Effect of bagasse content on low frequency acoustic performance of soy oil-based biodegradable foams filled with bagasse and regulation mechanism analysis

Reducing noise by using sound absorption materials is an important approach to lessen the harm of noise pollution. Controlling acoustic performance and analyzing the mechanism of the flexible polyurethane biofoams derived from vegetable oil polyol and filled with agricultural and forestry wastes can provide theoretical guidance in designing the biodegradable energy-saving sound absorbing materials. A series of biofoams were synthesized by using soy oil-based polyol instead of 50 wt% petroleum-based polyol with different content of natural resource bagasse as fillers. The material is characterized by scanning electron microscopy, Fourier transform infrared spectroscopy, thermogravimetric analysis to study the morphology, chemical interaction between constituent phases and thermal stability respectively. The effects of bagasse on morphology, mechanical properties, thermal properties, sound absorption coefficient and degradability of biofoams were investigated. Natural resource bagasse can improve the sound absorption coefficient at low frequency region by changing the cell size, opening ratio and cell wall structure of biofoams. The study confirms that it is possible to control and enhance the acoustic performance of the biofoams by adjusting bagasse content for sound absorption materials.

Automated summary

The study demonstrates that using natural resource bagasse can improve the acoustic performance of biofoams, and by adjusting the filler content, the acoustic effects of sound absorbing materials can be controlled and enhanced.