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Estudo da resist?ncia residual de comp?sitos polim?ricos de fibra de vidro-e e kevlar 49 ap?s sofrerem impacto de baixa velocidade

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Previous issue date: 2017-10-10 / As propriedades mec?nicas dos materiais comp?sitos, das mais diversas aplica??es industriais, podem ser reduzidas significativamente pela ocorr?ncia de impactos de baixas velocidades. Esses impactos podem provocar danos internos no material comprometendo sua integridade. Assim, o presente estudo tem como objetivo fazer uma an?lise experimental da resist?ncia residual ? flex?o em tr?s pontos e compress?o ap?s o impacto (CAI), de dois tipos de laminados comp?sitos de matriz polim?rica ortoft?lica, sendo um deles refor?ado a com 7 camadas de tecido bidirecional de Vidro E (CV) e o outro refor?ado com 7 camadas de tecido bidirecional de Kevlar 49 (CK), sujeitos a impactos de baixa velocidade. Esse estudo ? de grande import?ncia pelo fato de tentar conduzir ao aparecimento prematuro de instabilidade estrutural e a consequente restri??o do seu uso. A energia utilizada nesse trabalho para os dois tipos de laminados foi de aproximadamente 96J. Al?m disso, para o material comp?sito refor?ado com fibra de kevlar, foram feitos sucessivos impactos com a mesma energia verificando sua influ?ncia nas propriedades do laminado. Sendo aplicadas 5 vezes, e 10 vezes a energia m?xima de 96J. Como resultado verificou-se que no laminado CV, tanto as propriedades de compress?o como de flex?o em tr?s pontos, a resist?ncia se manteve praticamente inalterada enquanto que o m?dulo teve uma diminui??o depois do impacto. J? no laminado CK houve um decr?scimo tanto nas propriedades de compress?o como flex?o em tr?s pontos ap?s o impacto. Essa perda da integridade desses materiais pode ser justificada pela ocorr?ncia de delamina??o nas interfaces dos comp?sitos. / The mechanical properties of the composite materials, used in the most diverse industrial applications, can be significantly reduced by the occurrence of low speed impacts. These impacts can cause internal damage to the material and compromise its integrity. Thus, the present study aims to perform an experimental analysis of the residual resistance to three-point flexural test and compression after impact (CAI), in two types of composite laminates of orthophthalic polymeric matrix, being one of them reinforced with 7 layers of E-Glass bidirectional tissue (CV) and the other reinforced with 7 layers of Kevlar 49 bidirectional tissue (CK), subject to low speed impacts. This study is of great importance because it tries to lead to the premature appearance of structural instability and the consequent restriction of its use. The energy used in this work for the two types of laminates was approximately 96J. In addition, for the Kevlar fiber reinforced composite material, were made successive impacts with the same energy being checked its influence on the properties of the laminate, where it was tested with a repetition of 5 times and 10 times the maximum energy of 96J.As result, it was found that in the CV laminate, both in the compression properties and three-point flexural properties, the resistance remained practically unchanged while the modulus had a decrease after impact. In the CK laminate, there was a decrease both in compression properties and three-point flexural properties after impact. This integrity loss of these materials can be justified by the occurrence of delamination at the interfaces of the composites.

Identiferoai:union.ndltd.org:IBICT/oai:repositorio.ufrn.br:123456789/24937
Date10 October 2017
CreatorsAzev?do, Camilla de Medeiros Dantas
Contributors02306444498, Dias, Avelino Manuel da Silva, 82145008772, Ford, Elmo Thiago Lins Couras, 05237288405, Felipe, Renata Carla Tavares Santos, 52368700463, Amorim J?nior, Wanderley Ferreira de, 87244152434, Freire J?nior, Raimundo Carlos Silv?rio
PublisherPROGRAMA DE P?S-GRADUA??O EM ENGENHARIA MEC?NICA, UFRN, Brasil
Source SetsIBICT Brazilian ETDs
LanguagePortuguese
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/doctoralThesis
Sourcereponame:Repositório Institucional da UFRN, instname:Universidade Federal do Rio Grande do Norte, instacron:UFRN
Rightsinfo:eu-repo/semantics/openAccess

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