Affiliation:
1. School of Mechanical Engineering Suzhou University of Science and Technology Suzhou 215009 China
Abstract
AbstractDeveloping Janus fabrics with excellent one‐way sweat transport capacity is an attractive way for providing comfort sensation and protecting the health during exercise. In this work, a 3D wetting gradient Janus fabric (3DWGJF) is first proposed to address the issue of excessive sweat accumulation in women's breasts, followed by integration with a sponge pad to form a 3D wetting gradient Janus sports bra (3DWGJSB). The 3D wetting gradient enables the prepared fabric to control the horizontal migration of sweat in one‐way mode (x/y directions) and then unidirectionally penetrate downward (z direction), finally keeping the water content on the inner side of 3DWGJF (skin side) at ≈0%. In addition, the prepared 3DWGJF has good water vapor transmittance rate (WVTR: 0.0409 g cm−2 h−1) and an excellent water evaporation rate (0.4704 g h−1). Due to the high adhesion of transfer prints to the fabrics and their excellent mechanical properties, the 3DWGJF is remarkably durable and capable of withstanding over 500 laundering cycles and 400 abrasion cycles. This work may inspire the design and fabrication of next‐generation moisture management fabrics with an effective sweat‐removal function for women's health.
Funder
National Natural Science Foundation of China
Jiangsu Provincial Key Research and Development Program