超高摩尔质量聚乙烯内衬复合管应用前景展望

通过对超高摩尔质量聚乙烯内衬复合管的技术特点及国内外现场试验效果的阐述；证明了超高摩尔质量聚乙烯内衬复合管自身的各种物理特性。对延长旧管使用寿命,减少杆管偏磨,延长油井清蜡周期具有良好的效果。     

浅议超深孔钻孔灌注桩施工工艺

结合工程实例，浅议超深孔厚砂层钻孔灌注桩施工工艺。根据地层特点及设计要求，选用、优化钻头结构和钻进参数。．     

石油套管用热轧带钢J55的研制与开发

介绍了本溪钢铁（集团）有限公司研制开发的J55石油套管用热轧带钢的化学成分、静态CCT曲线、实际生产工艺及成品带钢的金相组织和力学性能，此产品已成功应用于辽河油田和大庆油田。     

螺杆式制冷与活塞式制冷的比较

介绍了螺杆式制冷装置并进行了理论分析,阐述了螺杆式制冷装置和氨活塞式制冷装置的运行工况,通过分析,表明螺杆式制冷装置提高了油的利用率,降低了成本。具有体积小重量轻,高效换热,制冷过程简单,便于维护,运行安全,制冷量大及轴功率高等特点。     

面向钢轨监测的无线传感器网络网关设计与性能测试

针对我国铁路钢轨实时广域监测的重大需求,通过研究异构无线传感器网络（WSNs）通信技术,设计并实现了一种基于Zig Bee-3G通信的无线传感器网络网关.进行了通信电路设计和电磁兼容设计,并在WinCE操作系统平台上实现了Zig Bee网络与3G网络之间的互联,开发了网关远程维护管理模块.对网关设备分别进行了网络传输性能测试和电磁兼容测试,测试结果表明：此网关传输效率高、抗电磁干扰能力强,能够满足铁路轨道监测现场的应用要求.     

安克锰锌在荔枝树上施用的残留代谢消解规律与安全性评价

安克锰锌是烯酰吗啉两个异构体和代森锰锌组成的多元混合制剂。试样经粉碎、溶剂浸泡提取、混合柱净化,用气相色谱测定烯酰吗啉和代森锰锌母体(CS2),液相色谱测定代谢物乙撑硫脲(ETU)。仪器最低检出量:烯酰吗啉为1.436×10-12g,代森锰锌母体1.326×10-10g,ETU2.5×10-10g,最低检出浓度依次为0.02、0.025、0.02mg/kg,方法回收率依次为86.4%～90.8%、89.2%～95.9%、89.10%～95.13%;标准偏差为0.53～4.34;变异系数为0.58%～4.62%。安克锰锌在果皮中的消解方程广西和广东分别为C=1.2719e-0.1975T和C=1.045e-0.1972T,半衰期(T/2)均为3.5d;土壤中分别为C=0.8734e-0.1187T和C=0.6171e-0.1146T,半衰期(T/2)=6d;最高剂量250倍、最多施3次,最短距收期7d,在果肉中均未检出,果皮和土壤中的残留仅分别为0.1385～0.1745mg/kg和0.3105～0.3415mg/kg,均低于欧共体规定代森锰锌MRL值0.5mg/kg。     

Sintering technology for micro heat pipe with sintered wick

In order to study reasonable sintering technological parameters and appropriate copper powder size range of micro heat pipe (MHP) with the sintered wick, the forming principle of copper powders in wicks and MHP’s heat transfer capabilities were first analyzed, then copper powders with different cell sizes and dispersions were sintered in RXL-12-11 resistance furnace under the protection of the hydrogen at different sintering temperatures for different durations of sintering time, and finally the sintered wicks’ scanning electron microscope (SEM) images and their heat transfer capabilities were analyzed. The results indicate that the wick sintered with copper powders of larger cell size or smaller size range has better sintering properties and larger heat transfer capabilities; and that the increase of either sintering temperatures or sintering time also helps to improve the wick’s sintering properties and heat transfer capabilities, and the former affects more obviously than the latter. Considering both its manufacturing cost and performance requirements, it is recommended that copper powders with the size range of 140–170 μm are sintered at 900–950°C for 30–60 min in practical manufacturing. In addition, two approaches to improve wick’s porosity are also proposed through theoretical analysis, which suggests that the larger the wick’s porosity, the better the heat transfer capabilities of the MHP.