说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 句库 -> 冷却速度
1.
critical cooling rate
马氏体临界冷却速度
2.
Effect of Cooling Rate on the Microstructure in Steel Deoxidized by Ti
冷却速度对Ti脱氧钢凝固组织的影响
3.
The Influence of Cooling Rate on the Modification Effect of A356 Aluminum Alloy
冷却速度对A356铝合金变质效果的影响
4.
Simulation of Cooling Rate for CuFe15 Alloy by Single Roller Melt-spinning
单辊旋铸CuFe15合金的冷却速度模拟
5.
Different Cooling Rate on the Impact of the Organization PQ600
不同冷却速度对PQ600组织的影响
6.
Effect of annealing temperature and cooling rate on the properties of sol-gel derived ZnO:Al thin films
热处理温度及冷却速度对ZnO:Al薄膜性能的影响
7.
RELATIONSHIP BETWEEN COOLING RATE AND SECONDARY DENDRITE ARM SPACING FOR STEEL No. 45
45号钢二次枝晶臂间距与冷却速度的关系
8.
Study on the Influences of Cooling Rate on Solidification Microstrcture of Magnesium-Aluminum System Alloys;
冷却速度对镁—铝系合金凝固组织影响的研究
9.
Influences of Deformation and Cooling Rate on the Microstructure Evolution of T91 Heat-resistant Steels;
变形和冷却速度对T91耐热钢组织形成的影响
10.
Effect of Cooling Rate on the Structures and Properties of Multi-Microalloy Steel
冷却速度对多元微合金钢组织及性能的影响
11.
Effects of neodymium and cooling rate on eutectic structure in AZ91HP magnesium alloy
Nd与冷却速度对AZ91HP镁合金共晶组织形貌的影响
12.
Effect of cooling rate on the formation of acicular ferrite in Ti deoxidized steel
冷却速度对Ti脱氧钢中针状铁素体形成的影响
13.
Microstructure of low carbon bainite steel at different cooling rate
低碳贝氏体钢不同冷却速度下的组织结构研究
14.
STUDY ON MICROSTRUCTURES AND PROPERTIES OF VITREOUS TILES AFFECTED BY DIFFERENT COOLING RATES
冷却速度对砖坯显微结构及性能影响的研究
15.
Effect of cooling rate on microstructure transformation in 30CrNi3MoV ultra-high strength steel
冷却速度对30CrNi3MoV超高强钢组织转变的影响
16.
Influence by Cooling Velocity on Phase-change Law of 25MnV/P110 Oil Casing
冷却速度对25MnV/P110钢级石油套管相变规律的影响
17.
Secondly, we can heat the steel above a certain critical temperature, and then allow it to cool at different rates.
其次,可以把钢加热到某一临界温度以上,然后再让它以不同的冷却速度冷却。
18.
"The furnace is equipped with a high efficiency compact spray cooling device with high cooling capacity, high cooling rate and good uniformity, by which the length of the cooling zone is reduced. "
采用高效紧凑式喷射冷却装置,冷却能力大,速度快,冷却均匀,大大缩短了冷却段的长度