1.
Study on Freeze-thaw Damage Model of Fiber Reinforced Lightweight Aggregate Concrete
纤维轻骨料混凝土冻融损伤模型研究
2.
The Damage Model of Concrete under the Alternate Action of Freeze-thaw Damage and Carbonization
冻融与碳化交替作用下混凝土损伤模型
3.
FREEZ-THAW CYCLE TEST AND A DAMAGE MECHANICS MODEL FOR RECYCLED CONCRETE
再生混凝土冻融循环试验与损伤模型研究
4.
Preliminary Study on Freezing-Thawing Damage Moisture-Heat-Stress Coupled of Soft Rock Mass;
软岩体冻融损伤水热力耦合研究初探
5.
Resharch on Damage and Fracture of Concrete Subjected to Freeze-Thaw-Cycles
冻融作用下混凝土的损伤与断裂研究
6.
Dynamic properties of damage for fly ash soil after freeze-thaw cycles
动荷载下粉煤灰土冻融损伤特性试验
7.
Investigation of Freeze-Thaw Damage of Concrete by Artificial Neural Network
混凝土冻融损伤特性的神经网络研究
8.
Analysis of Submacroscopic Deformation Mechanism of Frozen Silty Clay and A Study on Its Anisotropic Damage Models
冻结粉质粘土细观变形机理及其各向异性损伤模型研究
9.
Study on Elastic-plastic Damage Constitutive Model of Frozen Soil Based on Energy Dissipation Theory
基于能量耗散理论的冻土弹塑性损伤本构模型研究
10.
A Study on the damage propagation characteristics of rock under the frost and thaw condition
冻融条件下岩石损伤扩展特性研究(英文)
11.
INITIAL DISCUSSION ON THE DAMAGE PROPAGATION OF ROCK UNDER THE FROST AND THAW CONDITION
冻融循环条件下岩石损伤扩展研究初探
12.
Studies on different initial water-saturated red sandstones’ different damaged extension under condition of frost and thaw
不同初始饱水状态红砂岩冻融损伤差异性研究
13.
Preliminary Study on the Characteristic of Rock Microscopic Damage Based on the Technique of CT Image Processing under the Frost and Thaw Condition;
基于CT图像处理的冻融岩石细观损伤特性研究
14.
The Preliminary Research of Microdamage Mechanics Characteristics of Rock under the Condition of Freezing and Thawing;
冻融条件下岩石细观损伤力学特性研究初探
15.
Action of salt corrosion and stress concrete freezing-thawing damage and its restrain
盐腐蚀与应力作用下混凝土的冻融损伤及抑制
16.
Effect of Silica Fume on Fracture Damage of Concrete Subjected to Freeze-thaw Cycle
硅灰对冻融环境下混凝土断裂损伤的影响
17.
Experimental study of fracture damage in concrete subjected to freeze-thaw cycles
冻融环境下混凝土的断裂损伤试验研究
18.
Distribution Prediction of Chloride Concentration after the Freeze-thaw Damaged Concrete
混凝土冻融损伤后的氯离子浓度分布预测