Abstract
Abstract
PU foams are widely used in the automobile industry for their lightweight properties, and as sound-absorbing and seat cushioning materials. The effects of additives on the sound absorption properties of PU composite foams were investigated. PU foams containing 3 wt% melamine particles showed excellent sound absorption properties. However, when the filler content exceeded 3 wt%, particle agglomeration occurred, leading to reduced sound absorption properties. A dispersant was added during the fabrication process to improve the interfacial compatibility between the PU matrix and melamine particles, resulting in a well-developed cavity and pore structure. The sound absorption characteristics of the PU composite foams were significantly improved in the frequency range below 2000 Hz. Our study highlights the importance of adjusting the concentration of additives and optimizing the cavity and pore structure of the material for achieving better sound absorption properties in PU composite foams.
Publisher
Research Square Platform LLC