1.
OVERALL ACTIVATION ENERGY OF ISOTHERMAL TRANSFORMATION IN METAL ALLOY AND ITS MECHANISM Ⅱ.Isothermal Transformation inβBrasses
金属合金等温相变的体激活能及相变机制 Ⅱ.β黄铜等温相变
2.
OVERALL ACTIVATION ENERGY OF ISOTHERMAL TRANSFORMATION IN METAL ALLOY AND ITS MECHANISM Ⅰ.Medium Temperature (Bainite) Isothermal Transformation in Steels
金属合金等温相变的体激活能及相变机制 Ⅰ.钢的中温(贝氏体)等温相变
3.
Self–Consistent Field Theory and Kinetics of Non–isothermal Phase Separation for Polymeric Complex Fluids;
聚合物复杂流体的自洽场理论与非等温相变动力学
4.
Research on A356-Sc Al Alloy’s Evolution of Morphology of Primary Phase in Solid-liquid Phase Region During Isothermal Holding
A356-Sc铝合金在固液相区等温保温时初生相形貌演变的研究
5.
Morphology Evolution of A356 Alloy Primary Phase in Solid-liquid Range at Isotherm
A356合金初生相在固液区间等温时形貌演变
6.
isothermal-isobaric gas chromatography
等温等压气相色谱(法)
7.
A Phase-field Simulation of Austenite to Ferrite Transformation in Low Carbon Steels;
低碳钢中奥氏体向铁素体等温转变的相场法模拟
8.
Confined Isothermal Crystallizing Kinetics and Melting Behavior of Polyethylene Glycol(PEG) / Poly (vinyl alcohol) (PVA) Solid-Solid Phase Change Materials
聚乙二醇/聚乙烯醇固-固相变材料等温结晶动力学及熔融行为研究
9.
isothernal transformation case hardening
等温转变表面硬化处理
10.
Phase transition of α-Si_3N_4 under the condition of high pressure and high temperature
高温高压下α-Si_3N_4的相变
11.
Simulation on isothermal transformation curves and non-isothermal kinetics
40Cr钢等温转变曲线与非等温冷却过程数值分析
12.
The result paint has some advantages over usual one in shorter of dry time, and more mild-proof, and no needing expensive additives.
与常用的该类多彩涂料相比,其具有低温干燥快,不易霉变、需较贵的添加剂等优点。
13.
An experimental research has been taken on heat efficiency, startup behavior, isothermal characteristics of a vacuum phase change heating system using a new kind of compound working medium.
利用新型复合工质对真空相变供热系统进行了热效率、启动特性、等温特性的实验研究。
14.
Change of the microstructure and phase composition of plasma-sprayed nanostructured zirconia thermal barrier coatings after high temperature calcination
等离子体喷涂纳米结构氧化锆热障涂层高温煅烧后的组织结构和相组成变化
15.
Of, relating to, or indicating equal or constant temperatures.
恒温的属于,关于,或显示相等或恒常温度的
16.
Upper Limit Temperature of Deformation Induced Transformation of Nb Microalloyed Steels
铌微合金钢形变诱导相变的上限温度
17.
temperature,pressure,etc that corresponds to zero on a scale
(相当于零度的)温度、压力等
18.
The Isothermal Section of the Gd-Fe-Sb Ternary System at 773K;
Gd-Fe-Sb三元系合金相图773K等温截面