1.
Fundamental Restraining Model of Concrete Frame-Slab-Beam Structures under Temperature and Shrinkage Action;
混凝土框架梁板结构温度及收缩作用下的基本约束模型
2.
The initial shrinkage temperature and the shrinkage change little with the increase of heating rate.
升温速率增大,坯片开始收缩的温度及收缩率几乎不变。
3.
temperature contraction of pipes
管道因温度变化收缩
4.
Research on Solution of the Temperature and Shrinkage Crack Control in Overlong Concrete Structure;
超长混凝土结构温度及收缩裂缝控制方法研究
5.
Status Quo and Problems of Concrete Structures Temperature and Shrinkage Cracking Control;
混凝土结构温度及收缩裂缝控制的现状和问题
6.
Analysis on the cast-in-place floor temperature-shrinkage crack mechanism and anti-crack measures
浅析现浇板温度—收缩裂缝机理及抗裂措施
7.
Research on shrinkage temperature control in shrinking film packaging based on adaptive fuzzy method
热收缩膜收缩温度的自适应模糊控制研究
8.
The Research on Shrinkage Creep and Temperature Effect of Concrete Filled Steel Tubes on Long-span Arch Bridge;
大跨度钢管混凝土拱桥收缩徐变及温度效应研究
9.
low temperature solution polycondensation
低温溶液缩聚[作用]
10.
The Research of Cracks Control in Large Area Concrete Structure Based on the Influence of Temperature and Shrinkage
基于温度及收缩的大面积混凝土结构裂缝控制研究
11.
Causation And Prevention Measure Of Temperature Shrinkage Crack In Longer Concrete Structure
超长砼结构温度收缩裂缝的成因及防治措施浅析
12.
Application of fuzzy PID control in detection instrument for shrinking temperature of leather
参数模糊自整定PID控制器在皮革收缩温度测定仪中的应用
13.
a double sulphate of aluminum and potassium that is used as an astringent (among other things).
一种双重精度的铝和用来作为收缩剂的钾。
14.
Study on Shear Effect Caused by Temperature and Shrinkage on the Interface of Steel-Concrete Composite Beams
温差、收缩引起的钢-混凝土组合梁界面处剪力作用研究
15.
Effects and Mechanism of Isometric Exercise Training in Patients with Coronary Artery Disease;
冠心病患者等长收缩训练的作用及机理
16.
Protective Effects of Neuregulin-1β on Chronic Contractibility Cardiac Failure and Correlative Mechanisms Research
Neuregulin-1β对慢性收缩性心力衰竭的作用及机制探讨
17.
Rhizoma curcumae promotes the contraction of rat colonic smooth muscle strips in vitro
莪术对大鼠结肠平滑肌收缩的促进作用及机制
18.
The relationships between the constraction and the rate of water in the wood, the tem-perature of the solution, the molecular weight of the PEG and the steps of the PEG concen-tration were discussed.
讨论了木材含水率、浸泡温度、PEG分子量以及其浓度变化梯度等因素与木材收缩的关系。