Viscose beats synthetics for absorbent incontinence fabrics
Researchers have identified the ideal fabric blend for reusable incontinence products: viscose outperforms polyester and polyamide across absorption and liquid retention metrics. The findings offer manufacturers a concrete formula for optimizing garment performance and durability—a key advantage as healthcare systems and consumers shift toward sustainable, washable alternatives to single-use products.
Originaltitel: Evaluating the influence of material selection and textile structure on liquid absorption and retention capacity in fabrics aiming for incontinence applications
<p>This study investigates the impact of fiber composition and fabric structure on the liquid absorption and retention performance during pressure of weft-knitted fabrics designed for reusable incontinence products. Twelve fabric samples, made from polyester, polyamide (6.6), and viscose, were knitted in two structures—1 × 1 interlock and 1 × 1 rib—with varying stitch lengths. Key parameters such as porosity, air permeability, liquid absorption capacity (LAC), and retention capacity during pressure (RCDP) were measured and analyzed. Results showed that viscose fabrics demonstrated superior LAC (up to 312%) and RCDP due to their high hydrophilicity, fiber swelling, and porosity. Polyester and polyamide had lower LAC, with polyester performing better due to higher porosity despite its hydrophobic nature. Increasing stitch length reduced fabric density and increased porosity and air permeability, thereby enhancing LAC but decreasing RCDP. Rib structures consistently exhibited higher LAC, while interlock structures offered better RCDP due to smaller, more uniform pores. The findings highlight the importance of optimizing the porous structure by altering knitting parameters and fabric structure to develop reusable absorbent textiles that balance high absorption and retention capacity during pressure.</p>