扭转参数对铜合金接触线扭转圈数影响研究

铜合金接触线在安装、使用等过程中不可避免存在扭转现象,不同的扭转参数对铜合金接触线的最大扭转圈数存在一定影响。本文通过扭转试验研究了扭转速度、张力以及扭转方向等参数对CTMH150接触线扭转圈数的影响,并分析了扭矩与扭转圈数的关系。研究发现,铜合金接触线的扭转圈数随着扭转速度、张力的增大先降低再增加,均存在一个转换点;双向扭转过程中的扭矩圈数大于单向扭转。此外,接触线的扭矩与扭转圈数成线性相关性。     

L边密度计稳定性监控及U、Pu测量

本文采用金属Zr片作为质控样品监控L边密度计的长期稳定性,在此基础上采用L边密度计测量系列水相U标准溶液和水相Pu标准溶液,绘制水相U工作曲线和水相Pu工作曲线,建立了L边密度计测量U、Pu的分析方法,并采用该工作曲线测量了系列U和Pu标准溶液。结果显示,该方法既可测量水相U、Pu,也可测量有机相U、Pu,对于10 g/L以上的U溶液,测量结果的相对偏差小于5%;对于5 g/L以上的Pu溶液,测量结果的相对偏差小于1.7%。以上结果表明,本文所建立的L边密度计测量U、Pu的方法准确度良好,可用于实际U、Pu的测量。     

边缘计算中任务卸载研究综述

近年来,随着移动智能设备的普及以及5G等无线通信技术的发展,边缘计算作为一种新兴的计算模式被提出,作为传统的云计算模式的扩展与补充.边缘计算的基本思想是将移动设备上产生的计算任务从卸载到云端转变为卸载到网络边缘端,从而满足实时在线游戏、增强现实等计算密集型应用对低延迟的要求.边缘计算中的计算任务卸载是一个关键的研究问题...     

再生混凝土多孔砖的配合比设计

根据再生混凝土的特点,选出4种主要因素,并按正交试验的方法设计再生混凝土多孔砖的混凝土配合比试验。经过试验,排出各因素对指标的影响顺序,从而确定再生混凝土多孔砖的最优配合比。     

复杂微结构三维形貌测量方法的研究

微结构三维形貌测量是研究微加工工艺和微尺寸特性的重要测试内容。本文提出一种基于相移显微干涉术、利用干涉陶建立二维结构模板指导相位展开的新方法,它不仅适用于静态测量,而且能应用于在动态测量中,特别是微机电系统（MEMS）器件的运动测量。以微谐振器为测试器件,对其运动梳齿结构进行了静态三维形貌测量,实验的离面理论测量精度优于0．5nm,测试结构内部的面内理论测量精度优于0．5μm,而边缘尺寸因受到边缘提取方法的影响,其测量精度仅在μm量级。对该方法的缺点和发展方向做了探讨。     

微通道换热器两相流分布研究现状与展望

两相流进入微通道换热器容易出现分布不均匀的现象,显著降低微通道换热器的性能.本文对微通道换热器两相流分布的研究动态进行了归纳与分析,主要介绍了微通道换热器中两相流分布特性的影响因素、提升微通道换热器中两相流分布均匀性的技术方案、微通道换热器两相流分布特性的仿真研究及相分离技术在微通道换热器中的应用;论述了两相流在微通道...     

Electrolytic groundwater circulation well for trichloroethylene degradation in a simulated aquifer

An in situ groundwater remediation process, termed EGCW, was developed in this study by integrating in-well groundwater electrolysis into groundwater circulation well. Groundwater circulation carries electrolytically generated O_2 and H_2 into the impacted aquifer for in situ biodegradation of contaminants. In a two-dimensional tank filled with field sandy sediments,simulated trichloroethylene(TCE)-contaminated groundwater was circulated between an injection well with electrodes inside and a pumping well. Results from a 50-day EGCW experiment show that in-well electrolysis oxygenated most region near the injection well, and 10 mg/L TCE was mainly biodegraded aerobically to about 2.7 mg/L(73% removal) by the indigenous microbes. Aerobic TCE degradation was enhanced by the pulsed addition of acetate. Together with the proofs of stable carbon isotope fractionation(enrichment factor:-0.57‰–-1.53‰) and microbial community variation after EGCW treatment, aerobic cometabolism was proposed to be the most likely mechanism for TCE degradation. It is interesting to find that the intrinsic organic carbon in aquifer matrix could fuel the aerobic TCE degradation, particularly at low TCE concentrations. EGCW treatment is advantageous in terms of supplying appropriate dosages of electron acceptor(O_2) and donor(H_2) for in situ bioremediation because groundwater electrolysis and circulation are expedient and controllable.     

蓝宝石衬底的斜切角对GaN薄膜特性的影响

利用金属有机物化学气相沉积技术在具有斜切角度的蓝宝石衬底(0～0.3°)上生长了非故意掺杂GaN薄膜,并采用显微镜、X射线双晶衍射、光荧光及霍尔技术对外延薄膜的表面形貌、晶体质量、光学及电学特性进行了分析.结果表明,采用具有斜切角度的衬底,可以有效改善GaN外延薄膜的表面形貌、降低位错密度、提高GaN的晶体质量及其光电特性,并且存在一个衬底最优斜切角度0.2°,此时外延生长出的GaN薄膜的表面形貌和晶体质量最好.     

加压溶剂法提取雷公藤甲素及其条件优化

以雷公藤为原料,采用加压溶剂法提取雷公藤甲素,以1,2-二氯乙烷为溶剂,考察了提取时间、料液比和提取温度等因素对提取工艺的影响,并在单因素试验基础上,根据中心组合试验设计原理采用三因素三水平的响应面分析法进行工艺优化,得到提取过程优化的工艺条件为:料液比1:9.7,提取温度115℃,提取时间80min,雷公藤甲素的实际得率可达0.173‰,纯度为1.21%,与常规回流提取法相比优势明显。     

A novel Electro-Fenton-Like system using PW11O39Fe(III)(H2O) as an electrocatalyst for wastewater treatment

A novel Electro-Fenton-Like (EFL) system was developed using the Keggin-type iron-substituted heteropolytungstate anion PW₁₁O₃₉Fe(III)(H₂O)⁴⁻ to substitute for Fe³⁺ in the conventional Electro-Fenton (EF) system for treatment of water polluted with organic compounds. The EFL system overcomes the drawback of low pH in conventional EF approaches and can be directly applied to neutral water treatment without any pH adjustment. Experimental results for dimethylphthalate (DMP) revealed complete degradation in <80 min in pH 6.86 solution containing 0.1 mM DMP at a potential of −0.5 V and O₂ flow rate of 60 mL min⁻¹. Total organic carbon removal of ∼56% was achieved at 120 min. Comparison with conventional EF oxidation revealed better efficiency of the present system for DMP degradation, suggesting its potential in treatment of water and wastewater with a relaxed pH requirement. The cumulative H₂O₂ concentration generated in situ at the electrode was monitored and the observed degradation rate constants k_obs were determined for different initial DMP concentrations. The ligand exchange reaction of PW₁₁O₃₉Fe(III)(H₂O)⁴⁻ with H₂O₂ and the electron transfer resulting in hydroxyl radicals were examined using HPLC and electrochemical impedance spectroscopy. An electrocatalytic model involving inner-sphere electron transfer and a reaction mechanism for PW₁₁O₃₉Fe(III)(H₂O)⁴⁻ electrocatalytic reduction of H₂O₂ are proposed.