- 更多网络例句与氘化相关的网络例句 [注:此内容来源于网络,仅供参考]
-
Absorption velocity increases with initial pressure, and keeps constant at different initial composition of uranium deuteride .
增加混合气体的初始压力有利于铀吸氘速率的增加,氘化铀的初始氘量不影响铀的吸氘速率。
-
Deuterium containing helium absorption of unsaturated uranium deuteride with different composition at varied initial pressure is studied.
研究了不同含氦量的混合气体、吸氘初始压力以及不同组成的不饱和氘化铀对铀吸氘行为的影响。
-
The deuterium desorption behavior of titanium deuteride with oxide layer on the surface in a constant volume system was investigated in the temperature range of 873 to
测定了3种不同氧化层厚度的氘化钛在873~1073K范围内的热解吸反应速率常数,得到673K下氧化5、2h的氘化钛和未经氧化处理的氘化钛热解吸氘的活化能分别为29。
-
The deuterium thermal desorption behavior of titanium deuteride with or without anodic oxide layer on the surface in a constant volume system has been investigated in the temperature range of 600℃ to 800℃.
应用反应速率分析方法,测定了氘化钛和表面有阳极氧化层的氘化钛在恒容体系和600-800℃范围内的热解吸反应速率常数,得到氘化钛和阳极氧化的氘化钛热解吸氘的活化能分别为24。
-
Results show that deuterium absorption quantity and velocity decrease with helium content increase. Absorption velocity increases with initial pressure, and keeps constant at different initial composition of uranium deuteride.
结果表明,氦含量的增加会显著减少铀的吸氘量,降低铀的吸氘速率;增加混合气体的初始压力有利于铀吸氘速率的增加,氘化铀的初始氘量不影响铀的吸氘速率。
-
P-t curves of titanium hydride and titanium deuteride desorbing hydrogen and deuterium are investigated at 350~550 ℃ by using the method of reaction rate analysis in a constant volume system.
在高真空金属系统上测定了氢化钛和氘化钛在恒容体系中、350~550℃温度下热解吸氢和氘的P-t曲线;应用反应速率分析方法计算了各自在不同温度下的反应速率常数,得到氢化钛和氘化钛热解吸的表观活化能分别为27。
-
The rate-controlling steps of deuterating and dedeuterating reaction in α+β region are assumed to the nucleation-growth and diffusion in deuterium of deuteride respectively.
在α+β相域,氘化与去氘化反应的速控步骤分别为氘化物的成核-长大过程和氘化物中氘的扩散过程。
-
Kinetics parameters of LaNi5-xAlx (x=0, 0.1, 0.2, 0.3) alloys were measured. The influence of aluminium content on deuterating-dedeuterating kinetic function of LaNi5-xAlx was assessed under isothermal and isochoric condition.
测定了LaNi5-xAlx(x=0, 0.1, 0.2, 0.3)的氘化与去氘化的动力学参数,评价了铝含量对LaNi5-xAlx合金的氘化与去氘化动力学函数的影响。
-
For a deep understanding of electron screening effects, the DT reaction has been studied in a series of deuterated metal-, insulator- and semiconductor targets using the 100 kV accelerator of the Dynamitron-Tandem-Laboratorium at the Ruhr-University-Bochum.
为深入了解电子屏蔽效应的机制,在鲁尔大学DTL实验室100kV加速器上采用一系列氘化金属靶、氘化绝缘体靶和氘化半导体靶进行了DT反应的研究。
-
The results show that x does not change deuterating-dedeuterating reaction order. Activation energy increases while the rate constant decreases with x increasing. Deuterating and dedeuterating reaction order a (with respect to deutertium pressure) and b (with respect to deuterium content) are 2 and 1, 0.5 and 1, respectively.
研究结果表明,铝含量不改变合金的氘化与去氘化的反应级数;反应速率常数随x的增加而减少;活化能随x的增加而增加;氘化与去氘化反应级数 a和 b 分别为2和1及0.5和1。
- 更多网络解释与氘化相关的网络解释 [注:此内容来源于网络,仅供参考]
-
lithium deuteride:氘化锂
wellsite [矿]钡钙十字石,钙交沸石 | lithium deuteride 氘化锂 | acidotheca 产卵器鞘(蛹)
-
hydrogen deuteride:氘化氢
hydrogen cyanide 氰化氢 | hydrogen deuteride 氘化氢 | hydrogen discharge lamp 氢放电灯
-
uranium deuteride:氘化铀
uranium deposit underground leaching 铀矿床地下浸出 | uranium deuteride 氘化铀 | uranium deuterium lattice 铀重水栅格
-
thorium deuteride:氘化钍
thorium d 钍铅 | thorium deuteride 氘化钍 | thorium dicarbide 二碳化钍
-
deuterate:氘化;氘化合物;重水合物
DEUCE通用数字电子计算机 | deuterate氘化;氘化合物;重水合物 | deuteratedwater氘化水
-
deuterate:使氘化,使重氢化
"detuning sleeve ","去谐套" | "deuterate ","使氘化,使重氢化" | "deuteride ","氘化物"
-
deuterated:氘化的
deuteranopid 第二原色盲,绿色盲 | deuterated 氘化的 | deuteride 氘化合
-
deuterated water:氘化水
deuterate 氘化;氘化合物;重水合物 | deuterated water 氘化水 | deuteric action 岩浆后期活动
-
deuterated resin:已氘化树脂
detrimental 有害,有损,不利的 | deuterated resin 已氘化树脂 | deuterated water 氘化水
-
deuterating:氘化
氘化 deuterate | 氘化 deuterating | 氘化合物 deuteride