Correlation of gas penetration and permeation to the structural performance of gas-assisted injection-molded parts

The correlation of insufficient gas penetration and gas permeation to structural performance in gas-assisted injection-molded polystyrene parts, designed with gas channels having five different types of cross sections but with the same section area, was investigated via tensile experiments and bending tests. Test results were also compared with those of standard injection-molded parts. Based on the measured results, it was found that for specimens with insufficient gas penetration, under tensile test and bending test the breaking region occurred in the neighborhood of the gas front tip near the gas entrance. This indicates that the effect of the hollow core developed by the gas, resulting in reduction of the cross-sectional area, is larger than the effect of stress concentration or residual stress at the gas front tip. In tensile tests, it is evident that gas permeation and insufficient gas penetration show significant influence on the tensile properties of parts, lowering the ultimate tensile strength. Moreover, in bending tests, the stress concentration or residual stress occurring at the gas front tip of insufficient gas penetration and the surrounding area of gas permeation shows less significant influence on part