复合材料的有效弹塑性行为。第一部分：基于微力学的公式化
3. Multiscale analysis of the low-velocity impact behavior of ceramic nanoparticle-reinforced metal matrix nanocomposite beams by micromechanics and finite element approaches [J] . Rasoolpoor M., Ansari R., Hassanzadeh-Aghdam M. K. Proceedings of the institution of mechanical engineers . 2019,第12期

机译：用微力学和有限元方法多尺度分析陶瓷纳米颗粒增强金属基纳米复合材料梁的低速冲击行为
4. MICROMECHANICAL EVOLUTIONARY ELASTOPLASTIC DAMAGE MODEL FOR FIBER-REINFORCED METAL MATRIX COMPOSITES WITH FIBER DEBONDING [C] . J.W. Ju, H.N. Ruan, Y.F. Ko AMD-vol.255; American Society of Mechanical Engineers(ASME) International Mechanical Engineering Congress and Exposition; 20041113-19; Anaheim,CA(US) . 2004

机译：纤维去金属纤维增强金属基复合材料的细观演化弹塑性损伤模型
5. Micromechanics and overall elastoplasticity of discontinuously reinforced metal-matrix composites. [D] . Sun, Lizhi. 1998

机译：非连续增强金属基复合材料的微力学和整体弹塑性。
6. Analytical Micromechanics Models for Elastoplastic Behavior of Long Fibrous Composites: A Critical Review and Comparative Study [O] . Yanchao Wang, ZhengMing Huang 2018

机译：长纤维复合材料弹塑性行为的分析微力学模型：一项重要的评论和比较研究。
7. A micromechanical model of influence of particle fracture and particle cluster on mechanical properties of metal matrix composites [O] . G.K. Hu, G. Guo, D. Baptiste 1998

机译：颗粒骨折和颗粒颗粒对金属基复合材料力学性能影响的微机械模型
8. Micromechanical Modeling of the Fiber/Matrix Interface Region in a Metal Matrix Composite. [R] . Robertson, D. D. 1990

机译：金属基复合材料中纤维/基体界面区域的微观力学建模。

Elastoplastic micromechanics model for multiscale analysis of metal matrix composite structures

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