Design of experiments investigation into the production of all cellulose composites using regenerated cellulosic textiles

IF 8.1 2区材料科学 Q1 ENGINEERING, MANUFACTURING Composites Part A: Applied Science and Manufacturing Pub Date : 2024-10-06 DOI:10.1016/j.compositesa.2024.108510

Ashley Victoria , Peter John Hine , Keeran Ward , Michael Edward Ries

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Abstract

All cellulose composites (ACCs) can be produced from native and man-made cellulosic fibres; use of the latter provides an additional application for waste-derived regenerated fibers. ACCs were prepared using an ionic liquid dissolution method, utilizing a regenerated cellulose (Tencel) textile, with and without an interleaf cellulosic film. A design of experiments methodology was applied to explore process-property relationships; concentration of the ionic liquid and the processing time and temperature were investigated. It was found that the film remained in-between the textile layers, rather than penetrating the fiber assembly, in contrast to our previous work on cotton-based ACCs. This is due to the structural differences between Tencel and cotton fabric. A multi-response optimization was conducted through a central composite face centered strategy, which captured the film system more strongly. Optimized processing conditions were identified, yielding a Young’s modulus and strain-to-failure of 5.3 GPa and 3.5% respectively, validated through in-lab samples.

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利用再生纤维素纺织品生产全纤维素复合材料的实验设计研究

所有纤维素复合材料（ACCs）均可由原生纤维素纤维和人造纤维素纤维制成；后者为废物再生纤维提供了额外的应用。我们采用离子液体溶解法，利用再生纤维素（天丝）纺织品，在有和没有纤维素中间膜的情况下制备了 ACC。实验设计方法用于探究工艺与性能之间的关系；离子液体的浓度以及加工时间和温度都在研究之列。结果发现，薄膜停留在纺织层之间，而不是渗透到纤维组件中，这与我们之前对棉基 ACC 的研究结果截然不同。这是由于天丝和棉织物之间的结构差异造成的。我们通过以中心复合面为中心的策略进行了多响应优化，从而更有力地捕捉到薄膜系统。确定了优化的加工条件，得出的杨氏模量和破坏应变分别为 5.3 GPa 和 3.5%，并通过实验室样品进行了验证。

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来源期刊

Composites Part A: Applied Science and Manufacturing 工程技术-材料科学：复合

CiteScore

15.20

自引率

5.70%

发文量

492

审稿时长

30 days

期刊介绍： Composites Part A: Applied Science and Manufacturing is a comprehensive journal that publishes original research papers, review articles, case studies, short communications, and letters covering various aspects of composite materials science and technology. This includes fibrous and particulate reinforcements in polymeric, metallic, and ceramic matrices, as well as 'natural' composites like wood and biological materials. The journal addresses topics such as properties, design, and manufacture of reinforcing fibers and particles, novel architectures and concepts, multifunctional composites, advancements in fabrication and processing, manufacturing science, process modeling, experimental mechanics, microstructural characterization, interfaces, prediction and measurement of mechanical, physical, and chemical behavior, and performance in service. Additionally, articles on economic and commercial aspects, design, and case studies are welcomed. All submissions undergo rigorous peer review to ensure they contribute significantly and innovatively, maintaining high standards for content and presentation. The editorial team aims to expedite the review process for prompt publication.