内燃机活塞-缸套-活塞环系统工作状态的识别方法

提出了一种基于证据理论方法的内燃机活塞—缸套—活塞环系统工作状态的识别方法。通过搭建试验台架,从实车试验中获取曲轴箱压力信号和机身振动加速度信号;提取试验特征值,组建模型样本和试验样本,并运用证据理论信息融合方法对内燃机的工作状态进行识别。研究结果表明:应用证据理论信息融合方法融合曲轴箱压力信号和机身振动加速度信号,进而识别活塞—缸套—活塞环系统的工作状态这一方法有效、可行。     

淀粉改性聚乙烯醇缩甲醛胶粘剂的研究

用淀粉对聚乙烯醇缩甲醛进行改性,制得了一种新型胶粘剂.讨论了尿素用量、酸的浓度、pH值、缩合温度、淀粉用量、固含量对胶粘剂粘度的影响.该胶粘剂适用于煤堆及垃圾的覆盖,它具有初粘性强、耐水性好、储存稳定、制备和使用简便等优点.     

多缺陷桩的瞬态响应及波形识别

基于回传射线矩阵法,研究两缺陷桩在半正弦脉冲激振力作用下桩顶的速度波,基桩的缺陷用横截面积的变化来模拟.比较缺陷桩与完整桩的桩顶速度波,分析缺陷程度对缺陷桩桩顶速度波的影响,得出一些有意义的结论.     

田庄台辽河大桥预应力混凝土孔道真空灌浆施工

主要叙述田庄台辽河大桥预应力孔道真空灌浆的实施过程,通过过程的叙述,介绍真空灌浆的原理、施工工艺、质量控制要点及施工注意事项。     

稀浆封层技术在道路养护中的应用

阐述了稀封层混合料的特点及稀浆封层技术的应用范围。     

有损伤简支桥梁的波动分析

大跨度桥梁这种大、轻、柔结构在承受扰动时,响应呈现明显的波动现象.出于对该类结构进行局部控制和健康安全监测的需要,应用回传射线矩阵法,对方波脉冲作用下的有损伤简支桥梁进行波动分析.桥梁结构的局部损伤用减小单元的杨氏模量来模拟.比较方波作用下有损伤结构与无损伤结构跨中处的弯矩波,研究损伤程度对弯矩波的影响.结果表明,当方波脉冲以力偶方式作用时,通过结构跨中处的弯矩波曲线能够准确的判断损伤存在,确定损伤位置和损伤区域.     

十堰汽配竞争策略分析

我国汽配产业整体竞争能力呈下滑趋势。面临很大的竞争压力。十堰作为我国汽配产业起步较早的城市,随着东风公司迁都武汉,以及其零部件全球采购策略的贯彻,使得十堰市零部件产业面临着转型。因此,提升十堰汽配的核心竞争力是下一步工作的重点。文章描述了我国汽配产业的现状,分析了十堰汽配的竞争能力,并提出了十堰汽配的竞争策略。     

基于PID控制的电控空气悬架系统设计

以飞思卡尔公司16位单片机MC9S12DP256为核心控制单元,基于PID控制策略,并利用Matlab、Labview软件。针对气囊-组合电磁阀,对电控空气悬架的软、硬件控制系统进行设计。控制系统可较好地控制车身高度,抑制系统振荡,改善电控空气悬架的性能。     

Design optimization of a torpedo shell structure

An optimized methodology to design a more robust torpedo shell is proposed. The method has taken into account reliability requirements and controllable and uncontrollable factors such as geometry, load, material properties, manufacturing processes, installation, etc. as well as human and environmental factors. The result is a more realistic shell design. Our reliability optimization design model was developed based on sensitivity analysis. Details of the design model are given in this paper. An example of a torpedo shell design based on this model is given and demonstrates that the method produces designs that are more effective and reliable than traditional torpedo shell designs. This method can be used for other torpedo system designs.     

An investigation of the performance of an electronic in-line pump system for diesel engines

WIT Electronic Fuel System Co., Ltd. has developed a new fuel injector, the Electronic In-line Pump （EIP） system, designed to meet China＇s diesel engine emission and fuel economy regulations. It can be used on marine diesel engines and commercial vehicle engines through different EIP systems. A numerical model of the EIP system was built in the AMESim environment for the purpose of creating a design tool for engine application and system optimization. The model was used to predict key injection characteristics under different operating conditions, such as injection pressure, injection rate, and injection duration. To validate these predictions, experimental tests were conducted under the conditions that were modeled. The results were quite encouraging and in agreement with model predictions. Additional experiments were conducted to study the injection characteristics of the EIP system. These results show that injection pressure and injection quantity are insensitive to injection timing variations, this is due to the design of the constant velocity cam profile. Finally, injection quantity and pressure vs. pulse width at different cam speeds are presented, an important injection characteristic for EIP system calibration.