1.
The Effects of Rheology Property under a High Temperature on Ash Deposition Strength
灰渣沉积物强度与其高温流变特性的关系
2.
The Research of Flow Stress Behaviors at Elevated Temperature and Processing Maps for Aluminum Matrix Composites;
铝基复合材料的高温流变行为及加工图研究
3.
Study on Hot Deformation Behavior and Processing Map of Ti-46Al-2Cr-4Nb-0.3Y Alloy
Ti-46Al-2Cr-4Nb-0.3Y合金高温流变行为及加工图研究
4.
Flow Stress Characteristics and Constitutive Equation for Al-Zn-Mg-Cu-Zr at Elevated Temperature
7055铝合金高温流变应力特征及本构方程
5.
Rheological Properties of High-Temperature Water Based Drilling Fluids at High Temperature and High Pressure
抗高温水基钻井液超高温高压流变性研究
6.
Research on Flow Stress Behavior of Super Alloy GH4145 During High Temperature Plastic Deformation
GH4145高温合金热塑性变形流变应力研究
7.
Study on flow stress of AZ80 magnesium alloy during hot compression deformation at elevated temperatures
AZ80镁合金高温热变形流变应力研究
8.
A slow flow of metal when under high temperature or great pressure.
蠕变金属在高温或高压下的缓慢流动
9.
Flow Stress of 7050 High Strength Aluminum Alloy during High Temperature Plastic Deformation
7050高强铝合金高温塑性变形的流变应力研究
10.
Flow Stress Behavior of 7056 Aluminum Alloy During Hot Compression Deformation at Elevated Temperature
7056铝合金高温热压缩流变应力行为
11.
Flow Behavior of Low Alloy Steel FQK400 During Stretching at High-temperature
低合金钢FQK400高温拉伸的流变特性
12.
Mathematical Model of Flow Stress of Nb Micro-alloyed Steels Through High Temperature Deformation
高温变形含Nb微合金钢流变应力数学模型
13.
Study on Flow Stress Behavior of TA15 Titanium Alloy during High Temperature Plastic Deformation
TA15钛合金高温塑性变形流变应力行为研究
14.
Prediction model for rheological parameters of oil-based drilling fluids at high temperature and high pressure
油基钻井液高温高压流变参数预测模型
15.
Rheology of mantle minerals at high pressure and high temperature,and its influence on deep earthquakes
高温高压下矿物流变强度与深源地震机制
16.
Rheology Control of Ultra High Density High Temperature Drilling Fluids.
超高密度高温钻井液流变性影响因素研究
17.
Rheological Properties of Water-Based Drilling Fluids in Ultra-Deep Wells at High Temperature and High Pressure
超深井水基钻井液高温高压流变性试验研究
18.
The extinction ratio changes with the operation current and temperature.
消光比随注入电流和温度的升高而变化。