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 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 1 073 K.
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。
Catalytic Properties of Hydrogen-Deuterium Exchange of Methane on Rh/γ-Al_2O_3 Catalyst
Rh/γ-Al_2O_3催化剂上甲烷-氘化氢间的氢氘交换性能
Catalytic exchange performance of hydrogen-deuterium and methane on Ni-Rh/Al_2O_3 catalyst
Ni-Rh/Al_2O_3催化剂上甲烷-氘化氢间的氢氘交换性能
Evaluation of liquid fuel used as DF chemical laser fuel
液态燃料作为氟化氘化学激光燃料的评价
This advisability of deuteration is unnecessary with single crystal
对于单晶,氘化的这种优点,并不是必不可少的。
This advisability of deuteration is unnecessary with single crystals.
对于单晶,氘化的这种优点并不是必不可少的。
The specificity of the hydrogen migration has been demonstrated through the use of deuterated compounds.
这种特殊的氢原子迁移,已经用氘化化合物予以证实。
Temperature Dependence of Electron Screening in D(d,p) T Reaction for Deuterated Metals;
氘化金属靶中D(d,p)T反应电子屏蔽效应温度相关性的实验研究
"Heavy water (deuterium oxide):Water composed of two atoms of deuterium (D; a heavy isotope of hydrogen) and one atom of oxygen (O), chemical formula D2O."
重水(亦称氧化氘):由二个氘原子和一个氧原子组成的水,化学式为D2O。
The absorbent used is active aluminum oxide at liquid nitrogen temperature, while a highly sensitive thermoconductivity cell serves as the detector.
在测定高浓重水中的氘含量时,要把水样先转化为氘气。
The rings are opened with hydrogen chloride and deuterium chloride.
应用氯化氢和氯化氘打开沅环。
SIMULTANEOUS DETERMINATION OF BORON, CARBON AND NITROGEN IN SILICON BY DEUTERON ACTIVATION ANALYSIS
氘子活化分析同时测定硅中硼、碳和氮
Kinetic Isotope Effects of Desorption for Zirconium Deuteride and Tritide
氘/氚化锆热解吸动力学同位素效应
Radiation degradation characteristics of deuterium lamp with MgF_2 window in vacuum environment
氟化镁窗口氘灯的真空辐射衰减特性
Numerical investigation of TRIP mixing mechanism in CW DF/HF chemical laser
连续波氟化氘/氟化氢化学激光器TRIP技术混合机理
Dynamical Study on Highly Excited Molecular Vibrational States: The Cases of DCN, HCN and Its Isomers;
分子高激发振动态的动力学研究:氰化氘、氰化氢及其异构物
Comparison of D-T and D-D accelerator investigation characteristics in pulsed neutron porosity logging while drilling
氘-氘和氘-氚随钻中子孔隙度测井探测特性对比
American chemist.He won a1934Nobel Prize for his discovery of heavy hydrogen.
尤里,哈罗德 克莱顿1893-1981美国化学家,因发现氘(重氢)获得1934年诺贝尔奖
It goes in for manufacturing lighting and electric appliance, high-voltage sodium lamp, mercury lamp, deuterium lamp, metallic halide lamp and measuring instrument.
专业从事光电器件、高压钠灯、汞灯、氘灯、金属卤化物灯及仪器仪表制造。