Establishment of cryogenic ternary phase diagram for deuterium-tritium fuel core
氘-氚燃料芯块低温三元相图的建立
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
Establishment of cryogenic ternary phase diagram for deuterium-tritium fuel core
氘-氚燃料芯块低温三元相图的建立
More reactive are the heavier isotopes of hydrogen, deuterium and tritium.
更为活跃的是氢的较重同位素,氘和氚。
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
Fabricating Technology of Inertial Confinement Fusion DT Cryogenic Targets
惯性约束聚变低温冷冻氘氚靶制备技术
The fuel will be made from two heavy forms of hydrogen, called deuterium and tritium.
燃料由氢的两种较重的同位素制造,分别称为氘和氚。
Research on Neutron Energy Spectrum of the Beryllium,Iron and Polyethylene Shells Assemblies Injected by D-T Neutron(In Chinese)
氘氚中子注入聚乙烯铁铍组合壳体的中子能谱实验研究
Effects of cryogenic target misalignment and capsule nonuniformity on deuterium-tritium layer uniformity
冷冻靶校准误差和烧蚀层粗糙度对氘氚层均匀性的影响
tritium/tritium oxide in air monitor
空气中氚和氚水监测器
Study of Measurement Methods of Tritium Concentration of Occupational Workers and Internal Doses;
涉氚工作人员体内氚浓度测量方法及氚致剂量研究
METABOLISM DISTRIBUTION AND TRANSFER OF TRITIUM IN PREGNANT MICE AFTER EXPOSURE TO TRITWM WATER
单次注入氚水后氚在孕鼠体内的代谢和转移
electron-deuteron interaction
电子-氘核相互作用
The nucleus of tritium, consisting of two neutrons and one proton.
氘核氘的原子核,由两个中子和一个质子组成
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
The Application and Quality Control of the Liquid Scintillation Method for Tritium Determination in the Technological Text on Separating Tritium from Heavy Water;
液闪测氚法在重水提氚工艺试验中的应用及其质量控制研究
STUDY ON COMPARISION OF MODEL FOR ESTIMATION OF CONCENTRATION OF TRITIUM IN WHEAT FROM LONG-TERM ATMOSPHERIC RELEASES OF TRITIUM
氚长期大气释放后小麦中氚浓度预测模型的比较研究
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。
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