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1)  cooling intensity
冷却强度
1.
Influence of mould cooling intensity on the strand shell homogeneity in the initial solidification areas;
结晶器冷却强度对铸坯初始凝固均匀性的影响
2.
To ferrite/pearlite steel,the process consisting of low water cooling intensity,5~10 ℃/s cooling velocity,and high temperature controlled rolling can get better effect than single controlled rolling.
对铁素体/珠光体类钢,用弱水量冷却强度、5~10℃/s的冷速,配合高温控制轧制,可以得到比单纯控轧更好的效果;对贝氏体钢的生产,必须用ACC中水量冷却强度,以10~25℃/s的冷速快冷至生成贝氏体的温度区间。
3.
The paper contributes main reasons for damage of cooling staves at row 4, 5, and 6 at Tiantie Metallurgical Group BF 2 to inadequate experience to new equipment, low cooling intensity and the effect by the detrimental elements from the stave material.
对天铁2#高炉4、5、6段冷却壁的损坏原因进行了分析,新工艺注备使用经验不足,冷却强度低,冷却壁材质有害元素的影响等是造成冷却壁损坏的主要原因。
2)  cooling strength
冷却强度
1.
The product properties such as tensile strength and electric conductivity effected by cooling strength and deformation were studied.
选择AZ31镁合金为原材料,在400℃下挤压散热片型材,就冷却强度及变形程度对制品的性能(抗拉强度和导电率)及组织结构的影响进行研究。
2.
Compounds in 7A52 alloy may not influence the processing property of product by means of three process parameters,such as,controlling the main element Mn in 7A52 alloy,and by aid of special moulding system and reasonably controlling cooling strength.
通过对7A52合金中的主要元素Mn等进行控制,辅以专门的供流系统,合理控制冷却强度等三大工艺参数,可以使7A52合金中的化合物不影响制品的加工性能,对提高制品的成材率有明显效果。
3.
Because taking some measures,such as selecting hot air valve with reasonable structure,improving cooling system of hot air valve and increasing cooling strength of hot air valve,etc,the service life of hot air valve is increased greatly in the practical process of vapourizing cooling of hot air valve in NO.
莱钢第二炼铁厂在热风阀汽化冷却实践中,通过采取选用结构合理的热风阀,改进冷却系统,提高冷却强度等措施,使热风阀寿命大幅度提高。
3)  Intensity of cooling
冷却强度
1.
After transformation, the circulating water of 2# 750m3 BF is increased to 1230 m3/h, the head of circulating pump is increased to 60m, and the intensity of cooling is improved, the life of cooling stave is extended to 2 years, the system's operating security is improved, and the annual benefit of power economy is 0.
改造后,2#750m3高炉炉体的循环流量达到1230m3/h,扬程60m,冷却强度提高,冷却壁寿命延长了2年,提高了系统运行的安全性,年节电效益13万元。
4)  intensity-gradient cooling
强度梯度冷却
1.
In this paper,we propose a new scheme to cool and trap neutral atoms by using a blue-detuned localized hollow beam (LHB),and studied the dynamical process of intensity-gradient cooling of the trapped atoms in the LHB by means of Monte-Carlo simulations.
提出了一种采用蓝失谐局域中空光束实现中性原子冷却与囚禁的新方法 ,并采用Monte_Carlo模拟方法研究了局域中空光束中原子强度梯度冷却 (即Sisyphus冷却 )的动力学过程 。
5)  intensity gradient cooling
强度梯度冷却
1.
Laser cooling and trapping of neutral atoms, include the intensity gradient cooling and optical dipole traps with blue-detuned laser field are briefly introduced in this thesis.
本文简单介绍了中性原子的激光冷却与囚禁,主要介绍了中性原子的强度梯度冷却和实现冷原子囚禁的蓝失谐光学势阱,并介绍了光学原子反射镜的基本原理和两种光学原子反射镜的方案,即消逝波原子反射镜和半高斯光束原子反射镜。
6)  strength after reduction and cooling
还原冷却后强度
补充资料:表光合强度(见光合强度)


表光合强度(见光合强度)
forecast of sowing or transplanting time

b iaoguanghe qiangdu表光合强度见光合强度
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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