| 1. | Theoretical analysis of energy dissipation during coal impact cutting
冲击破煤过程中能量耗散的理论分析 |
| 2. | Cyclic stress energy dissipation
周期应力能量耗散 |
| 3. | Experimental study of energy dissipation of porous rock under impact loading
冲击载荷下孔隙岩石能量耗散的实验研究 |
| 4. | Principle of energy dissipation
能量耗散原理 |
| 5. | Energy consumption and damage evolution of short - fibre composites under repeated low velocity impact
反复低速冲击下短纤维复合材料的能量耗散与损伤演变 |
| 6. | Energy dissipation in particulate - reinforced viscoelastic materials under the condition of high stress triaxiality
高三轴应力条件下粒子填充粘弹性材料的能量耗散 |
| 7. | These systems always employ damping devices to intensify the energy dissipation ability of civil engineering structures
这些系统通常是增加阻尼装置来增强结构的能量耗散能力。 |
| 8. | And the essential reason of influence of different frequencies on rock life was different rate of loading
幅值和波形影响的实质是能量耗散的不同,而频率影响疲劳寿命的实质在于加载速率的不同。 |
| 9. | From the view of energy dissipation , this paper study optimized assignment of sensor / actuator units with multipeak optimization algorithm - genetic algorithm
本文从能量耗散观点出发,利用多峰值优化算法? ?遗传算法对传感作动单元的优化配置问题进行了研究。 |
| 10. | In view of the above , the performance of energy dissipation of system consisting of fibers and concrete are studied theoretically and experimentally
鉴于此,本课题从理论和试验两个方面研究了碳纤维、芳纶纤维及其混杂物与混凝土构成的能量耗散体系对能量吸收、耗散和衰减的性能。 |
