东南富利卡R4AW4-C-FI型自动变速器及其检修(五)——自动变速器维修技术系列讲座之十

二、自动变速器的组装 富利卡R4AW4—C—FI型自动变速器的组装步骤如下: 1.如图73所示,安装叶片弹簧。     

浅谈技术站如何搞好“非正常行车培训”

针对技术站的站场设置及行车人员分工特点，提出了围绕教材的选用，培训方式、方法的使用，责任意识的强化来搞好“非正常行车”培训。     

本田雅阁轿车ABS系统的检测与维修

本田雅图轿车ABS系统是采用四传感器四通道/四轮独立控制方式,下面以2.3VTi轿车为例来简单介绍其ABS系统的检测与维修.     

齿轮强化抛丸机的设计

在简述了齿轮强化喷丸原理与加工条件的基础上,分析了齿轮强化喷丸工艺对设备设计提出的要求及齿轮强化抛丸设备的结构特点。介绍了齿轮强化抛丸机的一般类型,并结合我公司齿轮强化抛丸设备设计实际,论述了总体设计方面的若干问题和主要部件的设计。     

槽罐车对LNG双燃料动力船舶充装操作方法

针对国内配套船舶LNG燃料加注的研究尚处于起步阶段,介绍了槽罐车对双燃料船LNG储罐加注操作方法,对船用LNG储罐的吹扫及预冷、首次充液、船用LNG储罐的应用及安全注意事项和应急措施进行了介绍说明,为类似地区槽罐车和气趸船对双燃料船舶加注系统的设计和应用提供参考。     

铁道客车悬挂系统柔度特性

建立了装备空气弹簧的车辆系统数学模型,推导了悬挂系统柔度系数计算公式,分析了悬挂参数对车辆柔度系数的影响规律。设计了重锤法、角度测量法和加速度测量法测定悬挂系统柔度系数。利用重锤法对某车辆进行测试,分析不同载质量和外轨超高工况下的动、拖车柔度系数分布。理论计算结果表明：提高悬挂系统刚度,增大悬挂系统横向跨距,降低车体和构架的重心高度均可减小柔度系数,从而可提高车辆的抗倾覆性能。试验结果表明：拖车柔度系数大于动车柔度系数,空载时相差0．021,重载时差异不大;重载时的柔度系数大于空载状态的柔度系数,最大相差0．109;最恶劣工况为拖车重载状态,柔度系数最大值为0．245。柔度系数随着外轨超高的增加而增大,且超高越大,柔度系数增长速度越快,因此,在大超高线路上应严格控制车辆柔度系数。试验结果验证了理论分析的可信性,且理论公式考虑的悬挂系统参数全面。     

路基支挡工程形式的分析及对比

结合云桂线铁路的施工图具体设计,对不同路基支挡工程的特点及适用条件进行了分析和总结,并分别对路堑及路堤的相近支挡结构进行了具体比较,总结出了不同地形条件下适用的路基支挡结构形式。     

新建半潜运输船在张力腿平台运输方面的应用研究(英文)

Transportation of tension leg platform(TLP) structures for a long distance has always been associated with the use of a heavy semi-transport vessel.The requirements of this type of vessel are always special,and their availability is limited.To prepare for the future development of South China Sea deepwater projects,the China Offshore Oil Engineering Corporation has recently built a heavy lift transport vessel-Hai Yang Shi You 278.This semi-submersible vessel has a displacement capacity of 50k DWT,and a breath of 42 meters.Understanding the vessel’s applicability and preparing it for use in future deepwater projects are becoming imminent needs.This paper reviews the current critical issues associated with TLP transportation and performs detailed analysis of the designed TLP during load-out and transportation.The newly built COOEC transportation vessel HYSY 278 was applied to dry transport of the TLP structure from the COOEC fabrication yard in Qingdao to an oil field in South China Sea.The entire process included the load-out of the TLP structure from the landsite of the fabrication yard,the offloading and float-on of the platform from the vessel,the dry transport of the TLP over a long distance,and the final offloading of the platform.Both hydrodynamic and structure analysis were performed to evaluate the behavior of the transport vessel and TLP structure.Special attention was paid to critical areas associated with the use of this new vessel,along with any potential limitations.The results demonstrate that HYSY 278 can effectively be used for transporting the structure with proper arrangement and well-prepared operation.The procedure and details were presented on the basis of the study results.Special attention was also given to discussion on future use based on the results from the analysis.