Prediction by a Genetic Algorithm of the Fiber–Matrix Interface Damage for Composite Material. Part 2. Study of Shear Damage in Graphite/Epoxy Nanocomposites

被引：0

作者：

A. Mokaddem

M. Alami

N. Ziani

N. Beldjoudi

A. Boutaous

机构：

[1] Houari Boumediene University of Science and Technology,

[2] USTHB,undefined

[3] Mohamed Boudiaf University of Science and Technology of Oran,undefined

[4] USTO,undefined

来源：

Strength of Materials | 2014年 / 46卷

关键词：

shear damage; interface; fiber; matrix; genetic algorithm; nanocomposites;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The objective in this paper is to apply the same genetic model as applied in Part 1 to optimizing the shear damage to the fiber–matrix interface of nanocomposite material graphite epoxy. The results show good agreement between the numerical simulation and the actual behavior of the chosen composite and nanocomposite materials, and these results are similar to those obtained by processing techniques of expanded graphite reinforced polymer nanocomposites made by Asma Yasmine. These results were confirmed by calculating the rate of damage with a genetic simulation.

引用

页码：548 / 552

页数：4

共 20 条

[1] Prediction by a Genetic Algorithm of the Fiber-Matrix Interface Damage for Composite Material. Part 2. Study of Shear Damage in Graphite/Epoxy Nanocomposites
Mokaddem, A.
Alami, M.
Ziani, N.
Beldjoudi, N.
Boutaous, A.
STRENGTH OF MATERIALS, 2014, 46 (04) : 548 - 552
[2] Prediction by a Genetic Algorithm of the Fiber–Matrix Interface Damage for Composite Material. Part 1. Study of Shear Damage in Two Composites T300/914 and PEEK/APC2
A. Mokaddem
M. Alami
B. Doumi
A. Boutaous
Strength of Materials, 2014, 46 : 543 - 547
[3] Prediction by a Genetic Algorithm of the Fiber-Matrix Interface Damage for Composite Material. Part 1. Study of Shear Damage in Two Composites T300/914 and PEEK/APC2
Mokaddem, A.
Alami, M.
Doumi, B.
Boutaous, A.
STRENGTH OF MATERIALS, 2014, 46 (04) : 543 - 547
[4] A study by a genetic algorithm for optimizing the arrangement of the fibers on the damage to the fiber-matrix interface of a composite material
Allel, Mokaddem
Mohamed, Alami
Ahmed, Boutaous
JOURNAL OF THE TEXTILE INSTITUTE, 2012, 103 (12) : 1376 - 1382
[5] Investigation by a genetic algorithm of the effect of moisture diffusion on the fiber matrix interface damage of graphite/epoxy nanocomposite
Alami, Mohamed
Mokaddem, Allel
Doumic, Bendouma
Beldjoudi, Nadir
Boutaous, Ahmed
Recent Patents on Materials Science, 2015, 8 (03) : 253 - 259
[6] PREDICTION, BY A GENETIC ALGORITHM, OF THE EFFECT OF HEAT STRESS ON THE TRANSVERSE DAMAGE OF FIBER-MATRIX INTERFACE OF HYBRID COMPOSITE MATERIAL (GLASS-CARBON/EPOXY)
Morsli, M.
Mokaddem, A.
Doumi, B.
Temimi, L.
Boutaous, A.
Beldjoudi, N.
COMPOSITES-MECHANICS COMPUTATIONS APPLICATIONS, 2016, 7 (01): : 31 - 43
[7] Study of the Effect of Water Intake by the Matrix on the Optimization of the Fiber Matrix Interface Damage for a Composite Material by Genetic Algorithms
Lahouari, H. Temimi
Allel, M.
Belkaid, N.
Boutaous, A.
Bouamrane, R.
STRENGTH OF MATERIALS, 2013, 45 (06) : 739 - 757
[8] Study of the Effect of Water Intake by the Matrix on the Optimization of the Fiber Matrix Interface Damage for a Composite Material by Genetic Algorithms
H. Temimi Lahouari
M. Allel
N. Belkaid
A. Boutaous
R. Bouamrane
Strength of Materials, 2013, 45 : 739 - 747
[9] Erratum to: Study of the Effect of Water Intake by the Matrix on the Optimization of the Fiber Matrix Interface Damage for a Composite Material by Genetic Algorithms
L. Temimi
A. Mokkadem
N. Belkad
A. Boutaus
R. Bouamrane
Strength of Materials, 2014, 46 : 157 - 157
[10] Study of the Effect of Water Intake by the Matrix on the Optimization of the Fiber Matrix Interface Damage for a Composite Material by Genetic Algorithms (vol 45, pg 739, 2013)
Temimi, L.
Mokkadem, A.
Belkad, N.
Boutaus, A.
Bouamrane, R.
STRENGTH OF MATERIALS, 2014, 46 (01) : 157 - 157

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