| 1. | General specification for split stirling cryocooler
分置式斯特林制冷器总规范 |
| 2. | Computer aided analysis of ball joint in separated assistant s teering mechanism
分置式转向助力机构球头销计算机辅助分析 |
| 3. | Operation performance of the pneumatically - driven split - stirling - cycle cryocooler with clearance - phase - adjustor
狭缝调相式气动分置式斯特林制冷机的运行性能 |
| 4. | Hydraulic equipment for agricultural machinery - method for colour coding of remote hydraulic power services and controls on agricultural tractors
农用机械用液压设备.第8部分:农用拖拉机分置式液压和控制装置颜色编码方法 |
| 5. | Based on the characteristics of thermodynamics , the physical model of split - stirling crycooler was set up and artificial neural networks were imported into the model
本文基于热力学性质建立了分置式斯特林制冷机的物理模型,并将人工神经网络引入模型。 |
| 6. | Abstract : this paper analysed the kinematic properties of ball joint hi nged on the piston rod and steering drag link of a separated assistant steering m echanism , and the equations of the path and mathematical model of pressure angle were established
文摘:分析了分置式转向助力机构的液压缸活塞杆与转向直拉杆相铰接的球头销的运动特性,建立了其轨迹方程及压力角的数学模型。 |
| 7. | Compared with simulative value and experimental value of models , it indicated that the models were reliable and proved the emulational feasibility of artificial neural networks models in split - stirling crycooler , which could improve the precision of crycooler model greatly and provide strong theory for the research and development of actual crycooler
通过模型仿真值与实验值之间的比较,表明所建模型是可靠的,并证明了人工神经网络模型在分置式斯特林制冷机上仿真的可行性,从而大大提高了制冷机模型的精度,也为实际制冷机的研制和开发提供了有力的理论依据和技术指导。 |
| 8. | Numerical calculative simulation could factually reflect the dynamic characteristics of the whole equipment and inner flow and diathermancy of split - stirling crycooler . through the calculation , the velocity , temperature , pressure and other detailed information of airflow in any position inner the crycooler could be gained ; the distribution of each parameter could be confirmed and reasonable explanation for the experiment result could be made
数值计算模拟能接近真实地反映分置式斯特林制冷机的整机和内部流动、传热的动态特性,通过计算可以得到制冷机内部任一位置的气流流动的速度、温度、压力等详细信息,确定各参数的分布情况,并可以对实验结果做出合理的解释。 |
