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Delayed Fracture of GFRP Laminates under Constant Tensile Load in Hydrochloric Acid
2011
Journal of Solid Mechanics and Materials Engineering
This paper aims to clarify the delayed fracture mechanism for glass fiber reinforced plastics (GFRP) in corrosive environments. The GFRP under study is composed of plain NCR-glass cloth and vinylester resin, which both possess high corrosion resistance. In this study, the experimental conditions were performed in air, deionized water, and hydrochloric acid at 40°C. Static tensile tests of woven GFRP were performed to evaluate the mechanical properties and determine the experimental conditions
doi:10.1299/jmmp.5.669
fatcat:yvdqydunnbcpnnql5fbavra77e