Связанные процессы деформирования и долговременной повреждаемости волокнистых материалов при температурных воздействиях

Связанные процессы деформирования и долговременной повреждаемости волокнистых материалов при температурных воздействиях

A theory of long-term damageability is built for the fibrous composite materials with allowance for of the temperature effect. The process of damage of the composite’s matrix is modeling by the arising the stochastically located micropores in the matrix. The criterion of fracture of the unit microvo...

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Bibliographic Details
Published in:Прикладная механика
Date:2011
Main Authors: Хорошун, Л.П., Шикула, Е.Н.
Format: Article
Language:Russian
Published: Інститут механіки ім. С.П. Тимошенка НАН України 2011
Online Access:https://nasplib.isofts.kiev.ua/handle/123456789/88001
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Journal Title:Digital Library of Periodicals of National Academy of Sciences of Ukraine
Cite this:Связанные процессы деформирования и долговременной повреждаемости волокнистых материалов при температурных воздействиях / Л.П. Хорошун, Е.Н. Шикула // Прикладная механика. — 2011. — Т. 47, № 1. — С. 62-72. — Бібліогр.: 13 назв. — рос.

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Digital Library of Periodicals of National Academy of Sciences of Ukraine
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Summary:A theory of long-term damageability is built for the fibrous composite materials with allowance for of the temperature effect. The process of damage of the composite’s matrix is modeling by the arising the stochastically located micropores in the matrix. The criterion of fracture of the unit microvolume is characterized by its long-term damageability, which is stipulated for dependence of the brittle fracture time on degree of closeness of equivalent stress to its limit value. For the arbitrary time, the equation of matrix damage balance (porosity) is formulated with allowance for a temperature component. An algorithm is constructed for evaluation of dependences of the matrix microdamage on time and the macrostresses on time. The corresponding curves are built. An effect of temperature on deformation and microdamage of material is studied.
ISSN:0032-8243

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