摘要
从性能演变的基本观点出发,研究了混凝土的水化反应过程,提出了一种混凝土热-化学耦合模型,该模型可考虑混凝土实时温度对水化放热速率的影响。混凝土温度场与化学场的耦合主要通过引入水化度来达成——将水化度作为化学反应系统物理-化学耦合场的中间变量并建立水化度与放热量之间的关系。基于热力学及化学反应动力学的基本理论,推导了水化反应化学亲和力的公式;导出了水化反应的控制方程,建立了相应的水化模型,并详述了模型在有限元方法中的实现过程;最后,结合相关试验结果对该模型进行了数值验证。
From the basic standpoint of property evolution,this paper studies the hydration process of concrete and proposes a thermo-chemical coupling model for concrete.This model considers the effect of concrete real-time temperature on the rate of hydration heat release.By introducing the hydration degree,the coupling temperature field and chemical field for concrete is achieved. The hydration degree is used as the intermediate variable of chemical reaction system. Thus,physical-chemical coupling field and the relationship between hydration degree and heat release is established. Based on the basic theory of thermodynamics and chemical reaction kinetics,this paper derives a formula of chemical affinity of hydration reaction;established governing equation of hydration reaction and derived the corresponding hydration model,describes the implementation of the model in the finite element method in detail. Finally,the model is validated by the experimental results.
作者
冯楚桥
余晓敏
常晓林
罗代明
熊杰
FENG Chu-qiao;YU Xiao-min;CHANG Xiao-lin;LUO Dai-ming(Guizhou Engineering Technology Research Center for Exploitation and Utilization of Water Resources in Karst Regions,Guiyang 550002,Guizhou Province,China;State Key Laboratory of Water Resources and Hydropower Engineering,Wuhan University,Wuhan 430072,Hubei Province,China)
出处
《中国农村水利水电》
北大核心
2019年第1期152-157,共6页
China Rural Water and Hydropower
基金
博士后科学基金(2018M633636XB)
国家自然科学基金(51809200)
贵州省科技计划(黔科合重大专项字[2017]6013-2号)
关键词
化学反应动力学
水化度
耦合模型
水化过程
混凝土
chemical reaction kinetics
hydration degree
coupled model
hydration process
concrete
作者简介
冯楚桥(1990-),男,博士后,从事高坝结构理论分析研究及水工建筑物设计工作。E-mail:feq0418@163.com。
