一种新的微细精密航空制造技术—纯水微细电解加工的工艺研究(英文)

为了寻求航空精密微细制造新技术并实现绿色制造和精密微细制造,对一种新型微细电解加工方法——纯水微细电解加工进行了研究。基于水解离机理,在新研制的试验装置上,采用不同的试验条件,进行了一系列工艺试验,探索并揭示了实现纯水微细电解加工的必要工艺条件和工艺规律,加工了圆孔和字母"PW-ECM";还研究了超声振动—纯水电解复合加工新方法,进而在不锈钢薄片上加工出三角、方形盲孔、三角通孔;试验研究结果证明了纯水微细电解加工的可行性。     

超声电解复合微细加工硬质合金试验研究

超声电解复合微细加工工艺具有效率高、精度高、环保安全等优点,在硬质合金材料微结构加工方面具有一定的技术优势和发展潜力.本文阐述了超声电解复合微细加工机理和试验装置,对硬质合金材料进行了多组对比工艺试验,分析了加工电压、进给压力、电解液等加工参数对加工效果的影响,优化了加工参数和加工条件,提高了硬质合金微结构的微细加工精度.     

制作微结构的超声复合加工机理

提出了制作微结构的超声复合加工方法,分析了超声、超声复合电火花、超声复合电解微细加工机理。用微细放电组合工艺制作了多种截形微细工具电极;完善试验系统,进行了多种材料、形状微结构超声复合加工试验。结果表明:超声加工是制作硬脆材料微结构的有效方法;超声复合电火花制作金属材料微结构有较好的精度及加工稳定性;超声复合电解加工兼有效率高、精度好的技术优势。     

超声加工微结构工艺试验与分析

分析微细超声加工机理;通过微细组合电加工技术制作多种截面形状的微细工具头;以此为基础进行多种硬脆材料的微结构超声加工试验及导电材料的超声电解复合加工试验.通过试验结果分析,得到微结构超声加工工艺特性.     

超声-电解复合微细加工阴极制作工艺研究

介绍超声-电解复合微细加工原理,分析微细阴极工作特点及制作难点,提出微细组合放电加工制作阴极的方法;利用精密电加工设备,通过＂联动复合进给＂、＂内、外面转换＂及＂平动与拷贝＂式微细放电,制作多种截形的微细阴极;进行超声-电解复合微细加工试验,阴极可满足使用要求.     

基于超纯水电解加工的水解离机理研究

介绍了一种以超纯水为电解液的电解加工工艺方法,即超纯水电解加工技术.研究了阳离子交换膜在超纯水中的水解离机理及工作特性,分析其在超纯水电解加工过程中的作用机理,并进行了水解离试验研究.结果表明：电流密度达到了3.7 A/cm^2,电场强度约为2 MV/m,已进入微细电解加工去除材料要求范围,为超纯水微细电解加工的应用奠定了基础.     

超短脉冲微细电解加工实验研究

介绍了利用超短脉冲电源进行微细电解加工实验的原理与装置,分析了影响微细电解加工的几个主要因素及影响趋势.并研究了微细电极的在线制作,发现采用铜锌合金材料可以很容易地加工出直径10μm左右,长径比大于50的微细电极,且电极的圆柱度很好.     

微细电解射流喷射装置研制与工艺试验

为提高微细电解射流加工效率及加工质量,研制了专用喷射装置,并利用该装置进行了初步工艺试验。结果证明该装置保证了电解液在其腔体中能够得到充分"负极化",且能获得满足加工要求的稳定破碎长度,满足了电解射流加工试验要求。     

微幅往复走丝微细电解线切割试验研究

 微细电解线切割是一种新型的微细加工技术,适合高精度金属窄缝、窄槽等微细结构的加工,由于加工间隙内电解产物排出困难,容易影响加工精度。为了提高产物排出效率,提出线电极微幅往复走丝促进加工间隙内电解产物排出的方法,改善了加工稳定性,提高了加工精度和加工效率。建立了间隙内电解产物排出效率对加工精度、加工速度影响的数学模型,分析了线电极走丝速度和走丝幅值对间隙内电解产物排出和电解液更新的影响。通过试验研究了线电极的走丝速度和走丝幅值对加工精度和加工效率的影响规律,采用优化参数在厚度为80 μm的钴基弹性合金上进行微槽结构加工,底面粗糙度约为0.45 μm,倒角半径小于8 μm。结果表明线电极轴向微幅往复走丝可以有效地提高加工质量和加工效率。     

精细金属网栅的制造方法及其研究进展

综述了精密机械加工、高能束加工、微细电火花加工、化学加工、电化学加工等多种精细金属网/栅制造方法的优缺点及其发展现状.因具有适用材料广泛、加工效率高、表面质量好、无机械切削应力、孔形不受限制等优点,掩模微细电解加工在精细金属网/栅制造方面潜力巨大.     

Experimental Investigation on Complex Structures Machining by Electrochemical Micromachining Technology

Electrochemical micromachining (EMM) technology for fabricating micro structures is presented in this article. By applying ultra short pulses, dissolution of a workpiece can be restricted to the region very close to the electrode. First, an EMM system for meeting the requirements of the EMM process is established. Second, sets of experiments is carried out to investigate the influence of some of the predominant electrochemical process parameters such as electrical parameters, feed rate, electrode geometry features and electrolyte composition on machining quality, especially the influences of pulse on time on shape precision and working end shape of electrode on machined surface quality. Finally, after the preliminary experiments, a complex microstructure with good shape precision and surface quality is successfully obtained.     

提高微细电解加工精度的研究

对影响微细电解加工精度的因素进行了详细的分析,提出了改善加工精度的方法,如以循环进刀代替直接进刀方式、采用脉冲加工电源、改善阴极的结构设计以及采用非线性电解液等。最后,结合实验对这些方法的可行性与有效性进行了验证。     

Flow field design and process stability in electrochemical machining of diamond holes

The metal grille, commonly composed of an amount of diamond holes, has been grow-ingly used as a key structure on stealth aircraft. Electrochemical machining (ECM) promises to be increasingly applied in aircraft manufacturing on the condition that process stability is guaranteed. In this work, a flow field model was designed to improve the process stability. This model is endowed with a variety of flow channel features, together with vibrating feeding modes. The flow field distribution on the bottom surface of the diamond hole was discussed and evaluated as well. The numerical results show that a short arc flow channel could significantly enhance the uniformity of electrolyte velocity distribution and a vibrating feeding of the cathode enables to reduce both fluctuations of the electrolyte velocity and pressure on the bottom surface of the diamond hole. Consequently, the flow field mutations were eliminated. It is verified from the experimental results that a short arc flow channel, when combined with vibrating feeding, is capable of improving machining localization and process stability markedly. What is more, the side gap on the bottom surface of the diamond hole could also be reduced by the abovementioned approach.     

Electrochemical trepanning with uniform electrolyte flow around the entire blade profile

In the traditional machining process for diffusers, blades are easily deformed, and methods suffer from high tool wear and low efficiency. Electrochemical machining(ECM) possesses unique advantages when applied to these difficult-to-machine materials. In the ECM process, theflow field plays a crucial role. Here, an electrolyte flow mode that supplies uniform flow around the entire blade profile was adopted for electrochemical trepanning of diffusers. Various flow rates were employed to obtain the optimal flow field. Simulations were conducted using ANSYS software, and results indicated that increasing the flow rate substantially afforded a more uniform flowfield. A series of experiments was then performed, and results revealed that increasing the flow rate greatly improved both the machining efficiency and the surface quality of the diffusers. The maximum feeding rate of the cathode reached 4 mm/min, the blade taper of the concave part decreased to 0.02, and the blade roughness was reduced to 1.216 lm. The results of this study demonstrated the high feasibility of this method and its potential for machining other complex components for engineering applications.     

基于电极切向旋转进给法的 低刚度锥杆类零件精密电火花加工

提出了基于圆盘电极切向旋转进给法的低刚度锥杆类零件的电火花精密加 工方法。首先介绍了基于等厚损耗原则的圆盘电极设计原理,进而通过电火花加工工艺 的三因素全因子实验考察了峰值电流、脉宽、占空比对工件材料去除率（MRR）、相对 电极损耗率（TWR） 和表面粗糙度（SR） 的影响, 并对电火花加工工艺参数进行优化 从而应用于锥杆类零件的加工。加工出的反馈杆性能一致性高、表面质量好,加工时间 短,试验结果表明基于圆盘电极切向旋转进给法的电火花加工工艺对提高低刚度锥杆的 加工工艺的可靠性和加工效率、提高电极利用率方面有较大优势。     

电致伸缩位移器件用于电火花细微孔加工

本文根据电火花细微孔加工的特点,提出了利用WTDS型电致伸缩位移器件与步进电机进给装置相配合的微进给伺服系统,并从设计的角度介绍了系统的组成、工作原理及特性。     

基于UG 二次开发的电火花加工成形电极设计系统

针对闭式整体涡轮叶盘的结构特点,在UG平台上通过二次开发设计了一套涡轮盘电火花加工成形电极设计系统,包括电极初步设计、减厚处理、电极剖分、电极基座设计和电极运动轨迹搜索等模块.通过实验对电极设计系统的正确性和实用性进行了验证,加工出满足设计要求的整体涡轮盘样件.     

Simulation and experimental investigation on a dynamic lateral flow mode in trepanning electrochemical machining

An appropriate flow mode of electrolyte has a positive effect on process efficiency, surface roughness, and machining accuracy in the electrochemical machining(ECM) process. In this study, a new dynamic lateral flow mode, in which the electrolyte flows from the leading edge to the trailing edge, was proposed in trepanning ECM of a diffuser. Then a numerical model of the channel was set up and simulated by using computational fluid dynamics software. The result showed that the distribution of the flow field was comparatively uniform in the inter-electrode gap. Furthermore, a fixture was designed to realize this new flow mode and then corresponding experiments were carried out. The experimental results illustrated that the feeding rate of the cathode reached 2 mm/min, the best taper angle was about 0.4°, and the best surface roughness was up to Ra= 0.115 lm. It reflects that this flow mode is suitable and effective, and can also be applied to machining other complex structures in trepanning ECM.     

超精密定位中的几项相关关键技术

通过结合自已的实际工作，分别从伺服进给机构，位置检测技术，数控及伺服控制等几个方面对超精密机床的定位系统进行了说明     

低性能代偿损失的环境控制系统方案研究

从集成能源子系统的概念出发,提出了一种以环控系统为核心的热能管理组合方案。建立了该组合方案在巡航模式下工作时的数学模型,对其参数匹配的方法进行了探讨。并对主要附件性能的影响进行了分析。