Fuente: Sustainability - Revista científica (MDPI) Sustainability, Vol. 18, Pages 3432: Preparation and Performance Study of Waste Straw-Based Composites for High-Value Resource Cycling
Sustainability doi: 10.3390/su18073432
Authors:
Shasha Jin
Yafei Fan
Yi Liu

To address the low utilization rate of straw and environmental pollution caused by traditional processing methods, this study developed a novel composite material based on straw for manufacturing outdoor furniture. Designed to achieve high-value recycling of agricultural waste and enhance the durability and sustainability of outdoor materials, the straw is treated with alkali and processed using an MDI curing system, with the addition of ZnO to enhance functional properties. Characterization of material properties was performed using contact angle measurements, UV-visible spectroscopy, and mechanical testing. The results indicate that a water contact angle of 93.51° was achieved for the composite material at a ZnO content of 6 wt.%, demonstrating excellent hydrophobicity. The introduction of ZnO reduced light absorption, indicating that the material exhibits superior stability in interior and exterior environments. The synergistic interaction between ZnO and straw fibers, along with the resulting active free radicals (·OH), endows this material with hydrophobic and UV-resistant properties. This composite material combines excellent mechanical strength with environmental friendliness, offering broad prospects in the field of sustainable outdoor furniture manufacturing.