Pore structure and cushioning properties of waste paper pulp-reinforced starch-based foams

IF 1.8 4区材料科学 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY

Green Materials Pub Date : 2023-07-19 DOI:10.1680/jgrma.22.00110

Jinbao Zheng, Shan Gao, Chen Li

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引用次数: 0

Abstract

Foamed plastics do not readily degrade, but degradable starch foam has uneven pores and poor mechanical properties. To improve the cushioning performance of starch foams, a sustainable starch-based packaging cushioning material is prepared via microwave foaming using waste corrugated paper fibers as the reinforcement material. The effects of different fiber contents on the structure and cushioning properties of starch-based foams are studied, and the possibility of replacing petroleum-based foams is discussed through comparisons with conventional cushioning materials. The results indicate that the pore structure of starch-based foaming materials can be controlled by changing the fiber dosage, and a small or excessive amount of fiber is not conducive to the uniform foaming of starch-based composite foams. When 3 g of waste-paper fiber (17.6% by weight of the starch) is added, the average diameter of the starch-based foam pores is small, the pore size distribution is relatively uniform, the minimum buffer coefficient is 4.38, and the mechanical properties are closer to those of expanded polystyrene (EPS). A peak acceleration of 942.89 m/s2 is obtained from the packaging parts with starch-based foaming materials after drop testing, which reduced the impact load by nearly 50% compared to packaging without the cushioning liner. This has the potential to become a sustainable alternative to petroleum-based packaging foams.

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废纸纸浆增强淀粉基泡沫的孔隙结构和缓冲性能

泡沫塑料不易降解，但可降解淀粉泡沫孔隙不均匀，机械性能差。为提高淀粉泡沫的缓冲性能，以废瓦楞纸纤维为增强材料，采用微波发泡法制备了可持续的淀粉基包装缓冲材料。研究了不同纤维含量对淀粉基泡沫材料结构和缓冲性能的影响，并通过与传统缓冲材料的比较，探讨了取代石油基泡沫材料的可能性。结果表明，通过改变纤维用量可以控制淀粉基发泡材料的孔隙结构，纤维用量过少或过多都不利于淀粉基复合泡沫的均匀发泡。当废纸纤维(淀粉重量的17.6%)加入3 g时，淀粉基泡沫孔隙的平均直径较小，孔径分布相对均匀，最小缓冲系数为4.38，力学性能更接近膨胀聚苯乙烯(EPS)。采用淀粉基发泡材料的包装件经过跌落试验，最大加速度为942.89 m/s2，与不使用缓冲衬垫的包装件相比，冲击载荷降低了近50%。这有可能成为石油基包装泡沫的可持续替代品。

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来源期刊

Green Materials Environmental Science-Pollution

CiteScore

3.50

自引率

15.80%

发文量

期刊介绍： The focus of Green Materials relates to polymers and materials, with an emphasis on reducing the use of hazardous substances in the design, manufacture and application of products.