Na2SO4·10H2O对磷酸钾镁水泥水化硬化的影响

赵思勰; 晏华; 汪宏涛; 李云涛; 张寒松; 胡志德

文章摘要

赵思勰,晏华,汪宏涛,李云涛,张寒松,胡志德.Na₂SO₄·10H₂O对磷酸钾镁水泥水化硬化的影响[J].材料导报,2017,31(23):187-192, 197

Na₂SO₄·10H₂O对磷酸钾镁水泥水化硬化的影响

Influence of Na₂SO₄·10H₂O on Hydration and Hardening of Magnesium Potassium Phosphate Cement

DOI：10.11896/j.issn.1005-023X.2017.023.028

中文关键词: Na₂SO₄·10H₂O 磷酸钾镁水泥相变吸热水化温升水化产物结晶度

英文关键词: Na₂SO₄·10H₂O, magnesium potassium phosphate cement, phase change decalescence, hydrate calefactive, hydration products, crystallinity

基金项目:国家自然科学基金(51272283)

作者	单位	E-mail
赵思勰	后勤工程学院化学与材料工程系,重庆 401311	1527794185@qq.com
晏华	后勤工程学院化学与材料工程系,重庆 401311
汪宏涛	后勤工程学院化学与材料工程系,重庆 401311
李云涛	后勤工程学院化学与材料工程系,重庆 401311
张寒松	后勤工程学院化学与材料工程系,重庆 401311
胡志德	后勤工程学院化学与材料工程系,重庆 401311	1527794185@qq.com

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中文摘要:

磷酸钾镁水泥凝结硬化过快及水化放热集中的问题严重制约着其大规模工程应用,相变材料的吸热储能功能为解决这一问题提供新途径。研究了无机水合盐Na₂SO₄·10H₂O(NS)对磷酸钾镁水泥(MKPC)水化温升、工作性能和抗压强度的影响,并结合XRD、FT-IR、SEM等分析手段及其水化放热速率曲线探究了NS对MKPC性能的影响机制。结果表明:NS的溶解和相变过程吸收大量热,同时释放出结晶水,降低了MKPC体系中Mg²⁺、PO₄3-和H⁺的溶出速率及浓度,MKPC系统内部水化反应速率降低,凝结时间延长,流动度增大,水化放热和水化温升变得更加平缓,在水化早期,MKPC的硬化体强度随NS掺量增加略有降低。在一定的NS掺量(≤4%)内,MKPC水化产物的结晶度提高,后期强度稳定增长,掺有2%NS的MKPC的28 d强度将高于基准组。

英文摘要:

Too fast setting and hardening rate as well as concentrative hydration heat of magnesium potassium phosphate cements restrict its extensive engineering application seriously. Endothermic energy storage of phase change material offers a new way for solving the problems. Effect of inorganic phase change material Na₂SO₄·10H₂O(NS) on hydration temperature,work perfor-mances and compressive strength of magnesium potassium phosphate cement(MKPC) were investigated. Moreover, influence mechanism of NS on properties of MKPC were researched with the aids of XRD, FT-IR, SEM analyses and hydration heat release rate. The result showed that solution and phase change process of NS absorbed a multitude of hydration heat and released crystalliferous water, which attenuated solution rate and concentration of Mg²⁺, PO₄3- and H⁺ in system of MKPC. So rate of interior hydration of MKPC reaction diminished, causing prolonged setting time, increased fluidity, and mild hydration heat release and temperature rise. In early hydration process, with NS content increase, early strength of MKPC diminish slightly. Under a certain content of NS (≤4%), the crystallinity of hydration products increased, and the long-term strength of MKPC increased steadily. 28 d compressive strength of MKPC with 2% NS was higher than that of the reference group.

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