旋叶式压缩机的滑片顶部形状研究

通过建立旋叶式压缩机中滑片顶部与气缸壁接触点的运动关系式,得到了滑片顶部形状对接触点运动的影响规律,并由此分析了滑片顶部圆弧的形状对润滑及磨损的影响.理论计算及分析表明:存在滑片顶部圆弧的半径RV及圆心偏离滑片中心线的距离Rd的最佳值,使得滑片与气缸壁间能够形成良好的润滑条件,且接触点在整个滑片顶部圆弧范围内移动,不出现"尖点滑移"的现象.RV、Rd依气缸壁型线、滑片厚度、滑片倾斜角的不同而异.依据上述理论,对某工业用压缩机的滑片顶部形状进行了优化.试验研究表明,经800h运转后的滑片形状与优化的顶部圆弧形状相近,从而验证了本文理论分析的合理性.     

油、水介质对GCr15钢微动磨损特性的影响

采用PLINT高精度液压伺服式微动磨损试验机,在法向载荷100N、频率2Hz、位移幅值1 5～60μm,以及大气、纯净水和液压油3种不同介质条件下,对GCr15钢进行了微动磨损试验.动力学分析结合光学显微镜和激光共焦扫描显微镜(LCSM)的微观观察结果显示:流体介质对微动运行区域有轻微改变;液压油和纯净水介质明显降低了微动摩擦因数、磨痕深度和磨斑尺寸,表现出明显的润滑作用,而液压油的润滑效果明显优于纯净水 微观分析表明,3种介质条件下的微动磨损是磨粒磨损和剥层机制共同作用的结果.     

现代城市防震减灾研究

城市人口集中，是一个地区的经济中心，减少城市地震灾害损失时于保护人民生命安全，保持经济持续发展意义重大。分析了地震时现代城市造成的破坏和影响，从地震预测、城市防灾规划、建筑物抗震设计以及人民群众的防灾教育等方面探讨了有效减轻地震灾害的措施。     

紫外光和热双重固化对涂料性能的研究

探讨光、热固化的原理及特点，研究了紫外光和热双重固化对涂料性能的影响．实例表明，应用紫外光和热双重固化可以改善紫外光涂料的性能，特别是提高了涂层的硬度、耐磨性，降低了固化膜的收缩率．     

道路标线涂料的正交试验研究

以苯乙烯为反应性溶剂，废旧聚苯乙烯泡沫塑料、不饱和聚酯树脂为主要原料制备道路标线涂料，通过正交试验确定了涂料的最佳配比。制备的道路标线涂料具有施工方便、涂膜厚度适当、附着力强、气候适应性强等特点。并通过电镜分析对涂膜的微观结构进行了初步探讨。     

粉末冶金Al-10%Ti复合材料的力学和耐磨性能

文章采用“冷压烧结+热挤压”的粉末冶金法制备出Al—10％Ti复合材料,研究了Al—10％Ti复合材料的孔隙率、抗拉强度、伸长率、硬度和耐磨行为。结果表明:与Al相比,Al-10％Ti复合材料的孔隙率较高,抗拉强度和伸长率较低,硬度和耐磨性较高;Al-10％Ti复合材料的磨损体积损失分别是Al的1/22.3及Qsn6.5-0.4的1/14.8,其磨损表面呈Al基体+Ti颗粒+孔隙的耐磨组织。     

TiN-MOS2/Ti复合薄膜的摩擦性能

采用纳米复合非平衡等离子体镀膜方法制作了应用于月球车活动关节的新型TiN-MoS2/Ti复合润滑薄膜,通过SEM、XPS等对复合薄膜的微观结构和成分进行了分析,并进行了耐磨和抗潮湿性能试验。研究结果显示,与传统多层膜结构相比,TiN-MoS2/Ti新型复合膜的钻孔数从278个提高到356个;潮湿储存10d后,其耐磨性能与多层膜相比,提高了2.5倍。因此,通过优化制备工艺及加入Ti添加剂等方法可以有效提高月球车活动关节处润滑薄膜的耐磨和抗潮性能。     

基于桐油包膜材料的包膜尿素的研究 (I)包膜材料的FTIR,DTA-TGA研究

 用FTIR和DTA-TGA联用技术研究了桐油包膜尿素中使用的桐油、桐油/无机调理剂混合物的红外吸收特征和热行为,用800℃热分解残重率法测定了包膜材料中桐油聚合物的实际含量.结果表明,包膜中桐油的双键特征吸收明显减少甚至消失,无机调理剂的引入使桐油聚合物在程序升温过程中的放热峰温向高温移动.在包膜率相近的情况下,由含有无机调理剂的桐油包膜材料制备的包膜尿素,包膜材料中桐油聚合物的含量越大,包膜尿素的缓释性就越好.     

Study and Application of Internal Coating Technique to Drag Reduction of the Trunk Pipeline for the West-East Gas Pipeline

Coverage layer coated in the internal wall of pipeline enables the friction drag to be reduced, the throughput and the gas transmission efficiency to be increased, the frequency of pigging and the number of the intermediate compressor station to be reduced, and the power consumption of the compressor to be decreased etc. The drag reduction is a high advanced scientific technique with outstanding economical benefit. The study and application of internal coating technique for drag reduction of 4000km trunk pipeline in West-East gas transmission pipeline (WEGTP) project are described, in which the main points are the drag reduction principle, coating process and the indoor study of this technique with own-decided knowledge property right at home.     

Nanoindentation response analysis of TiN-Cu coating deposited by magnetron sputtering

To investigate the change of the mechanical properties of soft metals doped PVD(Physical Vapor Deposition)coatings after the migration of soft metal to the surface, TiN-Cu coating was deposited on Si(100) by magnetron sputtering. The microstructure and mechanical properties at room temperature and after vacuum heat treatment at 300 ℃ were investigated. The results showed that the grains were clustered and the microstructure was porous for TiN-Cu coating at room temperature, while many micro-and nano-sized Cu particles were observed on the surface after vacuum heat treatment at 300 ℃. The elastic properties of the TiN-Cu coating after vacuum heat treatment at 300℃ degraded compared with that at room temperature. The hardness and elasticity modulus of TiN-Cu coating kept constant(3.7 GPa and 125.0 GPa, respectively) with the increase of nano-indentation depth, while the hardness and elasticity modulus of TiN-Cu coating after vacuum heat treatment at 300 ℃ increased gradually.