模糊决策理论在汽车内部设计方案评价中的应用

方案评价是产品设计过程中的重要环节。分别应用模糊综合评判法、基于模糊集重心的模糊评价法和二元对比排序法对汽车内部设计方案进行定性评价,并对3种方法的评价结果进行了比较。此外,还给出了一个关于A柱盲区定量评价的实例,并建立了整车内部布置与设计的多级评价体系。指出了进一步实现基于知识工程的整车设计评价还需要解决的其他关键技术。     

ANSYS在东风EQ140汽车车架刚度分析中的应用

应用ANSYS软件,完成了东风EQ140型汽车车架的刚度分析过程。通过建模、加载、解算及后处理等一系列步骤获得车架的扭转变形及应力,揭示出车架横梁在后桥支撑点存在扭转变形最大的问题,为车架的优化设计提供了重要依据。     

Assessment of the influence of the elastic properties of rail vehicle suspensions on safety,ride quality and track fatigue

A sensitivity analysis has been performed to assess the influence of the elastic properties of railway vehicle suspensions on the vehicle dynamic behaviour. To do this, 144 dynamic simulations were performed modifying, one at a time, the stiffness and damping coefficients, of the primary and secondary suspensions. Three values were assigned to each parameter, corresponding to the percentiles 10, 50 and 90 of a data set stored in a database of railway vehicles. After processing the results of these simulations, the analysed parameters were sorted by increasing influence. It was also found which of these parameters could be estimated with a lesser degree of accuracy in future simulations without appreciably affecting the simulation results. In general terms, it was concluded that the highest influences were found for the longitudinal stiffness and the lateral stiffness of the primary suspension, and the lowest influences for the vertical stiffness and the vertical damping of the primary suspension, with the parameters of the secondary suspension showing intermediate influences between them.     

The dynamic response of rail support

This research reviews principles behind the dynamic response of rail supports, and introduces a method of analysis to find the maximum response in a realistic setting. Assuming a time-dependent, moving mass with massive wheels is essential, because the ratio of the moving mass to the rail mass is significant. However, the dynamic response of the track is not affected by dynamic properties of the train other than its unsprung mass, because the natural frequencies of the train suspension and track are significantly different. A numerical method is developed to model the dynamic response based on these principles, and applied to the Korean urban transit. The dynamic response includes multiple peaks with a large amplitude range, creating noise while the wheel passes the support. The dynamic impact factor (DIF) for the rail support depends mainly on the stiffness and damping of the rail support. The DIF for the rail moment is below the code value, whether this value is based on numerical analysis or on-site measurements. However, our numerical analysis results in a DIF for support settlement that is greater than the code value, if the damping is less than 3%.     

用MATLAB计算发动机悬置系统的固有频率和主振型

介绍了计算发动机橡胶悬置系统固有频率和主振型的过程,利用MATLAB编程并验证程序的正确性。通过程序的运行,能快速获得悬置振动系统的固有特性,为设计人员判断悬置系统是否会发生共振提供理论依据,也为进一步分析系统的响应打下了必要的基础。     

单轴加速度计在轴功率测量中的应用研究

介绍了一种利用重力加速度测量旋转机械主轴转速的方法,通过单轴加速度计与计算机技术的融合,实现了轴转速的测量,该方法提供了轴输出功率测量的一体化方案,安装操作简单成本低廉,能够适应较为复杂的测量环境要求。     

Experimental research on dynamic vibration absorber with negative stiffness for longitudinal vibration control of propulsion shafting system北大核心CSCD

［Objectives］In order to control the first longitudinal vibration mode of propulsion shafting systems, a dynamic vibration absorber with disc spring negative stiffness is proposed and its experimental verification carried out. ［Methods］A test bench is established for the propulsion shafting system containing a dynamic vibration absorber with negative stiffness. According to the first longitudinal vibration mode of the shafting, a dynamic vibration absorber with negative stiffness integrated into the thrust bearing is developed. Vibration transmission tests under different rotational speeds, static thrusts and negative stiffness are then carried out, and acceleration response data on the thrust bearing foundation and shafting is obtained. ［Results ］ The results show that the developed dynamic vibration absorber with negative stiffness can achieve vibration suppression of 7.8 dB for the thrust bearing foundation in the first longitudinal mode of the propulsion shafting with a mass ratio of 1.6%, and the vibration control effect of the negative stiffness dynamic vibration absorber is maintained at 3.3 dB when the natural frequency changes by 5% and the thrust changes by 40%. The vibration response on the thrust bearing foundation and shafting do not deteriorate even at non-optimal negative stiffness. ［Conclusions］This study shows that a dynamic vibration absorber with negative stiffness can effectively suppress vibration transmission at the first longitudinal mode of a shafting under different rotational speeds. © 2023 Authors. All rights reserved.     

重力式码头墙身沉降位移 不均匀沉降缺陷防治

对重力式码头沉降位移的现象、原因和危害进行了分析,提出了预防措施,在鲅鱼圈港区四期工程54#～56#集装箱泊位实施后,取得了良好的效果。     

钢夹层板数值模拟技术

Sandwich plate systems (SPS) are advanced materials that have begun to receive extensive attention in naval architecture and ocean engineering. At present, according to the rules of classification societies, a mixture of shell and solid elements are required to simulate an SPS. Based on the principle of stiffness decomposition, a new numerical simulation method for shell elements was proposed. In accordance with the principle of stiffness decomposition, the total stiffness can be decomposed into the bending stiffness and shear stiffness. Displacement and stress response related to bending stiffness was calculated with the laminated shell element. Displacement and stress response due to shear was calculated by use of a computational code write by FORTRAN language. Then the total displacement and stress response for the SPS was obtained by adding together these two parts of total displacement and stress. Finally, a rectangular SPS plate and a double-bottom structure were used for a simulation. The results show that the deflection simulated by the elements proposed in the paper is larger than the same simulated by solid elements and the analytical solution according to Hoff theory and approximate to the same simulated by the mixture of shell-solid elements, and the stress simulated by the elements proposed in the paper is approximate to the other simulating methods. So compared with calculations based on a mixture of shell and solid elements, the numerical simulation method given in the paper is more efficient and easier to do.     

块石基床爆夯技术在重力式码头的应用及质量控制

爆夯技术近年在重力式码头抛石基床上得到广泛应用,本文结合福建某重力式码头基床、地基及水文的实际情况,总结块石基床水下爆炸夯实技术的设计、施工工艺、质量控制及爆破的安全控制,以供类似工程参考。