| 1. | This can be accomplished by mounting the elements on a heavy steel table placed on antivibration supports .
将元件装在沉重的钢制台面上,并将台面放在隔震支座上,即可满足这一要求。 |
| 2. | Test study on vertical property of rubber isolators
橡胶隔震支座竖向性能试验研究 |
| 3. | Bridge isolation based on sma - composite rubber bearing
复合橡胶支座的桥梁隔震 |
| 4. | Type sma - rubber bearing and its theoretical model
橡胶隔震支座及其理论模型 |
| 5. | Bridge isolation with sma - composite rubber bearing
复合橡胶支座的桥梁隔震 |
| 6. | Design and application of seismic - isolated frame buildings
框架隔震建筑设计方法及应用 |
| 7. | Research on shaking table test of base isolation building
基础隔震房屋模型振动台试验研究 |
| 8. | Effective factors on properties of laminated rubber bearing
叠层隔震橡胶支座性能的影响因素 |
| 9. | Application of sandwich rubber blanket shock isolation
夹层橡胶垫隔震技术在房屋建筑中的应用 |
| 10. | The study of the isolation effectiveness based on the energy law
基于能量法的隔震效果的研究 |
