Assessment of eggshell-based material as a green-composite filler: Project milestones and future potential as an engineering material

IF 1.7 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of the Mechanical Behavior of Materials Pub Date : 2023-01-01 DOI:10.1515/jmbm-2022-0269

S. Sunardi, D. Ariawan, E. Surojo, A. Prabowo, H. Akbar, Bo Cao, H. Carvalho

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引用次数: 3

Abstract

Abstract The utilization of eggshell (ES) waste as a composite filler has increased significantly in the last 5 years. This increase in usage took place due to its unique characteristics, which improve the properties of the resulting composite. Adding a weight fraction of ES particles into a composite can improve its mechanical properties, although not all studies have shown this phenomenon. Studies on these composites’ thermal and tribological properties are still limited, so more in-depth studies could be carried out. The degradation of composite performance due to friction or exposure to humidity and hot temperature is another area that is worthy of further study. In this work, we discuss changes in composites’ mechanical, thermal, and tribological properties associated with the addition of ES particles, examining both untreated particles and those treated with carbonation. This work can serve as a guide for the utilization of ES particles as an environmentally friendly composite material.

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蛋壳基材料作为绿色复合填料的评估：项目里程碑和作为工程材料的未来潜力

摘要蛋壳废弃物作为复合填料的利用率在过去5年中显著提高。使用量的增加是由于其独特的特性，从而提高了所得复合材料的性能。在复合材料中添加一定重量分数的ES颗粒可以改善其机械性能，尽管并非所有研究都表明了这种现象。对这些复合材料的热性能和摩擦学性能的研究仍然有限，因此可以进行更深入的研究。复合材料性能因摩擦或暴露在潮湿和高温下而退化是另一个值得进一步研究的领域。在这项工作中，我们讨论了与添加ES颗粒相关的复合材料的机械、热和摩擦学性能的变化，检查了未处理的颗粒和碳酸化处理的颗粒。这项工作可以为ES颗粒作为一种环境友好的复合材料的利用提供指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of the Mechanical Behavior of Materials Materials Science-Materials Science (miscellaneous)

CiteScore

3.00

自引率

11.10%

发文量

审稿时长

30 weeks

期刊介绍： The journal focuses on the micromechanics and nanomechanics of materials, the relationship between structure and mechanical properties, material instabilities and fracture, as well as size effects and length/time scale transitions. Articles on cutting edge theory, simulations and experiments – used as tools for revealing novel material properties and designing new devices for structural, thermo-chemo-mechanical, and opto-electro-mechanical applications – are encouraged. Synthesis/processing and related traditional mechanics/materials science themes are not within the scope of JMBM. The Editorial Board also organizes topical issues on emerging areas by invitation. Topics Metals and Alloys Ceramics and Glasses Soils and Geomaterials Concrete and Cementitious Materials Polymers and Composites Wood and Paper Elastomers and Biomaterials Liquid Crystals and Suspensions Electromagnetic and Optoelectronic Materials High-energy Density Storage Materials Monument Restoration and Cultural Heritage Preservation Materials Nanomaterials Complex and Emerging Materials.