Manufacturing Scalable Carbon Nanotube–Silicone/Kevlar Fabrics

Author:

Giri Prakash1ORCID,Kondapalli Vamsi Krishna Reddy1ORCID,Joseph Kavitha Mulackampilly1,Shanov Vesselin12ORCID,Schulz Mark1

Affiliation:

1. Department of Mechanical and Materials Engineering, University of Cincinnati, Cincinnati, OH 45221, USA

2. Department of Chemical and Environmental Engineering, University of Cincinnati, Cincinnati, OH 45221, USA

Abstract

Carbon nanotube (CNT) hybrid composites were formed by combining a CNT and silicone elastomer solution with Kevlar yarn, Kevlar fabric, and Kevlar veil materials. The integration of a CNT-silicone matrix with Kevlar yarn and fabric materials produced a composite with moderate electrical and thermal conductivity due to CNT fabric combined with the strength of Kevlar fabric or yarn. In the material synthesis, a notable difficulty was that the CNT-silicone did not bond strongly to the Kevlar. The composites passed the Vertical Flame Test ASTM D6413 and the Forced Air Oven Test NFPA 1971. These hybrid composites can have multiple applications in areas requiring favorable conductivity, strength, and flame and heat resistance. The application areas include firefighter apparel, military equipment, conductive/smart structures, and flexible electronics. The synthesis process used to manufacture CNT-silicone/Kevlar composites yielded composite sheets with an area of 2250 cm2. The process is scalable and customizable for the synthesis of CNT composites with tailored properties. Improvements in the bonding of CNT-silicone to Kevlar are being investigated.

Funder

National Institute for Occupational Safety and Health through the Pilot Research Project Training Program of the University of Cincinnati Education and Research Center

Ohio Workplace Safety Innovation Center

Publisher

MDPI AG

Subject

General Materials Science,General Chemical Engineering

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