多电极偶接对金属大气腐蚀影响的试验与仿真

搭建薄液膜厚度测量与控制装置,采用微距参比电极后置法组建三电极体系,测量了厚度为100 μm的3.5wt% NaCl液膜下2A12铝合金、TC18钛合金和30CrMnSiNi2A高强钢的极化曲线和耦合体系的电偶电流;建立了基于薄壳电流分布的Comsol腐蚀仿真模型,得到了100 μm液膜下电极电位分布和电流密度分布图,通过对电极表面进行局部电流面积分计算得到了其电偶电流,对不同电极进行了面积的参数化扫描,讨论分析了不同面积比对于电偶电流的影响。结果表明：利用仿真模型得到的电偶电流值与试验值吻合较好,在2A12/30CrMnSiNi2A/TC18多电极体系中2A12充当阳极,TC18/30CrMnSiNi2A充当阴极,且阴阳极极性不随面积比的变化而发生转变,电偶电流主要集中在30CrMnSiNi2A与2A12之间,电偶电流与TC18面积呈线性关系,其对数与2A12和30CrMnSiNi2A面积的对数之间呈线性关系。利用建立的仿真模型对模拟搭接件大气腐蚀进行了仿真研究,仿真发现垫圈、2A12与30CrMnSiNi2A偶接接缝处及2A12与TC18偶接铆钉处电流密度分布更为集中,易发生腐蚀,与暴晒试验结果相符,说明该仿真模型对于多电极偶接的腐蚀分布具有很好的预测作用。     

聚酰亚胺在不同电解液体系中的储钠性质

共轭羰基化合物以其高理论比容量与多电子参与等优势成为当前最具研究吸引力的有机电极材料之一。本文以苝四甲酸二酐(PTCDA)与尿素进行缩聚反应制备含有共轭多羰基单元的聚酰亚胺(PI),采用傅里叶转换红外线光谱分析仪(Fourier transform infrared spectroscope,FT-IR）、X射线衍射（X-ray diffraction,XRD）和扫描电子显微镜（Scanning electron microscope,SEM）等测试方法对其进行了表征,并将所制备的材料用作钠离子电池正极材料,研究了其在NaClO4/EC∶DMC和NaClO4/EC∶PC两种电解液体系中的嵌钠性质。结果表明:在NaClO4/EC∶PC中,PI的初始比容量最高,循环稳定性最好;在电流密度为0.3 C(1 C=118mA·g-1)时,循环100次后放电容量可达124 mAh·g-1。优异的电化学性质主要归因于NaClO4/EC∶PC高的离子电导率,因而PI在其中具有较好的动力学性能,进而表现出更优的电化学性能。     

H_3PO_4 C_6H_(11)NaO_7体系中钛合金阳极氧化着色工艺研究

作者在H3PO4 C6 H1 1 NaO7体系中对TC10、TC3、TC1、TA2阳极氧化均能得到丰富色彩。研究表明 ,钛材的成分、电压、pH值、升压方式、氧化时间等对阳极氧化膜的颜色都有一定的影响 ,电压是影响氧化膜颜色的主要因素。此外 ,稀土元素铈和双氧水的加入能提高膜层的耐蚀性。     

锂离子电池单离子导体聚合物电解质研究进展

锂离子电池在3C电子产品和动力汽车电池行业广泛应用,在航天电源领域也展现出一定的前景。单离子导体是基本仅由参与电化学反应的锂离子迁移的电解质体系,解决传统锂离子电池液态电解质存在的副反应和阴离子的浓差极化等问题,改善电池的库伦效率和循环寿命。研究者们发展了多种类型的单离子导体电解质。本文总结了近5年来不同阴离子类型的单离子导体聚合物电解质合成策略以及分子动力学模拟计算的最新进展。     

Effects of Hybrid Voltages on Oxide Formation on 6061 Al-alloys During Plasma Electrolytic Oxidation

Plasma electrolytic oxidation (PEO) is carried out on 6061 Al-alloys in a weak alkaline electrolyte containing NaOH, Na₂SiO₃ and NaCl. Centered on the correlation of composition and structure, analyses by means of X-ray diffration (XRD), scanning electron microscope (SEM) and energy dispersive spectrometry (EDS) are conducted on the specimens, which have been PEO-treated under hybrid voltages of different direct current (DC) values (140-280 V) with constant alternate current (AC) amplitude (200 V). Attention is paid to the composition, properties and growth mechanism of oxide layers formed with hybrid voltages. Moreover, the main effects of DC value are discussed. Ceramic layers with a double-layer structure which combines hard outer and soft inner layers are found to be consist of α-Al₂O₃, γ-Al₂O₃ and mullite. With the DC values increasing, the growth of the ceramic layers tends to have increasingly obvious three-stage feature.     

锂离子电池用PMMA凝胶/LLZT复合电解质的原位制备

固态电池具有高能量密度和高安全性等潜力,是未来航天器电源的重要解决方案。本文利用原位聚合方法,制备了聚甲基丙烯酸甲酯(PMMA)凝胶/Li_(6.5)La_3Zr_(1.5)Ta_(0.5)O_(12)(LLZT)复合电解质。通过选择与陶瓷相润湿性好的甲基丙烯酸甲酯单体(MMA)进行原位聚合,改善了电解质内部陶瓷与凝胶的两相界面。室温下,此复合电解质具有6.6×10~(-4)S·cm~(-1)的离子导电率。进一步采用原位聚合法,制备了Li/复合电解质/Li对称电池。与非原位方法相比,原位聚合将电解质与金属锂的界面比电阻从1 572Ω·cm~2降至367Ω·cm~2,对称电池在0.085 mA·cm~(-2)下能够稳定循环400圈,显示出良好的循环稳定性。     

电化学去毛刺技术在航空产品中的应用

阐述了电化学去毛刺技术的加工能力、工艺过程及电极的结构。     

Wire electrochemical machining with axial electrolyte flushing for titanium alloy

Titanium and its alloys have found very wide application in aerospace due to their excellent characteristics although their processing is still a challenge. Electrochemical machining is an important issue in the fabrication of titanium and titanium alloys. Wire electrochemical machining (WECM) is mainly used for workpiece cutting under the condition of different thickness plates. It has a great advantage over wire electro-discharge machining, which is the absence of heat-affected zone around the cutting area. Moreover, the wire electrode in WECM could be used repetitively because it is not worn out. Thus, much attention has been paid to WECM. The effective way of removing electrolysis products is of importance to WECM. In this paper, the axial electrolyte flushing is presented to WECM for removing electrolysis products and renewing electrolyte. The Taguchi experiment is conducted to optimize the machining parameters, such as wire feedrate, machining voltage, electrolyte concentration, etc. Experimental results show that WECM with axial electrolyte flushing is a promising issue in the fabrication of titanium alloy (TC1). The feasibility of multi-wire electrochemical machining is also demonstrated to improve the machining productivity of WECM.     

SiO2溶胶作用下电沉积锌电极性能研究

 在碱性镀锌液中加入SiO₂溶胶,采用电沉积技术制备电沉积式锌电极,考察镀液中加入SiO₂溶胶对锌电极的电沉积速度、微观形貌及电化学性能的影响规律。研究结果表明：随着镀液中SiO₂溶胶浓度（0～200 mL/L）的增加,锌的电沉积速度逐渐下降;溶胶作用下得到的锌电极的微观表面较平整致密,没有出现较大孔洞,且耐腐蚀性和循环可逆性得到改善;尤其是溶胶浓度为150 mL/L时,锌电极具有最小的腐蚀电流密度,且阴、阳极峰值电位差较小,锌电极的电化学性能最好。     

Fluid and electrolyte alterations during prolonged hypokinesia

The physiological and biochemical systems that regulate the level of each electrolyte in blood and other endogenous fluids, and the balance between the consumption and loss of fluid and electrolytes and the total fluid and electrolyte content of the body are significantly affected during hypokinesia (HK; diminished movement). Among the known effects of HK, the fluid and electrolyte deficiency has drawn a great interest due to the higher fluid and electrolyte deficiency with higher than lower fluid and electrolyte consumption. The impossibility of the body to use fluid and electrolytes, after the fluid and electrolyte deficiency has been established, has drawn the greatest interest. The fluid shifting to the thoracic region and the daily body rehydration are considered as the most effective methods to counteract fluid and electrolyte changes. To this end, the objective of this review was to report some of the findings in the fluid and electrolyte deficiency and fluid and electrolyte loss with fluid and electrolyte deficiency during prolonged HK.