1.
Research on the Low Temperature Rheology Property of Drilling Fluids for the Offshore Gas Hydrate Exploration
海洋天然气水合物地层钻探钻井液低温流变性能研究
2.
Evaluation on low temperature performance of paving asphalt using bending beam rheometer
用弯曲梁流变仪评价道路沥青的低温性能
3.
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
4.
Experimental Research on the Fluidity of Low-temperature Coal Tar
低温煤焦油流动性能改善的实验研究
5.
The Study on High Temperature Low Cycle Fatigue Properties and High Temperature Creep Properties of GH4169 Alloy;
GH4169合金高温低周疲劳及蠕变性能研究
6.
Silicone rubbers are used for both high-and low-temperature appilcations, since their properties change little with temperature.
聚硅烷橡胶因性能随温度变化小,故在高温和低温的场合都能用。
7.
Creep Property and Mechanism of AZ31 Magnesium Alloy under High Temperature and Low Stress
高温低应力下AZ31镁合金的蠕变性能及蠕变机理
8.
Research on Rheology of Highly Water-contained Crude with Low Tempreture at Daqing Shanan Oil Field.
大庆萨南油田低温高含水原油流变性研究
9.
Low-temperature Viscosity Determination of SBS Modified Asphalt with Dynamic Shear Rheometer Method
SBS改性沥青低温粘度的动态剪切流变测试方法
10.
Low-temperature Mechanical Properties of 2219 Al Alloy and VPPAW Welding Joints
2219铝合金及变极性等离子接头的低温力学性能
11.
Low Temperature Fluidity and Rheological Property of Biodiesel-Diesel Blends
生物柴油/矿物柴油混合燃料低温流动特性及流变特性研究
12.
Study on the Synthesis and Properties of Copolymers as Low-Temperature Flow Improver for Diesel;
柴油低温流动改进剂的合成及性能研究
13.
Study on Influencing Factors of Low-temperature Flowing Properties of Biodiesel Fuel;
生物柴油低温流动性能影响因素的研究
14.
Effects of Current Density on Properties of Low-Temperature Iron Plating without Pre-etching
电流密度对无刻蚀低温镀铁性能的影响
15.
Synthesis and Property Evalution of Low Temperature Flowing Improver for Diesel Fuel
柴油低温流动改进剂的合成及性能评价
16.
Improving the Low-Temperature Flowing Properties of Biodisel from Sunflower Oil
改善葵花籽油生物柴油的低温流动性能
17.
Biodiesel derived from Pistacia chinensis and its low-temperature fluidity.
黄连木生物柴油及其低温流动性能研究
18.
The Adaptive Changes of Activation Energy of Mitochondria Oxidase Accompanied with the Temperature Decrease;
低温胁迫下线粒体氧化酶活化能的适应性变化