| 1. | Test method for heat of hydration of cement adiabatic method 水泥水化热试验方法 |
| 2. | Workable when the temperature is over 20 适用于要求降低水化热的大体积混凝土。 |
| 3. | Temperature field analysis of heat of hydration in concrete box girder 混凝土箱形梁水化热温度场分析 |
| 4. | Analysis of hydration heat and crack - resistance of high micro - slag in mass concrete 微矿粉在大体积混凝土中水化热及抗裂分析 |
| 5. | Experimental study on low hydration heat high strength and high performance concrete and its application 低水化热高强高性能混凝土试验与应用 |
| 6. | Releasing steam heat from the mass concrete structures while solidifying leads to produce the temperature change and contraction 大体积混凝土在固化过程释放的水化热会产生较大的温度变化和收缩作用。 |
| 7. | Releasing steam " heat from the mass concrete structures while solidifying leads to produce the temperature change and contraction 大体积混凝土在固化过程释放的水化热会产生较大的温度变化和收缩作用。 |
| 8. | The analysis on the models of cement hydration indicated that the compound exponent model is the appropriate one compared with other models of cement hydration heat 对混凝土水化热的计算模型分析表明,复合指数式较为合理。 |
| 9. | At first the finite element theory for temperature analysis is introduced , and then mainly discussed the calculation models of cement hydration heat and the boundary condition under sun radiation 首先对这一方法的基本原理进行了简要的介绍,着重探讨了计算中的水化热计算模型、日照边界条件处理等。 |
| 10. | By means of analyzing the measured data of deformation and temperature inside the structure , the laws of deformation and temperature of the sfrc structure under the influences of early hydration heat and outside temperature were found 通过实测结构内部温度及其变形,给出了钢纤维混凝土在早期水化热及外界温度影响下的温度及变形规律。 |