Reinforcing Techniques and Property Evaluations of Electromagnetic Shielding Effective Fabrics Based on Polypropylene-coated Carbon Fibers

In this study, the coating process is employed on metal wire to help improve the friction resistant property of carbon fibers, thereby provides more application feasibility. The yarn coating technique for reinforcement and woven fabric process are used to produce carbon/stainless steel/polyester/polypropylene/acrylic (CSPPA) woven fabrics that are characterized with softness and a light weight. The constituent coated yarns exhibit good conductivity after being coated with a PP layer, and likewise strengthen the woven fabrics in terms of mechanical behavior of tensile strength, elongation, bending torsion, creep resistance, and wear-resistant properties. The test results indicate that in the woven process, samples retain good morphology. Due to PP sheath, the tensile strength of woven fabrics increases from 23 MPa to 42 MPa. Although the lamination layer numbers does not improve the EMI SE of woven fabrics, the EMI SE still reaches over 40 dB. The manufacturing design proposed in this study provides an innovative finishing for carbon fibers without affecting the intrinsic properties, and provides a greater range of application for carbon fibers.