Micromechanical finite element predictions of a reduced coefficient of thermal expansion for 3D periodic architectured interpenetrating phase composites

Abueidda Diab W.; Dalaq Ahmed S.; Abu Al-Rub Rashid K.; Jasiuk Iwona

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Micromechanical finite element predictions of a reduced coefficient of thermal expansion for 3D periodic architectured interpenetrating phase composites

机译：3D周期结构互穿相复合材料热膨胀系数降低的微机械有限元预测

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In this paper, the effective coefficient of thermal expansion (CTE) of novel interpenetrating phase composites (IPCs) based on the mathematically-known triply periodic minimal surfaces (TPMS) is investigated. In these IPCs, different TPMS architectures are used as reinforcing solid sheets to produce composites with lower effective CTE. Several three-dimensional unit cells are generated and studied using the finite element method to estimate the effective CTE for various TPMS-based IPC architectures. The obtained results are compared with some analytical models and conventional composites. The proposed IPCs have shown promising results compared with the conventional composites. (C) 2015 Elsevier Ltd. All rights reserved.

机译：本文研究了基于数学上已知的三重周期最小表面（TPMS）的新型互穿相复合材料（IPC）的有效热膨胀系数（CTE）。在这些IPC中，不同的TPMS体系结构被用作增强固体板材，以生产具有较低有效CTE的复合材料。使用有限元方法生成并研究了多个三维单位单元，以估算各种基于TPMS的IPC体系结构的有效CTE。将获得的结果与一些分析模型和常规复合材料进行比较。与常规复合材料相比，拟议的IPC已显示出令人鼓舞的结果。（C）2015 Elsevier Ltd.保留所有权利。

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来源
《Composite Structures》 |2015年第12期|85-97|共13页
作者
Abueidda Diab W.; Dalaq Ahmed S.; Abu Al-Rub Rashid K.; Jasiuk Iwona;
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作者单位

Masdar Inst Sci & Technol, Inst Ctr Energy, Mech & Mat Engn Dept, Abu Dhabi, U Arab Emirates;

Masdar Inst Sci & Technol, Inst Ctr Energy, Mech & Mat Engn Dept, Abu Dhabi, U Arab Emirates;

Masdar Inst Sci & Technol, Inst Ctr Energy, Mech & Mat Engn Dept, Abu Dhabi, U Arab Emirates;

Univ Illinois, Dept Mech Sci & Engn, Urbana, IL 61801 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
3-Dimensional reinforcement; Architectured composites; Coefficient of thermal expansion; Finite element analysis; Unit cell approach; Multifunctional materials;

机译：三维加固;结构复合材料;热膨胀系数;有限元分析;单元格方法;多功能材料;

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1. Finite element predictions of effective multifunctional properties of interpenetrating phase composites with novel triply periodic solid shell architectured reinforcements [J] . Abueidda Diab W., Dalaq Ahmed S., Abu Al-Rub Rashid K., International Journal of Mechanical Sciences . 2015,第Null期

机译：具有新型三重周期固体壳结构增强材料的互穿相复合材料有效多功能性能的有限元预测
2. Finite element prediction of effective elastic properties of interpenetrating phase composites with architectured 3D sheet reinforcements [J] . Dalaq Ahmed S., Abueidda Diab W., Abu Al-Rub Rashid K., International Journal of Solids and Structures . 2016,第Null期

机译：具有结构化3D板增强材料的互穿相复合材料有效弹性特性的有限元预测
3. Thermal expansion behavior of Ni-Al_2O_3 composites with particulate and interpenetrating phase structures: An analysis using finite element method [J] . Neeraj Kumar Sharma, R.K. Misra, Satpal Sharma Computational Materials Science . 2014,第Null期

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4. EFFECT OF PHASE ARCHITECTURE ON THE THERMAL EXPANSION BEHAVIOR OF INTERPENETRATING METAL/CERAMIC COMPOSITES [C] . Siddhartha Roy, Pascal Albrecht, Lars Przybilla, International symposia on processing and properties of advanced ceramics and composites . 2013

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5. A micromechanics model of thermal expansion coefficient in fiber reinforced composites. [D] . Srisuk, Nittapon. 2010

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7. Development of Nickel Alloy Reinforced with Fused SiO2 Chilled Composites and Evaluation of Thermal Properties (Thermal Conductivity amp; Coefficient of Thermal Expansion) and Temperature Distribution by Finite Element Analysis (FEA) [O] . Joel Hemanth 2017

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Micromechanical finite element predictions of a reduced coefficient of thermal expansion for 3D periodic architectured interpenetrating phase composites

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