| 1. | Code of practice for earth retaining structures
挡土结构实用规程 |
| 2. | Numerical analysis for stability against sliding of retaining wall with notched sill
齿坎式挡土结构抗滑稳定性分析 |
| 3. | Sheet retaining structure
板式挡土结构 |
| 4. | Bridges , high - rise buildings , underground structures , tunnels , retaining structures for deep excavations
桥梁高层建筑地下结构物隧道深开挖挡土结构 |
| 5. | Eurocode 8 . design of structures for earthquake resistance - foundations , retaining structures and geotechnical aspects
欧洲法规8 .抗震结构设计.地基挡土结构和土工特性 |
| 6. | Reinforce earth retaining wall is one of the main types which has been applied extensively at home and abroad
加筋土挡土结构是其主要的应用形式之一,在国内外已得到了广泛的应用。 |
| 7. | Eurocode 8 - design of structures for earthquake resistance - part 5 : foundations , retaining structures and geotechnical aspects
欧洲法规8 .抗震结构设计.第5部分:地基挡土结构和土工特性 |
| 8. | The earthquake damage of highway system shows that the failure of retaining structures is sometimes one of the main causes of road damage and bridge collapse
公路工程的震害表明,挡土结构的地震破坏,往往是造成道路受损、桥梁破坏的主要原因之一。 |
| 9. | The study on seismic inertia and seismic soil pressure is a significant task to be deeply treated with and improved in the s tatic analysis of retaining structures
地震惯性力和地震土压力的确定方法,是目前挡土结构的抗震分析中有待深入研究改进的课题。 |
| 10. | Consequently , it ' s of great engineering significances and potential economic effect to study the design theories and optimum methods of various types of highway rws
因此,深入探讨各种公路挡土结构的设计理论与方法,以及优化挡土结构的选型具有重要的工程实际意义和潜在的巨大经济效益。 |
