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Authors Breuer, K. ; Spickenheuer, A. ; Stommel, M.
Title Statistical analysis of mechanical stressing in short fiber reinforced composites by means of statistical and representative volume elements
Date 11.06.2021
Number 59464
Abstract Analyzing representative volume elements with the finite element method is one method to calculate the local stress at the microscale of short fiber reinforced plastics. It can be shown with Monte-Carlo simulations that the stress distribution depends on the local arrangement of the fibers and is therefore unique for each fiber constellation. In this contribution the stress distribution and the effective composite properties are examined as a function of the considered volume of the representative volume elements. Moreover, the influence of locally varying fiber volume fraction is examined, using statistical volume elements. The results show that the average stress probability distribution is independent of the number of fibers and independent of local fluctuation of the fiber volume fraction. Furthermore, it is derived from the stress distributions that the statistical deviation of the effective composite properties should not be neglected in the case of injection molded components. A finite element analysis indicates that the macroscopic stresses and strains on component level are significantly influenced by local, statistical fluctuation of the composite properties.
Journal Fibers
Wikidata
Citation Fibers 9 (2021) 32
DOI https://doi.org/10.3390/FIB9050032

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