长江科学院院报 ›› 2018, Vol. 35 ›› Issue (6): 111-116.DOI: 10.11988/ckyyb.20170002

• 水工结构与材料 • 上一篇    下一篇

大体积混凝土胶凝材料体系水化放热规律研究

朱鹏飞,宫经伟,唐新军   

  1. 新疆农业大学 水利与土木工程学院, 乌鲁木齐 830052
  • 收稿日期:2017-01-03 修回日期:2017-03-03 出版日期:2018-06-01 发布日期:2018-06-16
  • 通讯作者: 唐新军(1959-),男,陕西蒲城人,教授,博士生导师,主要从事水工结构及水工混凝土材料相关方面研究。E-mail:tangxj59@163.com
  • 作者简介:朱鹏飞(1991-),男,山东济南人,硕士研究生,主要从事水工结构及水工混凝土材料热物理性能研究。E-mail:zhupengfei_shd@163.com
  • 基金资助:
    国家自然科学基金项目(51541909)

Law of Hydration Heat of Mass Concrete Cementitious Materials

ZHU Peng-fei, GONG Jing-wei, TANG Xin-jun   

  1. College of Hydraulic and Civil Engineering, Xinjiang Agricultural University, Urumqi 830052, China
  • Received:2017-01-03 Revised:2017-03-03 Published:2018-06-01 Online:2018-06-16

摘要: 为研究低热硅酸盐水泥与大掺量矿物掺合料胶凝材料体系间水化放热规律方面的差异,采用直接法测定两者的水化放热过程,根据计算出的水化放热曲线及水化速率曲线,分析了两者在水化放热规律方面的差异;并采用Krstulovic-Dabic模型3个时期的积分方程进一步对比分析两者在水化进程方面的差异。研究结果表明试验方案中掺有矿粉的胶凝材料体系水化热前期低于低热硅酸盐水泥,而后期高于低热硅酸盐水泥;在水化放热规律方面,掺入一定掺量的矿物掺合料后,与低热硅酸盐水泥相比,初终凝时间延后,加速期与减速期延长;在结晶成核与晶体生长(NG)时期,n值越大,水化阻力越大,初凝时间相对推后,kNG值越大,水化速率越快,加速期越短,终凝时间相对提前,在相边界反应时期(I)与扩散时期(D),kI,kD越大,水化速率越快,减速期越长。研究结果为改善大体积混凝土的温度防裂性能提供参考。

关键词: 大体积混凝土, 低热硅酸盐水泥, 胶凝材料, 水化热, Krstulovic-Dabic模型, 热学性能, 水化进程

Abstract: The present study aims to provide basis for the temperature and crack control of mass concrete by investigating the difference of hydration heat between low-heat Portland cement and mineral-mixed cementitious material. Firstly, the processes of hydration heat release in low-heat Portland cement and mineral-mixed cementitious material were determined via direct method. According to the calculated hydration heat release curve and hydration rate curve, the differences between the two in terms of hydration law were analyzed. Furthermore, the hydration processes were characterized by the integral equations of Krstulovic-Dabic model in three stages and the differences in the process of hydration were further studied. Research results show that in the early stage of hydration, the hydration heat of cementitious material with slag was lower than that of low-heat Portland cement, but was higher than that of low-heat Portland cement in the later stage; compared with those of low-heat Portland cement, the initial and final setting time was delayed and the accelerating period and the deceleration period was prolonged by adding a certain amount of mineral admixture. In addition, in nucleation and crystal growth period (NG), hydration resistance increased as the n value became larger, and the initial setting time was delayed; as the kNG value climbed, rate of hydration increased and the acceleration period shortened, so that the final setting time was in advance; while in the phase boundary reaction period (I) and diffusion period (D), the greater values of kI and kD, the faster hydration speed and the longer deceleration period would be.

Key words: mass concrete, low-heat Portland cement, cementitious material, hydration heat, Krstulovic-Dabic model, thermal properties, hydration process

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