1·A high strength, small differences in vertical and horizontal force.
强力高,纵横向强力差异小。
2·The model of additional horizontal force that affects the stability of rolls was set up.
建立了影响辊系稳定性的附加水平力模型。
3·The maximum horizontal force that the pier must resist and the longitudinal stress of the stringer are studied.
并计算施工过程中墩顶必须承受的最大水平拉力以及钢纵梁的最大轴向压应力。
4·When the earthquake happens, seismic horizontal force will transfer into pier through energy dissipation device.
地震发生后,梁体地震水平力将通过减震装置传至桥墩。
5·The chaotic motion of a nonlinear viscoelastic rigid basic pile subjected to an axial force and a periodic horizontal force was investigated.
研究了在轴向载荷和周期性横向载荷共同作用下非线性粘弹性嵌岩桩的混沌运动情况。
6·Setting modern cold-strip rolling mill's offset is due to mechanical restriction which keeps the stability of the roll system, and is produced by horizontal force.
现代冷带轧机的偏移距设置源于保证轧机辊系稳定性的力学约束,靠轧机辊系在负载状态下作用于轧辊的水平力来实现。
7·The influencing regular pattern of depths of deflection point, line slope and casing dimension on horizontal force of directional wellhead is analyzed by case calculation.
通过算例,分析了造斜点井深、造斜率以及套管尺寸对井口水平力的影响规律。
8·After preliminary calculating, some imperfections of the former design in this structure, such as weak stiffness, large horizontal force at both end supports and so on, were found.
在经过初步的计算之后,发现该结构的原设计方案存在刚度不足及两端推力过大等问题。
9·It is also pointed out that in high formwork support system design, 2% vertical force applied as horizontal force on weaker side of formwork stiffness can assure the structure security.
指出进行高支模设计时,施加2%竖向力作为水平力作用在架体刚度弱侧能够保证结构安全。
10·The numerical results reveal that a great horizontal force acting on the aqueduct body may occurred during strong earthquake. This action must be considered in seismic resistance design.
计算表明:强震时,流体对槽身可能会产生很大的横向水平力,建议在抗震设计时考虑这一作用因素。