具有模块化结构的汽车动力学仿真模型的初步研究

初步探讨了面向开发型驾驶模拟器的具有模块化结构的汽车动力学仿真模型建立方法，从而可以在此基础上进一步建立一套通用的面向结构的汽车动力学仿真程序，便捷地在开发型驾驶模拟器上实现对不同类型或同类型不同结构车辆性能的仿真。     

汽车精密成型技术现状与发展趋势刍议

简述了汽车精密成型技术的内涵、特点及其在汽车制造中的地位，较深入地分析了目前国内外精密冲压、精密铸造、精密锻造和精密焊接技术等汽车精密成型技术的发展现状，并指出汽车精密成型未来发展的主要趋势。     

车用发动机动态排放测试系统及其应用

介绍了某汽车开发中心发动机动态排放测试系统的系统构成、系统集成方法及部分试验结果。提出了发动机动态排放测试系统的具体构成，比较分析了发动机／测功器控制子系统的各种类型。由此，得出动态排放测试系统的设备选型及实施方案，并通过图形给出系统安装调试完成后的试验结果。     

轿车前梁有限元分析

利用轿车前梁的CATIA模型建立其有限元模型。通过前悬架的ADAMS模型确定前梁的受力。应用这些方法将CAD、CAE有机的结合在一起，提高了有限元分析的效率和准确性。为了检验模型的精确程度，对前梁进行了静态加载试验。结果表明计算和试验结果有很好的一致性。     

城市公交客车发展趋势

本文从未来十年城市社会经济和文化发展的角度分析了公交客车发展的趋势:即动力设计环保化、形体设计大型化、技术配置多样化、性能选择人本化、信息沟通智能化、外观设计艺术化、操作系统自动化、应急设置可靠化、总成寿命同步缩短化、车身结构轻型化。     

独墩单铰支座曲线梁桥通病分析及治理

针对目前独墩单铰支座曲线梁桥出现的通病 ,就温度对其梁体的变位影响以及预应力等因素对其支座支反力的作用进行了实例剖析。在此基础上探讨此类桥梁的支承体系的病害整治对策 ,并通过加固实例的监测结果予以验证     

填石路基振动压实试验

通过选择压实设备来提高填石路基施工质量，探讨了施工过程中压实机具、铺层厚度、碾压遍数及沉降量等因素的相互关系以及影响填石路基施工质量的主要因素，为合理有效的填石路基压实工艺提供了依据。     

发动机燃用生物柴油-柴油-乙醇混合燃料的性能试验

为了降低柴油机燃用中等比例生物柴油-柴油混合燃料的污染物排放,在1 400r/min和2 000r/min不同负荷条件下,首先对比分析了发动机燃用生物柴油-柴油混合燃料与纯柴油的性能差异,然后在中等比例的生物柴油-柴油混合燃料中分别掺混10%和20%(体积比)的无水乙醇,测定了乙醇掺混比对发动机经济性、动力性和排放特性的影响。结果表明:与纯柴油相比,生物柴油-柴油混合燃料的有效燃油消耗率上升,动力性略有下降,炭烟排放降低,而NO_x排放升高。随着乙醇掺混比的增大,生物柴油-柴油-乙醇混合燃料的有效燃油消耗率升高,小负荷时受乙醇汽化潜热的影响导致有效热效率下降,中等负荷时乙醇对有效热效率的影响不大,而大负荷时乙醇的高含氧量能够提高发动机的有效热效率。1 400r/min和2 000r/min全负荷条件下,发动机的最大功率随乙醇掺混比的增大而下降。在不同负荷条件下,随着生物柴油-柴油-乙醇混合燃料中乙醇掺混比的增大,发动机的炭烟、NO_x和CO排放逐渐降低,小负荷时乙醇的高汽化潜热导致HC排放明显升高。     

Integrated evasive manoeuvre assist for collision mitigation with oncoming vehicles

Development and deployment of steering based collision avoidance systems are made difficult due to the complexity of dealing with oncoming vehicles during the evasive manoeuvre. A method to mitigate the collision risk with oncoming vehicles during such manoeuvres is presented in this work. A point mass analysis of such a scenario is first done to determine the importance of speed for mitigating the collision risk with the oncoming vehicle. A characteristic parameter was identified, which correlates well with the need to increase or decrease speed, in order to reduce the collision risk. This finding was then verified in experiments using a Volvo XC90 test vehicle. A closed-loop longitudinal acceleration controller for collision mitigation with oncoming vehicles is then presented. The longitudinal control is combined with yaw stability control using control allocation to form an integrated controller. Simulations in CarMaker using a validated XC90 vehicle model and the proposed controller showed consistent reductions in the collision risk with the oncoming vehicle.     

Feature-Based Cad System Buildup for Passenger Airbag Design

The passenger airbag (PAB) requires a large volume and fast deployment because of the large distance between the dashboard and the passenger. And various shapes and sizes of the PAB are required depending on the type of vehicle. However, since the PAB modeling process for each design change is complicated and time consuming, the design parameters of the PAB could not be well investigated. In this study, a unique feature-based CAD system has been proposed that easily constructs PAB CAD model and then generates PAB FE model for collision analysis. Main keypoints and widths of PAB that determine the shape and size have been extracted by analyzing the geometric-feature of airbag. The PAB CAD model can be easily constructed by inputting keypoints and widths information. Then, from the constructed PAB CAD model, the PAB FE model is automatically generated. Finally, the generated PAB FE model can be directly employed for collision analysis, thereby reducing the modeling time of the PAB and enabling efficient parametric studies on design.