高速钻削复合材料的切削力

采用多种硬质合金钻头,在高转速和不同进给速度条件下对碳纤维/环氧树脂复合材料进行孔加工正交试验,通过研究其轴向力和扭矩以分析刀具条件和切削参数的适应性.结果表明:主轴转速是影响轴向力和扭矩的最主要因素,高转速钻削时轴向力和扭矩都显著减小;减小进给速度也使轴向力和扭矩减小,但其影响小于主轴转速.此外,钻头材质对轴向力和扭矩的影响大于钻头几何形状和进给速度;进给速度对轴向力的影响较大,而钻头几何形状对扭矩的影响较大.     

Aviation-oriented Micromachining Technology-Micro-ECM in Pure Water

This article proposes a precise and ecofriendly micromachining technology for aerospace application called electrochemical machining in pure water （PW-ECM）. On the basis of the principles of water dissociation, a series of test setups and tests are devised and performed under different conditions. These tests explain the need for technological conditions realizing PW-ECM, and further explore the technological principles. The results from the tests demonstrate a successful removal of electrolytic slime by means of ultrasonic vibration of the workpiece. To ensure the stability and reliability of PW-ECM process, a new combined machining method of PW-ECM assisted with ultrasonic vibration （PW-ECM/USV） is devised. Trilateral and square cavities and holes as well as a group of English alphabets are worked out on a stainless steel plate. It is confirmed that PW-ECM will be probably an efficient new aviation precision machining method.     

基于负载变化的超声振子电学性能试验研究

针对超声波加工中振幅衰减和振幅不稳定现象,通过超声振子的静态加载试验,分析了轴向与径向加工负载力对超声振子电学特性的影响规律,以及超声振子电学参数的变化对超声振幅的影响机制。结果表明,超声振子的电学参数在径向负载力与轴向负载力的影响下有相似的变化趋势,即超声振子谐振频率与动态电阻随着负载力的增加而单向增大,动态电感与动态电容有相反的变化趋势,二者的综合效果使谐振频率随着负载力的增加而增大,静态电容在一定范围内波动,当超声振子所受的负载力增大到一定值时,超声振子的低频谐振点会消失。依据理论分析与试验研究结果,提出了改善振幅衰减和振幅不稳定现象的措施。     

加工钛合金大口径深盲孔的研究

钛合金属难加工材料,其深孔加工的难度更为突出,加工质量不易保证。本文通过实验对比,对加工钛合金大口径深盲孔中出现的偏孔、切屑堵塞、切削振动、刀具破损等主要问题进行了分析,提出了解决办法,得出了切削用量的优化参数。由于钛合金的化学亲和作用,深孔加工刀具的导向条表面易于粘附,结果拉伤已加工表面,造成表面粗糙度上升。加大导向条与孔壁的间隙虽可减少导向条表面的粘附,但同时会引起切削振动的加剧。针对这一矛盾,本文着重对加工刀具的导向条分布、导向条与孔壁的间隙以及导向条的选材方面进行了探讨,提出了以非金属导向条代替硬质合金导向条进行钛合金深孔精加工的方法,使得已加工表面的粗糙度大大降低。这些研究结果对实际加工具有一定的指导作用。     

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.     

被动阻尼减振技术及数控加工应用

切削颤振导致工件加工表面质量恶化、切削效率降低以及刀具磨损加剧等系列危害.抑制颤振对航空制造业实现高质、高效加工有重要意义,尤其是在薄壁件加工时.作为工程领域振动抑制的一种重要方法,被动阻尼减振技术实施简单、效果明显、可靠性较高,在切削领域的应用正逐渐得到重视.     

纤维增强陶瓷基复合材料加工技研究展

纤维增强陶瓷基复合材料具有高熔点、低密度、耐腐蚀、抗烧蚀以及抗氧化等一系列优点,被列为新一代高温热结构材料的发展重点,在航空、航天、能源等领域具有极大的应用前景.但纤维增强陶瓷基复合材料具有硬度大的特点,其加工是一个难点,主要对纤维增强陶瓷基复合材料的传统加工工艺和特种加工工艺及其研究进展进行了介绍,并对纤维增强陶瓷基复合材料的加工工艺的发展趋势作了展望.     

H型动压气体轴承轴套端面平面度制造误差分析

针对H型动压气体轴承端面平面度指标问题,从轴承端面研磨的定位夹具、工艺方法入手,分析了研磨工艺方法对端面平面度带来系统误差,并根据加工时的装配状态及操作方法,提出了改进措施,从而达到进一步提高平面度指标的目的.     

液体火箭发动机喷管收扩段的数控加工工艺研究

液体火箭发动机中，喷管收扩段是一个关键零件，数控加工工艺方法和程序编制方法非常复杂，国内外均在该方面有所研究。本文简述了喷管收扩段的数控加工工艺和程序编制方法以及在程序编制过程中建立的数学模型，并在通用的数控铣加工中心上实现了该零件的数控加工。     

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.