Journal of the Society of Materials Science, Japan
Online ISSN : 1880-7488
Print ISSN : 0514-5163
ISSN-L : 0514-5163
Study on Mechanism of Decrease in Strength of GFRP Immersed in Weak Acid Solution by SAM
Shigenori AKAMATSUKenji SEOMasahiro KUSAKAYoshiki URAKAMITsuyoshi MAEDA
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1997 Volume 46 Issue 7 Pages 814-819

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Abstract

Glass fiber reinforced vinyl ester resins (GFRP) were immersed in weak acid solution (1% sulfuric acid water) at 40°C for various periods from 0 to 12 months. After drying at room temperature for one week, the tensile and the bending tests were carried out on them. The tensile strength of GFRP decreased slowly with increasing immersion time, and the bending strength was degraded rapidly with increasing immersion time in the early stage. From the test results, it was considered as follows:
(1) The decrease in strength of GFRP was due to the damage of glass fibers.
(2) The damage of glass fibers proceeded from the surface to the inside of GFRP.
In order to confirm this mechanism of decrease in strength, the inside of GFRP was observed nondestructively with a scanning acoustic microscope (SAM). From the observation results, it was confirmed that the damage of glass fibers was caused by corrosion by weak acid solution, and the corrosion of glass fibers was produced in GFRP. Therefore, the mechanism of decrease in strength of GFRP due to immersion in weak acid solution was clarified by this study.

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