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掺合料和水胶比对水泥基材料水化产物和力学性能的影响 被引量:32

Influence of admixture and water-cement ratio on hydration products and mechanical properties of cement-based materials
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摘要 掺合料和水胶比是影响混凝土性能发展的重要因素。该研究结合纯硅酸盐水泥和掺合料的水化反应机理,推导出复合水泥基材料的水化产物、理论最大掺量和孔隙率的计算公式,探究粉煤灰、钢渣和锂渣掺量对水化产物、孔隙率以及砂浆力学性能的影响,并推算出3种掺合料在混凝土中的理论最大掺量。结果表明:同掺量的粉煤灰、钢渣和锂渣掺入后,复合胶凝材料水化产物CH、CSH和总孔隙率较纯水泥砂浆要小;相比4种砂浆中水化产物而言,按水化产物CSH含量排序为水泥砂浆>水泥-锂渣砂浆>水泥-钢渣砂浆>水泥-粉煤灰砂浆;按总孔隙率大小排序为水泥-钢渣砂浆>水泥-粉煤灰砂浆>水泥-锂渣砂浆>水泥砂浆;按理论最大掺量值大小排序为粉煤灰>锂渣>钢渣。经砂浆力学性能测试发现:当掺量为20%时,水泥-锂渣砂浆后期的抗压强度优于纯水泥砂浆,若掺量再增加时,水泥-粉煤灰砂浆、水泥-锂渣砂浆和水泥-钢渣砂浆的力学性能均低于纯水泥砂浆。综合上述研究发现锂渣的活性较钢渣和粉煤灰要好,该研究可为掺合料在砂浆和混凝土中的使用提供参考。 Admixture and water-cement ratio are important factors affecting the development of properties of cement mortar or concrete. In order to study the influence of admixtures and water-cement ratio on the hydration products and the mechanical properties of cement-based materials, the study combined hydration reaction mechanism of pure cement and silicate admixture, derived the formulae of hydration products, theoretical maximum mixing amount and total porosity of composite cement-based materials, and investigated the effects of mixing amount of cement mortar with fly ash, steel slag and lithium slag on total porosity, mechanical properties and hydration products. This paper designed 3 gradients of water-cement ratio (0.50, 0.42 and 0.34), 3 kinds of admixtures (lithium slag, fly ash and steel slag) and 2 contents (20% and 60%); the ratio of cementitious material to sand was 1:2.5, and then, molding specimen accorded with the mix of mortar in the triple mold and the mechanical properties of mortar were tested when specimen was cured to 1, 3, 7, 28 and 90 d. The results showed that, after the same content of fly ash, steel slag and lithium slag incorporation, the contents of hydration products of composite cementitious materials, i.e. calcium hydroxide (CH) and calcium silicate hydrate (CSH), and the total porosity were smaller than those of pure cement; when the water-cement ratio decreased from 0.50 to 0.34, the total porosity of cement mortar decreased from 16.0% to 9.3%, and the contents of CH and CSH increased for the compound cement-based materials with mixing amount of 5%, but the increments were not big; the porosity of fly ash, steel slag and lithium slag cement-based composite materials reduced from 16.6%, 17.2% and 16.0% to 9.9%, 10.9% and 9.3%, respectively. When the admixture amount increased to 10%, the variation of porosity and hydration products of the 3 kinds of mortar was different. The content of hydration products (CH and CSH) of composite cementitious materials was still smaller than that of pure cement. Compared to pure cement, the contents of CH and CSH of lithium slag mortar reduced by about 81.1% and 4.2%, fly ash mortar reduced by about 20.9% and 9.5%, and steel slag mortar reduced by approximately 3.0% and 9.5%, respectively. The porosity of lithium slag, fly ash and steel slag mortar increased by 0.1%, 3.6% and 7.6%, respectively. Among the 3 kinds of admixtures, the theoretical maximum mixing amount of fly ash was the maximum, followed by lithium slag, and the steel slag’s theoretical maximum mixing amount was the minimum. It was found that the compressive strength of lithium slag cement-based composite material was prior to fly ash and steel slag cement-based composite materials. In early stage (14 days ago), the compressive strength of fly ash mortar was prior to steel slag mortar; when water-cement ratio was relatively high, the compressive strength of steel slag mortar was close to fly ash. When the mixing amount was 20%, the compressive strength of lithium slag cement mortar was prior to pure cement mortar; if the mixing amount was 60%, the compressive strength of fly ash, steel slag and lithium slag mortar was worse than pure cement mortar. The study provides theoretical basis for material adding in mortar and concrete.
出处 《农业工程学报》 EI CAS CSCD 北大核心 2016年第4期119-126,共8页 Transactions of the Chinese Society of Agricultural Engineering
基金 新疆维吾尔自治区研究生科研创新项目资助(XJGRI2014072) 国家高等学校博士点专项科研基金资助(20106504110005) 新疆水利水电工程重点学科基金资助(XJzdxk-2010-02-12) 国家自然科学基金资助(51541909)
关键词 混凝土 力学性能 硅酸盐 掺合料 水胶比 水化产物 孔隙率 concrete blocks mechanical properties silicates admixture water-cement ratio hydration porosity
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