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Materiale Plastice
https://doi.org/10.37358/Mat.Plast.1964

Impact factor: 1.393

OSIM Nr. R102356
ISSN 2668-8220 (online)
ISSN-L 0025-5289
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* IF 2018-19: 1.393
* 5-Year IF: 1.17
* CiteScore: 1.29
* SNIP: 0.798
* SJR: 0.409
* H-Index: 19
* Self-Citation Ratio: 36.61 %
* IF Quartile: Q2
* Cited Articles: 50%
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Materiale Plastice, Volume 43, Issue 1, pp. (2006)




Experimental Validation of a Theoretical Model Used for Analysis of the Laminate Composite Structures


Abstract:
In the paper, a stress strain analysis in the area of central ligament of a cruciform glass-epoxy specimen is presented. Investigation was done experimentally, using strain gauges technique, by application of six gauges in the stress concentration area. The validation of a theoretical model (a special type of a finite element), which was created by authors for analysis of the laminate composite structures, was the aim of this study. A good agreement between numerical calculus and experimental results was observed. Keywords: experimental validation, finite element method, epoxy resin, lamina, cruciform specimen, strain gauges technique



Issue: 2006 Volume 43, Number 1
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