Enhancement of compressive strength of lightweight geopolymers

IF 1.4 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS Journal of Ceramic Processing Research Pub Date : 2019-10-01 DOI:10.36410/jcpr.2019.20.5.522
Yoo-Kyung Kim, Minjeong Kim
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Abstract

For recycling purposes, integrated gasification combined cycle (IGCC) slag and Si sludge were used as the basis for preparing lightweight panels with high compressive strength. The properties of the specimens were examined with the variation in the alkaline activator, addition of frames, addition of aluminum dihydrogen phosphate, particle-size separation of the IGCC slag, and variation in the specimen size by preparing large specimens with different W / S ratios and cutting the specimens at different positions. An optimum specimen with a low density and high compressive strength (8.1 MPa and 0.74 g cm − 3 , respectively) was acquired from larger specimens (300 × 300 × 100 m 3 ) having various densities and compressive strengths by controlling the W / S ratio and particle size of the IGCC slag. Therefore, it is expected that specimens with both, a low density and high compressive strength, can be obtained by developing and controlling the process factors during the production of lightweight geopolymers.
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轻质地聚合物抗压强度的提高
为了回收利用,使用整体煤气化联合循环(IGCC)炉渣和硅污泥作为制备具有高抗压强度的轻质面板的基础。通过制备具有不同W/S比的大试样并在不同位置切割试样,检验了试样的性能,包括碱性活化剂的变化、框架的添加、磷酸二氢铝的添加、IGCC炉渣的粒度分离以及试样尺寸的变化。通过控制IGCC炉渣的W/S比和粒度,从具有不同密度和抗压强度的较大试样(300×300×100 m3)中获得了低密度和高抗压强度(分别为8.1 MPa和0.74 g cm−3)的最佳试样。因此,在轻质地质聚合物的生产过程中,通过开发和控制工艺因素,可以获得低密度和高抗压强度的试样。
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来源期刊
Journal of Ceramic Processing Research
Journal of Ceramic Processing Research 工程技术-材料科学:硅酸盐
CiteScore
2.00
自引率
69.20%
发文量
0
审稿时长
8 months
期刊介绍: The JOURNAL OF CERAMIC PROCESSING RESEARCH aims to publish original research articles covering the influence of processing routes on the microstructure and properties of ceramics and ceramic-based materials. The journal is managed by Hanyang University Press and overseen by an in-house editorial team of professional editors for a rigorous peer-review process with rapid publication.
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