| 1. | . . . from umbrella iabs beneath the city
来自阳伞公司地下实验室 |
| 2. | From umbrella iabs beneath the city
来自阳伞公司地下实验室 |
| 3. | The database system in iabs 2000 was developed by the entity extension data technique
Iabs2000中采用了autocad专有的实体扩展数据技术。 |
| 4. | The commands defined in iabs 2000 are embedded into the command group of autocad automatically so that the users can operate the commands with great facility
模块定义的命令自动嵌入到autocad的命令组中,可以很容易地操作这些自定义命令。 |
| 5. | With the mfc visual - programming technique , we developed friendly user interface for iabs 2000 and minimize the operation burden
充分利用了mfc强大的可视化编程技术,为iabs2000配备了良好的用户界面,使操作简单、快速,将用户的操作负荷降至最低。 |
| 6. | Because the design of unit structure follows the construction and control process , the operation sequence of iabs 2000 is consistent with the construction steps
系统流程结构的规划设计由于是面向钢管混凝土拱桥的施工过程以及控制过程,保持了与实际施工控制步骤的一致。 |
| 7. | There are mainly four units in iabs 2000 : user interface unit , pre - processing unit , fem calculation unit and post - processing unit . we emphasize explaining the pre - processing unit and the post - processing unit which are developed with objectarx
Iabs2000包括用户接口模块、前处理模块、有限元计算模块和后处理模块,本文的研究重点为在objectarx环境中开发的前、后处理模块。 |
| 8. | Based on the control process of construction of concrete - filled steel - tube arch bridge with large span , we describe the design and implemental method of the control system software iabs 2000 which is developed specially for the construction control of concrete - filled steel - tube arch bridge with large span
本文以大跨度钢管混凝土拱桥的施工控制过程为研究基础,阐述了专用于钢管混凝土拱桥施工控制的系统软件iabs2000的设计方案及实现方法。 |
| 9. | It brings ollt a fem model to calculate lateral earth pressures behide the integral - abutment with considering the inieraction of eallh and abdrient . aiming at the two inherent behavioral deficiencies inherent in all iabs " summer lateral earth . pressure increases after each temperature cycle ; and the settlement adjacent to each abutment develops after each temperatllre cyc1e , this article brings out two method to solve or relieve the above two problems
本文针对整体式桥台桥梁的台后填土存在着土压力逐年增大以及台后填土的沉降问题,建立了整体式桥台桥梁的台与土共同作用的有限元计算模型;并以台后填土为研究对象,提出两种主要处理方法:台后设置eps压缩层方案,选用台后土加筋或置换轻填土方案;通过有限元分析计算了季节性温度荷载变化下产生的位移在上述处理方法中对于台后土压力的影响。 |
