以稻壳灰为添加剂的钠-石灰-硅玻璃对其硬度性能影响的评价

Q2 Materials Science

Engineering Solid Mechanics Pub Date : 2022-01-01 DOI:10.5267/j.esm.2022.2.004

M. S. Alazemi, M. Ariffin, M. N. Abdullah, E. Supeni, F. Aziz

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引用次数: 0

摘要

对环保材料的需求每年都在增加，因为它们具有优异的性能，这已被证明有助于发展可持续的环境。稻壳是生产玻璃最有前途的原料之一，稻壳是稻谷收获的废料，含有约90%的二氧化硅。稻壳通常在露天焚烧，造成严重的空气污染问题。本研究开发了钠钙硅酸盐玻璃(SLS)与稻壳灰(RHA)的新型复合材料——钠钙硅稻壳灰玻璃(SLRHA)，用于建筑玻璃和窗户玻璃。本文介绍了研制的SLS-RHA玻璃体系的硬度特性。研究了RHA的加入对SLS玻璃物理性能的影响。利用RSM进行的实验工作成功地识别了显著影响因素并优化了响应。洛氏硬度测试结果表明，玻璃样品的SLS含量为29.84%，RHA含量为0.06%。结果表明，随着RHA添加量的增加，裂纹扩展速度加快，由于RHA添加量的增加，裂纹和孔洞数量增加。

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Evaluation of the effects of soda-lime-silica glass with rice husk ash as an additive on the hardness behavior

Demand for eco-friendly materials increases each year due to their excellent properties, which has proved to contribute to developing a sustainable environment. One of the promising raw materials in producing Glass is rice husk, a waste product from paddy harvesting, containing about 90% of silica. Rice husks are usually burnt in an open area and contribute to severe air pollution problems. In this research, Soda-Lime-Silica Rice Husk Ash (SLRHA) glass which is a new combination of soda-lime silicate (SLS) glass and rice husk ash (RHA), was developed for building glass and window application. The hardness properties of the developed SLS-RHA glass system are presented in this paper. These glasses were investigated to determine the effect of RHA addition on the physical properties of SLS glass. The experimental works using RSM have successfully identified the significant factors and optimized the responses. Based on the Rockwell hardness test, the outcomes demonstrated that the glass sample contained 29.84% weight SLS and 0.06% weight RHA. The result indicated that crack propagation was increased with the increasing addition of RHA, which causes an increase in cracks and voids due to the creation of more debonding.

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来源期刊

Engineering Solid Mechanics Materials Science-Metals and Alloys

CiteScore

3.00

自引率

0.00%

发文量

期刊介绍： Engineering Solid Mechanics (ESM) is an online international journal for publishing high quality peer reviewed papers in the field of theoretical and applied solid mechanics. The primary focus is to exchange ideas about investigating behavior and properties of engineering materials (such as metals, composites, ceramics, polymers, FGMs, rocks and concretes, asphalt mixtures, bio and nano materials) and their mechanical characterization (including strength and deformation behavior, fatigue and fracture, stress measurements, etc.) through experimental, theoretical and numerical research studies. Researchers and practitioners (from deferent areas such as mechanical and manufacturing, aerospace, railway, bio-mechanics, civil and mining, materials and metallurgy, oil, gas and petroleum industries, pipeline, marine and offshore sectors) are encouraged to submit their original, unpublished contributions.