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Computer Research and Modeling, 2020, Volume 12, Issue 3, Pages 559–573
DOI: https://doi.org/10.20537/2076-7633-2020-12-3-559-573
(Mi crm802)
 

This article is cited in 3 scientific papers (total in 3 papers)

MODELS IN PHYSICS AND TECHNOLOGY

A modified model of the effect of stress concentration near a broken fiber on the tensile strength of high-strength composites (MLSS-6)

P. V. Mikheyeva, G. L. Goryninb, L. R. Borisovacd

a OOO “Aquifer”, 24 Sportivnaya st., Electrostal, 144000, Russia
b Surgut state University, 1 Lenin ave., Surgut, 628403, Russia
c Financial University under the Government of RF, 49 Leningradsky prosp., Moscow, 125993, Russia
d Moscow Institute of physics and technology, 9 Institutsky lane, Dolgprudny, Moscow region, 141700, Russia
References:
Abstract: The article proposes a model for assessing the potential strength of a composite material based on modern fibers with brittle fracture.
Materials consisting of parallel cylindrical fibers that are quasi-statically stretched in one direction are simulated. It is assumed that the sample is not less than 100 pieces, which corresponds to almost significant cases. It is known that the fibers have a distribution of ultimate deformation in the sample and are not destroyed at the same moment. Usually the distribution of their properties is described by the Weibull–Gnedenko statistical distribution. To simulate the strength of the composite, a model of fiber breaks accumulation is used. It is assumed that the fibers united by the polymer matrix are crushed to twice the inefficient length — the distance at which the stresses increase from the end of the broken fiber to the middle one. However, this model greatly overestimates the strength of composites with brittle fibers. For example, carbon and glass fibers are destroyed in this way.
In some cases, earlier attempts were made to take into account the stress concentration near the broken fiber (Hedgepest model, Ermolenko model, shear analysis), but such models either required a lot of initial data or did not coincide with the experiment. In addition, such models idealize the packing of fibers in the composite to the regular hexagonal packing.
The model combines the shear analysis approach to stress distribution near the destroyed fiber and the statistical approach of fiber strength based on the Weibull–Gnedenko distribution, while introducing a number of assumptions that simplify the calculation without loss of accuracy.
It is assumed that the stress concentration on the adjacent fiber increases the probability of its destruction in accordance with the Weibull distribution, and the number of such fibers with an increased probability of destruction is directly related to the number already destroyed before. All initial data can be obtained from simple experiments. It is shown that accounting for redistribution only for the nearest fibers gives an accurate forecast
This allowed a complete calculation of the strength of the composite. The experimental data obtained by us on carbon fibers, glass fibers and model composites based on them (CFRP, GFRP), confirm some of the conclusions of the model.
Keywords: carbon fibers, modulus of elasticity, tensile deformation, speed of sound.
Funding agency Grant number
Russian Foundation for Basic Research 18-47-860015/19
The work was supported by the RFBR in the framework of the scientific project No. 18-47-860015/2019.
Received: 04.12.2019
Revised: 07.03.2020
Accepted: 30.03.2020
Document Type: Article
UDC: 519.6
Language: Russian
Citation: P. V. Mikheyev, G. L. Gorynin, L. R. Borisova, “A modified model of the effect of stress concentration near a broken fiber on the tensile strength of high-strength composites (MLSS-6)”, Computer Research and Modeling, 12:3 (2020), 559–573
Citation in format AMSBIB
\Bibitem{MikGorBor20}
\by P.~V.~Mikheyev, G.~L.~Gorynin, L.~R.~Borisova
\paper A modified model of the effect of stress concentration near a broken fiber on the tensile strength of high-strength composites (MLSS-6)
\jour Computer Research and Modeling
\yr 2020
\vol 12
\issue 3
\pages 559--573
\mathnet{http://mi.mathnet.ru/crm802}
\crossref{https://doi.org/10.20537/2076-7633-2020-12-3-559-573}
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  • This publication is cited in the following 3 articles:
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
    Computer Research and Modeling
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