1) degree of hydration
水化度
1.
Computing model for autogenous volume deformation of MgO concrete based on degree of hydration;
基于水化度的MgO混凝土自生体积变形计算模型
2.
In this paper a finite element model,which adopting the computational method of temperature field based on degree of hydration,constructed by ABAQUS is presented.
本文采用基于水化度的混凝士温度场计算方法,利用有限元方法,在ABAQUS平台上对高性能混凝土温度场及温度应力进行模拟计算,理论值与实测值吻合良好,为进一步研究高性能混凝土在各种复杂工作条件下的热学性能创造了条件。
2) hydration degree
水化程度
1.
Effect of water-binder ratio and composition on the hydration products and hydration degree of complex shrinkage-compensating binders;
水胶比和组成对补偿收缩胶凝材料水化程度与水化产物的影响
2.
The effects of mineral materials, grinded blast furnace slag (S), high-calcium fly ash (HF), desulfurized gypsum (DG), calcined desulfurized gypsum (CG) and sodium sulfate (NS) on the hydration degree of cement pastes are researched according to testing results of the chemical shrinkage, the hydration heat and the compressive strength.
结果表明:采用20%高钙灰替代矿渣粉对早期水化程度和初始结构建立影响不大,脱硫石膏或煅烧脱硫石膏作激发材料能够分散早期的集中放热而对总体水化进程影响不大;水化热对水化过程的反映比化学收缩更清晰和更准确。
3.
In this paper, the modeling and simulation process of CEMHYD3D is analyzed, the hydration process of CCRL Cement 133 at different water-to-cement ratios is simulated with CEMHYD3D, and several properties, such as the hydration heat, the hydration degree, the variation of the reactant and the product are predicted.
分析了水泥水化过程计算机模拟这一领域最有代表性的模拟系统——CEMHYD3D的建模过程,以CCRLCement133水泥为例,对不同水灰比条件下的水泥水化过程进行了实际模拟计算,对水化热、水化程度、水化过程中主要反应物和产物的变化情况进行了预测。
3) degree of hydration
水化程度
1.
In pozzolanic effect, the degree of hydration was calculated according to the hydration model and the measured parti.
利用水化程度与颗粒粒径、水化深度的理论关系 ,结合矿渣粉体实测的粒径分布 ,计算了超细粉的水化程度 。
2.
A computer simulation-based method is presented for predicting the degree of hydration.
总结了水泥水化计算机模拟的基本原理,强调了水泥颗粒之间的干扰效应,基于计算机模拟所得的水泥石微观结构,提出了水泥水化程度预测方法。
4) hydration rate
水化速度
1.
Effect of the dosage of barite on the hydration rate of cement;
重晶石掺量对水泥水化速度的影响
2.
Then,the impacts of SM on strength development,hydration rate and microstructure of α-HH based plaster were inspected by mechanical strength test,thermogravimetry(TG) and scanning electron microscopy(SEM).
首先测定了SM对α半水石膏的减水效率,然后通过强度测试、热重分析和电镜扫描,揭示了SM对α半水石膏强度发展过程、水化速度及硬化体亚微观结构的影响。
5) hydrated strength
水化强度
补充资料:水化度
分子式:
分子量:
CAS号:
性质:纸浆的质量指标之一。表示纸浆在打浆后对水的附着力的程度。打浆后,纤维的纵向分裂、压溃和润胀等作用愈剧烈,对水的附着力愈强,其水化度也愈高。测定方法是:取相当于2克绝干量的浆料,加水稀释,加热至沸,冷却至40℃。测定其打浆度,与未经加热至沸而在常温(20℃)测定的打浆度相比,其差数就是水化度。现在工厂中较少测定。
分子量:
CAS号:
性质:纸浆的质量指标之一。表示纸浆在打浆后对水的附着力的程度。打浆后,纤维的纵向分裂、压溃和润胀等作用愈剧烈,对水的附着力愈强,其水化度也愈高。测定方法是:取相当于2克绝干量的浆料,加水稀释,加热至沸,冷却至40℃。测定其打浆度,与未经加热至沸而在常温(20℃)测定的打浆度相比,其差数就是水化度。现在工厂中较少测定。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条