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- Ti-V基储氢合金 Ti-V-based hydrogen storage alloy
- TiCr基储氢合金 TiCr based hydrogen storage alloys
- 非晶态镁基储氢合金 amorphous Mg-based hydrogen storage
- V基储氢合金 V-based storing hydrogen alloy
- 稀土-Mg-Ni基储氢合金 rare-earths-Mg-Ni-base hydrogen storage alloy
- V基贮氢合金 V based hydrogen storage alloys
- V基固溶体合金 V-based solid solution
- 胺基 amidocyanogen
- 确立以农业为基储为农业服务的思想。 We should establish the concept that agriculture is the foundation of the national economy and that industry must serve it.
- Ti-V基固溶体合金/AB_x(x=3,3.5,5)复合贮氢合金的电化学性能研究 An Investigation on the Electrochemical Hydrogen Storage of the Ti-V Based BCC Alloys Surfaced with AB_x (x=3,3.5,5)
- 相互作用势对模拟计算单壁碳纳米管物理吸附储氢的影响 The influence of interaction potentials on the computer simulation of hydrogen physisorption in singled-walled carbon nanotubes
- 一、确立以农业为基储为农业服务的思想。 We should establish the concept that agriculture is the foundation of the national economy and that industry must serve it.
- 循环伏安法测定氢在贮氢合金中的扩散系数 Determination of the Hydrogen Diffusion Coefficient in Alloy by Cyclic Voltammetry
- X射线衍射和扫描电镜分析表明,铸态合金均由体心立方(bcc)结构的V基固溶体主相和bcc结构的TiNi基第二相组成; X-ray diffraction and scanning electron microscope analysis show that the as-cast alloys consist of V-based solid solution main phase and TiNi-based secondary phase with bcc structure.
- 新型能源载体-储氢材料研究进展 Development of research on a kind of new energy carrier-hydrogen storage materials
- 历史证明,冷战时期以军事联盟为基储以增加军备为手段的安全观念和体制不能营造和平。 History has proved that the concepts and systems of security with military alliances as the basis and increasing military might as the means could not be conducive to peace during the cold war.
- 采用MA制得的Mg_(1.9)Al_(0.1)Ni储氢合金具有较高的活性和高储氢量,对PCT结果进行计算。 Mg_(1.9)Al_(0.1)Ni ternary alloy was prepared by MA can absorb 2.67 mass%25 and desorb 2.54 mass%25H at 553K less than 100s.
- 1,2-亚二氢苊基 acenaphthenylene
- XRD和FESEM-EDS分析测试结果表明:Ti0.25V0.34Nb0.01Cr0.10Ni0.30电极合金由BCC结构的V基固溶体主相和少量的TiNi基第二相组成,其中,V基固溶体主相为树枝晶形状,TiNi基第二相呈网格状围绕着树枝晶。 Based on XRD and FESEM-EDS analysis, the alloy is mainly composed of V-based solid solution with BCC structure and TiNi-based secondary phase. V-based solid solution phase looks as a dendrite surrounded by TiNi-based secondary phase. The discharge capacity increases with increasing temperature in a wider temperature region from 303 K to 343 K.
- 硫氢基 hydrosulfide group
