位置:成果数据库 > 期刊 > 期刊详情页
In-situ tracking of water transport in cement paste using X-ray computed tomography combined with Cs
  • ISSN号:0
  • 期刊名称:Materials Letters,
  • 时间:2015.8.30
  • 页码:381-383
  • 相关项目:超轻水泥基多孔材料微结构形成与调控的理论与实验研究
作者: Zhang Yunsheng|Liu Zhiyong|Zhao Peng|Liu Cheng|
同期刊论文项目
超轻水泥基多孔材料微结构形成与调控的理论与实验研究
期刊论文 22 会议论文 6
同项目期刊论文
Three-dimensional numerical modeling and simulation of the thermal properties of foamed concrete
Characterization and simulation of microstructure and thermal properties of foamed concrete
Observation of microstructure formation process of cement paste using non-destructive methods.
dynamic mechanical properties and microstructure characteristics of ultra-high performance cementiti
Using the ultrasonic wave transmission method to study the setting behavior of foamed concrete
Investigationof the influence of curing temperature and silica fume content on setting andhardening
矿物掺合料混凝土早龄期回弹法测强曲线的试验研究
Effectof superplasticizers on the hydration process, products, and microstructure oftricalcium alumi
In-situmonitoring the setting behavior of foamed concrete using ultrasonic pulsevelocity method
Thepotential use of foamed mortar for thermal upgrading of Chinese traditionalHui-style residences
Waterabsorption and chloride ion penetrability of concrete damaged by freeze-thawingand loading
Continuous tracking of the relationship between resistivity and pore structure of  
Continuous tracking of the relationship between resistivity and pore structure of cement pastes
A 2D irregular shape model of random packing for cement particles
轻质多孔水泥基吸声材料的设计、制备与性能研究
Investigating the influence of basalt as mineral admixture on hydration and microstructure formation
An analytical model for determining the relative electrical resistivityof cement paste and C-S-H gel
aterial Characteristics of Ancient Chinese Lime Mortars with Organic Admixtures
免烧淤泥砖的制备、力学性能及微观结构
Water Absorption and Chloride Ion Penetrability of Concrete Damaged by Freeze-thawing and Loading
In-situ Monitoring the Setting Behavior of Foamed Concrete Using Ultrasonic Pulsc Velocity Method