The influence of contact pressure, moisture, and compression time on the performance of cotton anti-contamination clothing
Abstract
The objectives of this research were (1) to study the effect of contact pressure, compression time, and liquid (moisture content of the fabric) on the transfer by sliding contact of non-fixed surface contamination to protective clothing constructed from uncoated, woven fabrics, (2) to study the effect of contact pressure, compression time, and liquid content on the subsequent penetration through the fabric, and (3) to determine if varying the type of contaminant changes the effect of contact pressure, compression time, and liquid content on the transfer by sliding contact and penetration of non-fixed surface contamination. It was found that the combined influence of the liquid (moisture content of the fabric), load (contact pressure), compression time, and their interactions significantly influenced the penetration of all three test agents, sucrose- 14C, triolein-3H, and starch-14C through 100% cotton fabric. The combined influence of the statistically significant main effects and their interactions increased the penetration of triolein- 3H by 32,548%, sucrose-14C by 7,006%, and starch- 14C by 1,900%.
Subject Area
Occupational safety|Textile research|Public health
Recommended Citation
Sheffield, Kevin Jay, "The influence of contact pressure, moisture, and compression time on the performance of cotton anti-contamination clothing" (2005). Texas Medical Center Dissertations (via ProQuest). AAI3180793.
https://digitalcommons.library.tmc.edu/dissertations/AAI3180793