Specimen Size and Environmental Exposure Effects on Initial Diffusion in E-Glass/Vinylester Pultruded Composites
Vistasp M. Karbhari

TL;DR
This study shows how specimen size and exposure conditions affect moisture uptake in E-glass/vinylester composites, impacting material durability predictions.
Contribution
The paper introduces a new understanding of how surface-to-edge area ratios influence moisture diffusion in composites under different environmental conditions.
Findings
Specimen size and exposure conditions significantly influence moisture uptake behavior.
Lower surface-to-edge area ratios increase uptake levels and diffusion coefficients.
Immersion leads to lower activation energy than 99% RH exposure for moisture uptake.
Abstract
This paper studies the effect of specimen size on the moisture uptake characteristics of pultruded E-glass/vinylester composites exposed to conditions of immersion and 99% RH over a range of temperatures. Four different specimen sizes representative of sizes commonly used for material characterization (tension, short-beam-shear, and dynamic mechanical thermal analysis) as well as moisture uptake are included. It is shown that both exposure conditions and geometry significantly influence uptake behavior, and that the differences, in general, can be elucidated through consideration of surface-to-edge area ratios of the specimens. For the current study, the ratio extends from 2.528 at the lowest level for the short-beam-shear specimens to 16.979 at the highest for the tensile specimens. The overall levels of uptake in the period of exposure, the levels of transition uptake, and the…
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Taxonomy
TopicsMechanical Behavior of Composites · Structural Analysis of Composite Materials · Textile materials and evaluations
