1) the orbit superposition
轨道重叠
1.
The bond variation has the close relation with the ion polarization,the electron nonlocality and the orbit superposition.
键型变异是与离子极化、电子离域以及轨道重叠等因素密切相关的,只要某种条件具备,就会产生与这种条件相应的成键作用。
2) orbital overlap population
轨道重叠布居
3) radar overlapped image orbit(ROIO)
雷达成像重叠轨道
1.
,by-product of the separation) on radar observation,the concept of radar overlapped image orbit(ROIO) is introduced.
针对运载火箭二级助推器及分离时产生的大的碎片对雷达观测可能造成的影响,阐述了雷达成像重叠轨道的概念,分析了雷达部署位置与火箭载荷轨道面的相对关系,雷达成像重叠轨道(RO IO)在空间中的确定方法,地球旋转及助推器飞行中的轨道突变对RO IO确定的影响等。
4) overlap tunnel
重叠隧道
1.
Analysis of deformation regularity of stratum above overlap tunnel;
重叠隧道上覆地层变形规律分析
2.
Construction technology of overlap tunnel in Laoda zone of Shenzhen metro;
深圳地铁老大区间(西段)重叠隧道施工技术
5) Overlapped tunnel
重叠隧道
1.
In the paper,the pattern of the surface subsidence caused by tunnel construction,such as the scope of the surface subsidence caused by overlapped tunnel construction,the magnitude of t.
深圳地铁一期工程国贸站—老街站区间暗挖隧道设计为单洞双层重叠隧道,国内地铁工程首次采用该种特殊结构形式,隧道采用台阶法分四步开挖。
2.
To investigate the evolving regularity of structural internal force governed by tunneling of overlapped tunnels,3-D elastic-plastic numerical simulations were conducted on two overlapped tunnels in Laojie-Dajuyuan section of the Shenzhen metro.
为了探讨重叠隧道近接施工引起的结构内力演变规律,以深圳地铁老街—大剧院区间重叠隧道为背景,进行了三维弹塑性有限元分析。
3.
It is the first time in China that the construction of the overlapped tunnels is executed after the pile foundations of a large building with large axial forces are underpinned and cut.
对高大建筑进行大轴力桩基托换后再截桩进行重叠隧道施工在国内尚属首例,施工中不仅要保证桩基托换过程中建筑物的安全与稳定,还要控制下方隧道穿越过程中托换桩与结构柱的沉降,确保结构稳定。
6) overlapping tunnel
重叠隧道
1.
Taking the overlapping tunnel of Shenzhen Metro Phase I project for example,the FLAC~3D (fast Lagrangian analysis of continua)codes was adopted to model the stratum 3D deformation regularity caused by four-step shallow tunnel construction method(STCM).
以在建的深圳地铁I期工程重叠隧道为例,采用FLAC3D非线性大变形程序对重叠隧道暗挖四步台阶法施工引起的地层三维变形规律进行了数值模拟研究。
补充资料:轨道重叠布居
分子式:
CAS号:
性质:根据马利肯提出的布居数分析方法,如果分子体系的分子轨道甲,则属于A原子的μ轨道和B原子的v轨道的重叠布居为,其中ni为分子轨道φi上的电子数,SAμ,Bυ为重叠积分。而总原子布居(gross atomic population)为,净原子布居(net atomic population)为,其中qA为A原子的核电荷。
CAS号:
性质:根据马利肯提出的布居数分析方法,如果分子体系的分子轨道甲,则属于A原子的μ轨道和B原子的v轨道的重叠布居为,其中ni为分子轨道φi上的电子数,SAμ,Bυ为重叠积分。而总原子布居(gross atomic population)为,净原子布居(net atomic population)为,其中qA为A原子的核电荷。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条