| 1. | Space systems - flywheel rotor assemblies
空间系统.飞轮转子组件 |
| 2. | Thermal analysis and research on magnetically suspended flywheel rotor
磁悬浮飞轮转子组件温度场分析与研究 |
| 3. | Finally , based on the elasto - plasticity theory , plastic design and analysis for metal hub of flywheel was performed
最后,利用弹塑性理论,对飞轮转子的金属轮毂进行弹塑性设计与分析。 |
| 4. | Then , numerical simulation and evaluation for the total flywheel system was performed by the fem software
利用有限元软件,对高转速下弹塑性工作状态下的整个飞轮转子系统,进行了数值计算及仿真模拟。 |
| 5. | In order to obtain higher energy density , the flywheel is made of high strength cfrp ( carbon fiber reinforced plastic ) and aluminum alloy
为了获得较高的储能密度,飞轮转子通常由高强度碳纤维复合材料及轻质合金制造。 |
| 6. | Flywheel battery is a typically electromechanical and electromagnetical product with some main parts : high speed flywheel , magnetic bearing system , motor / generator , etc
它主要由高速飞轮转子、磁浮轴承系统、电动发电机等组成,是一种典型的机电磁一体化产品。 |
| 7. | Then , according to the basic theory of elastic mechanics and composite mechanics , basic equations and fortran program for the multi - ring composite flywheel rotor were presented
然后,基于弹性力学、复合材料力学的基本理论,推导出了多环套装复合材料飞轮转子的基本解析解答。 |
| 8. | By plastic design , the speed limit of the flywheel was 42038 rpm , with the energy storage value of 3 . 6 kwh , and the energy storage of 129 wh / kg ( which is 49 % more than elastic design )
经过弹塑性理论设计的飞轮转子,极限转速42038rpm ,储能总量达到了3 . 6kwh ,储能密度为129wh kg ,比弹性设计提高49 。 |
| 9. | On the basis of the analysis of all sorts of stress analysis methods , the stress distributions of flywheel rotors with different structures and different materials are analyzed quantitatively and compared
在分析了飞轮转子各种应力分析方法优缺点的基础上,对不同材料不同结构的飞轮转子的应力分布作了定量分析和比较。 |
| 10. | Lately , the limited speed of flywheel rotor has been increased to 200 , 000 rpm , and the energy storage density has been increased to 134 wh / kg . moreover , the theoretic energy storage density could reached 306 wh / kg
目前飞轮转子最高转速达到20万转每分,储能密度也达到134wh kg ,其理论储能密度甚至高达306wh kg 。 |
