六堆

六堆六堆
  1. 我们把它们分为六堆吧。

    Let 's separate them into six lots .

  2. 实验确证了氢在六角密堆结构(hcp)和高位错密度(10~(12)/cm~2)材料塑性形变过程中的可动位错输运行为,并揭示了氢在位错芯部的隧道扩散效应;

    Experimental results confirmed that the mobile dislocations in hcp structure and high dislocation density materials also play an important role in hydrogen migratory during plastic deformation , and the Tunnel Diffusion Effect of hydrogen in dislocation cores is also proved .

  3. 超临界水冷堆(SCWR)是第四代反应堆六种概念堆型中唯一的水冷堆,具有经济性、延续性及可持续性等诸多优势,是适合于大规模发电的主力堆型。

    The Supercritical water-cooled reactor ( SCWR ) is the only water-cooled reactor among the six Generation ⅳ reactor concepts . It has advantages such as economy , continuity and sustainability , and it can be the main reactor type for large scale electricity production .

  4. 压力作用下六角密堆结构金属锂及掺氢体系的弹性性质

    Elastic Properties of Hcp Lithium and Hydrogen Doped Lithium under Pressure

  5. 面心立方晶体中生成孪晶或六角密堆相的电子衍射分析

    Electron diffraction analysis of the twin and HCP phase formed in a FCC crystal

  6. 钛合金的六角密堆α相中微量氢所引起的内耗峰

    A internal friction peak due to trace hydrogen in h.c.p. lattice α - phase of titanium alloys

  7. 实验结果表明,铁在13.7GPa时发生相变,由体心立方相转变为六方密堆相,在18.1GPa时相变结束。

    The experimental results indicated that the process of bcc-hcp phase transition of iron initiated at 13.7 GPa and finished at 18.1 GPa .

  8. 从19世纪70年代投入运行以来,日本福岛第一核电站利用六个沸水堆,通过铀核裂变来产生热能。

    In operation since the early1970s , Japan 's Fukushima Daiichi nuclear plant uses six boiling water reactors , which rely on uranium nuclear fission to generate heat .

  9. 结果表明,SAN-01具有类似于MCM-41的六方平行密堆的孔道结构,平均孔径为6.00nm;

    The results show that SAN-01 possess the similar pore structure like MCM-41 ; the mean pore diameters of the samples are 6 . 00nm ;