客车转向垂臂的设计与校核

介绍客车转向系统传动机构中的转向垂臂的设计与校核,并给出范例。     

Simulation study on the operating characteristics of a hybrid hydraulic passenger car with a power split transmission

In this paper, a hybrid hydraulic passenger car (HHPC) coupled with a power split continuously variable transmission (P-CVT) is proposed. This P-CVT is capable of splitting the power from the internal combustion engine into mechanical and hydraulic power flows. By adjusting the ratio of the mechanical power to hydraulic power, the P-CVT enables the transmission ratio to be changed continuously. Meanwhile, the P-CVT system can capture the braking energy and store it in the hydraulic accumulator for the next assistant driving. In order to quantitatively investigate the effect of applying P-CVT on improving the fuel economy and operating performance for the HHPC, a numerical simulation is conducted under typical city driving conditions. The simulation results demonstrate that, the P-CVT permits the engine to be run under a more efficient operating range. The total fuel consumption of the HHPC is reduced by 16.4% under the test conditions, compared with that of the original car.     

Dynamics of railway wagons subjected to braking torques on defective tracks

It is well known that track defects cause profound effects to the dynamics of railway wagons; normally such problems are examined for cases of wagons running at a constant speed. Brake/traction torques affect the speed profile due to the wheel–rail contact characteristics but most of the wagon–track interaction models do not explicitly consider them in simulation. The authors have recently published a model for the dynamics of wagons subject to braking/traction torques on a perfect track by explicitly considering the pitch degree of freedom for wheelsets. The model is extended for cases of lateral and vertical track geometry defects and worn railhead and wheel profiles. This paper presents the results of the analyses carried out using the model extended to the dynamics of wagons containing less ideal wheel profiles running on tracks with geometry defects and worn rails.     

316L/16MnR不锈钢与容器钢爆炸复合板性能

针对316L/16MnR不锈钢与容器钢爆炸复合板,选取合理的爆炸焊接参数,对其性能进行系统的试验研究.研究表明,复合板在爆炸复合及正火状态下的界面结合率、界面剪切强度、界面粘结强度、拉伸、冷弯、冲击、扭转、硬度、金相、晶间腐蚀及对接接头的组织和性能等,均获得了满意的效果.热处理后复合钢板的各项技术指标均超过了美国、日本、德国等各国国家标准所规定的指标要求,可用于制造工业领域中的压力容器等设备.     

系统架构浅析

ERP产品在对连锁企业系统架构支持上进行了较大的完善,为用户提供了多种系统部署方案,用户可根据自己的连锁管理模式、连锁体系布局、网络硬件环境等条件因素,选择适合的连锁系统架构。     

200km/h EMU轴箱体加工关键尺寸控制

介绍了200 km/h EMU轴箱体的加工工艺,对所用的设备及相关的工艺控制要求分别进行了阐述,对关键尺寸制定了详细的加工工艺,保证了产品质量。     

300 km/h动车组用12kVA辅助变压器国产化研制

文章介绍了300 km/h动车组用12 kVA辅助变压器的主要技术参数、结构特点及关键技术。     

Study on driver model for hybrid truck based on driving simulator experimental results

In this paper, a proposed car-following driver model taking into account some features of both the compensatory and anticipatory model representing the human pedal operation has been verified by driving simulator experiments with several real drivers. The comparison between computer simulations performed by determined model parameters with the experimental results confirm the correctness of this mathematical driver model and identified model parameters. Then the driver model is joined to a hybrid vehicle dynamics model and the moderate car following maneuver simulations with various driver parameters are conducted to investigate influences of driver parameters on vehicle dynamics response and fuel economy. Finally, major driver parameters involved in the longitudinal control of drivers are clarified.     

减摇鳍/水舱联合减摇系统模糊自适应滑模控制

针对减摇鳍和被动式减摇水舱设备在不同航速下的减摇特点,建立了船舶减摇鳍/水舱联合减摇系统的横摇数学模型。结合模糊自适应控制良好的逼近特性和滑模控制算法对扰动和模型参数变化的不灵敏性,设计了减摇鳍/水舱联合减摇系统的模糊自适应滑模控制器。采用实船参数的仿真结果表明,所设计的控制器具有良好的自适应性和鲁棒性,减摇鳍/水舱联合减摇控制系统在不同海况和不同航速下均具有良好的减摇效果。     

掺烧乙醇/水对柴油机燃烧与排放性能的影响

针对TBD234V6型柴油机,采用AVL-fire软件对额定工况下,不同乙醇/水掺混比进行三维数值模拟研究,对比分析缸内压力、缸内温度、缸内温度场、燃烧放热率、NOx浓度、NOx浓度场、Soot浓度、Soot浓度场,并通过赋权法确定最优乙醇/水掺混比。结果表明：随着乙醇/水掺混比的增加,缸内压力逐渐升高,燃烧放热率滞后,燃油消耗率呈上升趋势,但在0E10W时,最高燃烧压力下降率约为3.7%;燃油消耗率下降0.38%;缸内高温分布区域缩小,NOx和Soot浓度下降。通过计算确定最优掺混比为20E10W,此时,最高燃烧压力提升5.6%,燃油消耗率上升2.41%,NOx排放下降率约为18.8%,Soot排放下降率约为29.6%。研究结果可为船用柴油机采用柴油/乙醇/水三燃料燃烧提供一定的指导依据。