企业园区计算机网的安全管理

介绍了企业园区计算机网安全管理系统的基本构成,并对园区网络管理系统的安全防范现状和网络安全的隐患进行了分析。通过结合某企业园区网实际安全防范的实施策略,论述了企业园区计算机网管理系统常用的安全防御方法。     

氟醚橡胶的耐热性能研究

研究200℃下老化时间对氟醚橡胶耐热老化性能与结构的影响。结果表明:氟醚橡胶老化22d后仍保持优异的物理性能;氟醚橡胶的玻璃化温度、-50℃以上的储能模量不随老化时间的变化而变化,而损耗因子峰值随老化时间的延长呈小幅增大趋势;氟醚橡胶适合用于-50℃以上环境下使用的密封材料。     

刺激响应性聚合物纳米胶束在药物控释中的应用研究

聚合物纳米胶束不仅可以提高药物的溶解度、生物利用度,延长药物在人体内的循环时间,还可以有效控制药物的释放而实现靶向治疗效果,极大地减少药物对人体的副作用。通过嵌段共聚物的纳米工程,可制备出具有细胞或组织靶向性且对物理或化学刺激敏感的高分子药物载体。本文综述了对pH值、温度、超声波和光具有响应性的聚合物纳米胶束的制备及其在药物控制释放领域的应用。     

Highly thermally conductive POSS-g-SiCp/UHMWPE composites with excellent dielectric properties and thermal stabilities

Polyhedral oligomeric silsesquioxane grafting thermally conductive silicon carbide particle (POSS-g-SiCp) fillers, are performed to fabricate highly thermally conductive ultra high molecular weight polyethylene (UHMWPE) composites combining with optimal dielectric properties and excellent thermal stabilities, via mechanical ball milling followed by hot-pressing method. The POSS-g-SiCp/UHMWPE composite with 40 wt% POSS-g-SiCp exhibits relative higher thermal conductivity, lower dielectric constant and more excellent thermal stability, the corresponding thermally conductive coefficient of 1.135 W/mK, the dielectric constant of 3.22, and the 5 wt% thermal weight loss temperature of 423 °C, which holds potential for packaging and thermal management in microelectronic devices. Agari’s semi-empirical model fitting reveals POSS-g-SiCp fillers have strong ability to form continuous thermally conductive networks.     

Corrosion Fatigue Behavior of 7A85 Aluminum Alloy Thick Plate in NaCl Solution

The S–N curves of 7A85-T7452 aluminum alloy in laboratory air and in neutral 3.5 wt% NaCl solution were obtained by axial fatigue tests. Results show that the detrimental effect of the aggressive solution was not noticeable at high-cyclic-stress regions, but the effect was significant at low-stress region. Corrosion fatigue mechanism was discussed by corrosion morphology analysis, fracture surface analysis and microstructure characterization. It was found that the corrosion fatigue crack commonly initialed at the localized intergranular corrosion site. TEM analysis showed that the microstructures of 7A85-T7452 aluminum alloy were characterized by fine and homogeneously distributed matrix precipitates, as well as continually distributed anodic grain boundary precipitates. The types of microstructures are the reason for its intergranular corrosion susceptibility. The corrosion fatigue process of 7A85 aluminum alloy in 3.5 wt% NaCl solution can be divided into four stages: the crack initiation stage, the stable growth stage with low and high growth rate and the final rupture stage. The sodium chloride solution mainly affected the crack initiation stage and the stable growth stage with low growth rate, and when the crack growth rate reached a threshold, the effect was reduced.     

Effect of Shot Peening and Plasma Electrolytic Oxidation on the Intergranular Corrosion Behavior of 7A85 Aluminum Alloy

The effects of shot peening(SP) and plasma electrolytic oxidation(PEO) on the intergranular corrosion behavior of the novel high strength aluminum alloy 7A85(AA 7A85) were investigated by electrochemical polarization and electrochemical impedance tests.The intergranular corrosion mechanism of SP,PEO and PEO combined with sealingtreated AA 7A85 was studied by the metallographic analysis,residual stress testing,X-ray diffractometer analysis and scanning electron microscopy.The results show that AA 7A85-T7452 is very sensitive to intergranular corrosion.SP would significantly improve its intergranular corrosion resistance.This is attributed to the combination action of residual compressive stress and grain refinement.PEO would reduce the largest corrosion depth by 41.6%.Moreover,PEO without sealing did not eliminate the intergranular corrosion due to the existence of the micropores and microcracks in the oxide coating.However,PEO combined with the SiO2sol–gel sealing treatment could effectively protect the AA 7A85-T7452 from intergranular corrosion because of the good corrosion resistance and barrier function of the sealed coating.     

一种改进的四余度模拟量监控算法

电传飞行控制系统是现代先进飞机的标志,余度设计是提高电传飞行控制系统安全性与任务可靠性的一种重要手段.介绍了关于监控的一些基本概念、传统的四余度监控算法,并详细给出了一种改进的四余度模拟量监控算法.该方法能更准确地判断信号是否有效,同时能减少信号进入多故障逻辑进行判断的情况.仿真试验研究表明,此改进的监控算法具有合理性...     

基于绝对节点坐标法的钢索结构动力学模型与特性

基于绝对节点坐标法并引入高阶位移插值函数,建立可描述钢索截面变形和旋转的钢索单元模型。考虑重力,计算轴向载荷下钢索结构变形及动态迟滞效应,采用准静态实验和动态载荷下的解析解验证了模型合理性。对不同载荷、结构参数及材料特性的钢索进行了准静态变形和动力学响应迟滞仿真分析。结果表明：轴向载荷下钢索结构的刚度主要受其直径影响,初始张力和钢索长度对变形的影响有限,动态响应迟滞时间由其自身长度及材料特性决定。相同条件下采用大直径钢索并适当增大初始张力,可在一定程度上增大钢索结构刚度,减小传动过程中的末端变形,改善长距离工况下钢索的传动性能。     

封闭对铝合金微弧氧化膜在酸性溶液中耐蚀性的影响

为了提高7A85铝合金的耐蚀性, 采用单极性正脉冲微弧氧化(MAO)技术在其表面制备了陶瓷膜层, 并采用稀土铈盐、铬酸盐和SiO₂溶胶对MAO膜进行封闭处理。采用扫描电子显微镜(SEM)、X射线衍射仪和电化学工作站研究了封闭处理对膜层表面形貌、结构和在酸性NaCl溶液中腐蚀行为的影响。实验发现, MAO膜在酸性NaCl溶液中不能有效地保护铝合金基体。稀土铈盐和铬酸盐封闭处理通过沉积水合氢氧化物封闭孔隙, 可以提高MAO膜的耐蚀性。但在酸性溶液中, 封孔物质会和H⁺发生反应而溶解, 故经封闭的MAO试样也会发生腐蚀失效。SiO₂溶胶封闭处理后MAO膜表面覆盖一层凝胶, 使膜层成为完整的致密层, 可以保护铝合金基体在酸性NaCl溶液中免受腐蚀。     

轮廓法测试残余应力中的数据处理

使用轮廓法测量铝合金T形构件淬火残余应力,重点研究了测量误差的数据处理。采用包络处理、左右轮廓平均、Gauss混合模型拟合以及节点插值处理后,得到最终轮廓值,并将其作为边界条件反向加载到应力重构有限元模型中,得到待测面应力场。使用X射线衍射法对待测面边界处应力进行修正。将测量结果和有限元模拟淬火结果进行对比,利用统计学方法分析对比结果。结果表明：轮廓法和X射线衍射法结合可以很准确地描述T形构件淬火残余应力场。T形构件淬火残余应力最大拉应力出现在筋条和腹板交界处,靠近腹板一侧。