Optimization of wood-plastic composites by response surface method

IF 1.3 4区农林科学 Q2 MATERIALS SCIENCE, PAPER & WOOD

Bioresources Pub Date : 2024-07-16 DOI:10.15376/biores.19.3.5949-5960

Feng Ji

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Abstract

To improve the material properties of wood-plastic composite, poplar fiber and polyethylene powder were used as the main components, a hot-press experiment was conducted using response surface methodology, and the relationship between processing parameters (wood/plastic ratio, hot-press pressure, and time) and experimental result (internal bond strength and thickness swelling) were explored. According to the experimental results, the increasing wood/plastic ratio led to the lower internal bond strength and higher thickness swelling. However, with the increase of both hot-press pressure and time, internal bond strength increased first and then decreased, and thickness swelling decreased first and then increased. Meanwhile, two mathematical models were developed with high feasibility, and the significance of the influence of each term in the models was also analyzed. The models were able to predict and optimize internal bond strength and thickness swelling. Finally, optimal processing parameters were determined as wood/plastic ratio of 1.09, hot-press pressure of 198.38 MPa, and hot-press time of 8.31 s, with respect to the higher internal bond strength and the lower thickness swelling. This work hopes to provide scientific support for the industrial processing of wood-plastic composite.

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用响应面法优化木塑复合材料

为改善木塑复合材料的材料性能，以杨木纤维和聚乙烯粉末为主要成分，采用响应面法进行了热压实验，探讨了加工参数（木塑比、热压压力和时间）与实验结果（内结合强度和厚度膨胀）之间的关系。实验结果表明，木塑比增加会导致内结合强度降低和厚度膨胀增加。然而，随着热压压力和时间的增加，内结合强度先增大后减小，厚度膨胀先减小后增大。同时，还建立了两个可行性较高的数学模型，并分析了模型中各个项的影响意义。这些模型能够预测和优化内部结合强度和厚度膨胀。最后，确定了最佳加工参数为木材/塑料比 1.09、热压压力 198.38 兆帕、热压时间 8.31 秒，从而获得了较高的内结合强度和较低的厚度膨胀。这项工作希望能为木塑复合材料的工业加工提供科学支持。

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来源期刊

Bioresources 工程技术-材料科学：纸与木材

CiteScore

2.90

自引率

13.30%

发文量

397

审稿时长

2.3 months

期刊介绍： The purpose of BioResources is to promote scientific discourse and to foster scientific developments related to sustainable manufacture involving lignocellulosic or woody biomass resources, including wood and agricultural residues. BioResources will focus on advances in science and technology. Emphasis will be placed on bioproducts, bioenergy, papermaking technology, wood products, new manufacturing materials, composite structures, and chemicals derived from lignocellulosic biomass.