| 1. | Analysis on causes of inclined crack on the top of concrete beam end
砼梁端上部斜裂缝的原因分析 |
| 2. | Effective supporting length at end of beam
梁端有效支承长度46 |
| 3. | An inquiry into amplitude regulation of bending moment within beam end
关于梁端弯矩调幅问题的探讨 |
| 4. | The measure of preventing cracking at prestress concrete beam and end
预防预应力混凝土梁端开裂的措施 |
| 5. | Polynomial approximation method of canopy track for powered supports
液压支架梁端轨迹的多项式逼近方法 |
| 6. | Local stress distribution and effective supporting length on beam pan measuring
梁端垫块局压应力分布及有效支承长度测定 |
| 7. | Experimental study on anchorage schemes of rc beams strengthened with gfrp sheets
玻璃纤维布加固的钢筋混凝土梁端部锚固试验研究 |
| 8. | General solutions of smart materials and structures part two : intelligent cantilever beam under tension
悬臂梁梁端受轴向集中力作用 |
| 9. | Study of the influence of anchor situation on coordination coefficient of the corroded reinforced concrete beam
梁端锚固情况对锈蚀梁协同工作系数影响研究 |
| 10. | General solutions of smart materials and structures part three intelligent cantilever beam subjected to a transverse concentrated force
悬臂梁梁端受横向集中力 |
