气凝胶/硅灰固化方式对水泥基砂浆性能的影响

IF 1.4 4区工程技术

Revista de la Construccion Pub Date : 2022-01-01 DOI:10.7764/rdlc.21.2.368

Ozlem Uatundag, Ozlem Celik Sola

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引用次数: 1

摘要

研究了含气凝胶和硅灰砂浆在不同养护条件下的力学性能、热性能和孔隙率。为此，在水泥混合物中加入按重量计为0%、0.25%和0.50%的硅气凝胶作为水泥添加剂和10%的硅灰作为工业废料。制备的砂浆试样在水中进行了16周的养护过程、干湿效应和MgSO4效应。当气凝胶含量为0.25%时，加入硅灰的水固化样品的导热系数降低了31.2%。采用干湿固化法，测定了添加气凝胶含量为0.50%的硅灰试样的最大抗压强度为74.5 MPa，未添加气凝胶的硅灰试样的最大抗压强度为11.3 MPa。当硅灰气凝胶含量为0.25%时，样品的导热系数最低，为1.458 W/mK，在MgSO4的影响下完成了固化过程，抗压强度最高提高了24.6%。

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Effect of aerogel/silica fume under curing methods on properties of cement-based mortars

In this study, the mechanical, thermal and porosity properties of mortar samples containing aerogel and silica fume under different curing conditions were investigated. For this purpose, 0%, 0.25% and 0.50% by weight of silica aerogel as a cement additive and 10% silica fume as an industrial waste material were incorporated in the cement mixtures. The prepared mortar samples were exposed to curing process in water, the wetting-drying effect and MgSO4 effect for 16 weeks. The highest thermal conductivity reduction of 31.2% was obtained from the water curing sample with silica fume addition at an aerogel content of 0.25%. Maximum compressive and flexural strengths were determined respectively from samples with silica fume addition at an aerogel content 0.50% as 74.5 MPa and no aerogel content as 11.3 MPa by wetting-drying curing. However, the lowest thermal conductivity coefficient was measured as 1.458 W/mK from the sample at an 0.25% aerogel content containing silica fume which completed the curing process under the influence of MgSO4 with a highest compressive strength increase by 24.6%.

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来源期刊

Revista de la Construccion 工程技术-工程：土木

CiteScore

2.30

自引率

21.40%

发文量

期刊介绍： The Journal of Construction is aimed at professionals, constructors, academics, researchers, companies, architects, engineers, and anyone who wishes to expand and update their knowledge about construction. We therefore invite all researchers, academics, and professionals to send their contributions for assessment and possible publication in this journal. The publications are free of publication charges. OBJECTIVES The objectives of the Journal of Construction are: 1. To disseminate new knowledge in all areas related to construction (Building, Civil Works, Materials, Business, Education, etc.). 2. To provide professionals in the area with material for discussion to refresh and update their knowledge. 3. To disseminate new applied technologies in construction nationally and internationally. 4. To provide national and foreign academics with an internationally endorsed medium in which to share their knowledge and debate the topics raised.