| 1. | Refined determination of vertical deflection in china mainland area 我国陆地垂线偏差精化计算 |
| 2. | Vertical deflection oscillator 帧扫描振荡器 |
| 3. | This paper gives a model of trigonometric leveling of atmospheric refraction and vertical deflection , then analyses every part of its accuracy and give a lists to analyses all kinds of effects caused by the errors of triangle leveling 摘要首先建立了大气折光和垂线偏差的三角高程测量模型,并对模型的精度进行了逐项分析,列表分析了各种误差对三角高程测量的影响。 |
| 4. | From the results , we can see that jinhuai bridge has no noticeable vertical deflection peak . it is mainly because of the restrictions of some parameters such as velocity of the vehicle on highway and damping of the bridge , which can limit the peak values 计算结果表明,公路桥梁也存在多个瞬态响应相互叠加的问题,但由于受车辆行驶速度和阻尼因素的影响,津淮刚架拱桥没有出现明显的共振峰值。 |
| 5. | In the thesis , the design issues of repairing and strengthening reinforced concrete structure using ferrocement have been provided , and the equations of brittle ratio , cracking load , ultimate load and vertical deflection have been inferred too . at last , a conclusion is shown that the theoretical equations share a good agreement with the experimental results of the tested beams 本文就钢丝网复合砂浆加固受弯构件的设计进行了探讨,提出了界限加强率、开裂荷载、极限荷载以及挠度的计算公式,并将计算公式的结果与试验结果进行比较,取得了较好的吻合。 |
| 6. | The paper discuss the design issue of repairing and strengthening reinforced concrete structure using prestressed carbon fiber sheet , presents the equations of brittle ratio , cracking load , ultimate load and vertical deflection , and come to a conclusion that the equation of vertical deflection can get quite accurate result 本文就预应力碳纤维布加固受弯构件的设计进行了探讨,提出了界限加强率、开裂荷载、极限荷载以及挠度的计算公式,并将挠度计算公式的结果与试验结果进行比较,取得了较好的吻合。 |
| 7. | At last , it is shown in the conclusion that the theoretical equations share a good agreement with the experimental results of the tested beams . by statistical analysis to the number of experimental data , this dissertation puts forward the profile ferrocemnet influence coefficient of ultimate load and vertical deflection for the first time 对二次受力试件的滞后应变进行了分析,在此基础上提出了二次受力受弯构件的界限加强率、极限荷载承载力以及挠度的计算公式,计算结果与试验结果吻合较好。 |
| 8. | Abstract : with the increasing of suspension bridge ? s span , the gravity stiffness of suspension cable itself is more important than vertical deflection resistance stiffness of stiffening girder which is serviced for the whole structure . in order to provide more knowledge of gravity stiffness of suspension cable , in this paper , gravity stiffness of suspension cable is formulated briefly and theoretically in case of ignoring the existing of the stiffening girder . the deformation and internal force of suspension cable can be calculated approximately in this way 文摘:随着悬索桥跨度的增大,加劲梁的竖向抗弯刚度提供给整个桥跨结构的刚度仅占次要地位,而悬索自身的重力刚度却占有重要的作用.为加深对重力刚度的进一步认识,笔者对特大跨度的悬索桥的重力刚度进行简要的理论推导,在忽略加劲梁存在的情况下,可近似地计算悬索桥的变形和内力 |