超声振动铣磨加工对铁氧体表面质量的影响研究

为解决惯性仪表磁悬浮轴承铁氧体零件的精密加工难题,开展铁氧体超声振动铣磨加工表面粗糙度预测和加工表面三维仿真技术研究,进行铁氧体磁性材料超声振动加工实验,研究工艺参数对加工表面质量的影响规律,为提高铁氧体材料的加工效率和加工质量提供依据.     

SiCf/SiC复合材料铣磨表面质量评价方法试验研究

SiCf/SiC复合材料是典型的非均质、各向异性材料,金属材料质量评价体系已不完全适用,亟需建立适宜的表面质量评价方法。结合超声振动辅助铣磨试验,对比铣磨表面二维粗糙度Ra和三维粗糙度Sa测量数据的稳定性,探索Sa测量区域大小对测量结果的影响规律,并结合宏观、微观及三维形貌对试验结果进行分析研究。基于铣磨表面较为明显的、表现形式为凹坑的区域面积比例,开展表面质量情况分析研究。结果表明：Sa更适宜作为SiCf/SiC复合材料铣磨表面粗糙度特征参数,且最小测量区域大小为7mm×7mm;基于表面粗糙度分析,结合宏观、微观和三维形貌可进一步评价铣磨表面质量;采用表面明显凹坑面积比,基本可以实现对表面质量影响较大区域的定量分析。     

C/SiC复合材料的制备及加工技术研究进展

碳纤维增强碳化硅陶瓷基(C/SiC)复合材料由于其强度高、硬度大、耐磨损,被广泛应用于工业、航空航天等领域,然而C/SiC复合材料难以被稳定地去除加工。本文综述C/SiC复合材料的常见制备方式及其材料的性能特点。概述C/SiC复合材料的传统机械加工、超声辅助加工、激光加工等加工方法,分析了各种加工方法的材料去除机理、加工精度、常见缺陷及加工过程中存在的问题。传统的机械加工需进一步优选切削刀具材料;超声辅助加工需探究超声振动的刀具与材料之间的耦合作用机制、振动作用下的材料去除机理;激光加工要进一步研究2.5维及3维C/SiC复合材料的激光加工去除机理。在这些研究的基础上进一步采用复合加工的方法,探寻C/SiC复合材料高效、精密、稳定和无损加工的可能性。     

4J29可伐合金超声振动辅助钻削试验研究

4J29可伐合金由于具有和奥氏体不锈钢相近的难切削特点,传统钻削制孔质量较差,为了研究4J29可伐合金制孔质量的影响因素,提高制孔质量,对4J29合金进行了不同加工参数下的普通钻削和超声振动辅助钻削试验并对钻削轴向力、孔径误差、孔壁粗糙度进行了测量。试验发现:4J29可伐合金在不同加工参数下(切削速度v=0.314～0.942m/s,进给速度f=10～30mm/min),超声振动辅助钻削可降低钻削轴向力,轴向力平均降低35.37N,降幅为18.45%;超声振动辅助钻削可提高制孔精度,孔径误差平均减小17.9μm,降幅为31.5%;超声振动辅助钻削可提高表面质量,对于轮廓算术平均偏差Ra,超声振动辅助钻削使其平均降低了0.4862μm,降幅为28.4%,微观不平度十点高度Rz平均降低了2.4940μm,降幅为20.0%。试验表明超声振动钻削4J29可伐合金比传统钻削加工更具优势,可获得质量更高的加工孔。     

CFRP/钛合金叠层材料制孔技术的现状与展望

综述了近年来国内外对CFRP/钛合金叠层材料制孔技术的研究进展,重点介绍了传统方法钻削CFRP/钛合金叠层材料过程中轴向力和扭矩、钻削温度的测量方法,轴向力和扭矩的变化规律,以及刀具磨损、加工损伤与钻削工艺的关系;对螺旋铣孔、低频振动钻孔和超声辅助振动钻孔的实现方法、运动特点和加工质量进行了分析总结,并对CFRP/钛合金叠层材料制孔技术的应用和研究动向进行了探讨。     

超声振动辅助电火花微孔加工研究进展

超声振动辅助电火花(UVE)微孔加工作为一种特种复合加工技术,是提高难加工材料微孔加工性能的有效途径之一.在UVE微孔加工中,根据超声振动作用形式不同,可分为电极振动、工件振动和工作液振动3种微孔加工方式.电极振动的UVE微孔加工中,超声频率一般为20～40kHz,超声振幅为5μm左右,材料去除率可提高40％～60％,...     

电镀金刚石工具“以磨代铣”C/E复合材料的试验研究

针对硬质合金铣刀铣削加工碳纤维/树脂(C/E)复合材料极易产生毛刺、纤维撕裂等缺陷且刀具磨损严重的特点,尝试采用研制的电镀金刚石工具对C/E复合材料盲槽进行干式加工试验,并与传统的硬质合金铣刀进行对比。通过对加工后的盲槽表面质量、加工力以及刀具磨损分析,确认用"以磨代铣"的工艺方式实现C/E复合材料盲槽加工是可行的。     

陶瓷材料的超声辅助铣磨削加工技术

陶瓷材料由于具有高熔点、高硬度、高耐磨性、耐氧化、良好的绝缘性等优点，使得其在航天领域得到广泛的应用。针对陶瓷材料在常规机械加工过程中易引入微裂纹等非本征缺陷和残余应力等加工缺陷，通过对陶瓷材料特性的理论分析，引入超声振动加工方法。同时，对陶瓷材料超声振动加工的机理进行了分析，对比验证了普通磨削加工和超声辅助铣磨削加工的效果。采用仿真分析了超声加工过程中工件所受的切削压力和内应力云图，并从理论的角度进行了验证，实现了陶瓷材料产品表观质量的大幅提升，其表面粗糙度达到Ra0.56μm。     

复合加工技术在航空复杂零件加工中的应用

复合加工技术在航空发动机制造领域广泛应用,解决了复杂结构零件、难加工材料加工难题,如:采用振动钻孔、振动攻丝解决了细长孔加工难题,采用振动光饰解决叶片表面抛光难题;采用镗铣、车铣复合多功能加工中心实现了多工序集中复合加工,减少了工序周转和辅助加工时间,减少了人为干预,提高了自动化加工水平,为加工过程全程序化控制奠定了基础,保证了零件加工质量的稳定性和可靠性。     

钛合金径向超声振动铣削表面粗糙度研究

为提高钛合金零件加工质量,设计了径向超声振动辅助铣削试验装置,研究了切削速度、切削深度、进给速度和超声振动幅值对钛合金零件表面粗糙度的影响规律.试验结果表明,与普通铣削相比,径向超声振动铣削后工件上的刀痕更加平整、分布更加均匀,材料去除更彻底,有效减少了由于钛合金切屑粘刀造成的表面划痕和积屑瘤等现象.在不同的切削参数下,径向超声振动铣削均可以改善钛合金零件的表面粗糙度,这一点在低速切削时更为明显,而超声振动幅值过大或过小都会影响加工质量.对加工系统的切削力进行了分析,发现超声振动辅助铣削时系统的切削力明显减小,有助于提高加工系统的稳定性,从而能够获得较好的表面质量.     

Al2O3陶瓷蠕动进给超声磨削加工表面质量的试验研究

为探索利用简单形状砂轮对陶瓷材料进行数控展成型面超声磨削,通过对Al2O3陶瓷进行蠕动进给超声磨削和机械磨削对比试验研究,探索各加工参数对磨削表面质量的影响规律.结果表明:超声振动方向与蠕动进给方向平行时可降低表面粗糙度值,而超声振动方向与蠕动进给方向垂直时则不利于改善加工表面质量;在超声磨削条件下,为了提高加工表面质量,应采取较小的磨削深度、较低的进给速度和适当高的磨削速度以及复合进给磨削方式.结合试验结果理论分析了蠕动进给超声磨削和蠕动进给机械磨削加工机理,并根据试验结果选择磨削参数进行了陶瓷叶片型面超声磨削的可行性试验.     

Developing a novel radial ultrasonic vibration-assisted grinding device and evaluating its performance in machining PTMCs

Particle-reinforcing titanium matrix composites(PTMCs) exhibit the sharp raising applications in modern industries owing to its extraordinary physical and mechanical properties. However, the poor grindability and unstable grinding processes due to the existence of TiC particles and TiB short fibres inside PTMCs, leading to the sudden grinding burn and low material removal rate.In this work, a novel radial ultrasonic vibration-assisted grinding(RUVAG) device with a special cross structure was dev...     

超声ELID 复合磨削磨削力模型研究

以ELID 电解原理为基础,结合超声振动辅助磨削过程中单颗磨粒的运动学分析,建立了超声 ELID 复合磨削条件下的磨削力数学解析模型,并对模型进行了分析和仿真。对模型的分析表明:超声振动改 变了磨粒的运动轨迹,使同等条件下的未变形切屑厚度减小,砂轮的在线电解修整使磨粒始终处于锋锐状态, 而且影响砂轮的实际切削深度,进而对磨削力产生影响。磨削力随着超声振动频率、振幅、电解电压、脉冲比、 电解液电阻率的增大而减小;随着切削深度、工件速度的增大而增大。     

Al2O3陶瓷蠕动进给超声磨削特性试验研究

在改装成的超声磨削机床上进行了陶瓷超声磨削与普通磨削的对比试验,以揭示蠕动进给超声磨削加工的磨削特性及其材料去除机理。结果表明:当超声振动方向与磨削进给方向相同时,超声振动所引起的抛磨作用非常显著,超声磨削的表面粗糙度比机械磨削的低;Al2O3陶瓷在一般条件下超声磨削的去除方式仍属于脆性断裂,以晶粒粉碎、穿晶断裂为主,但伴随有沿晶断裂、弹性划擦、塑性流动等现象。     

Vibration coupling effects and machining behavior of ultrasonic vibration plate device for creep-feed grinding of Inconel 718 nickel-based superalloy

Ultrasonic vibration-assisted grinding(UVAG) is an effective and promising method for machining of hard-to-cut materials. This article proposed an ultrasonic vibration plate device enabling the longitudinal full-wave and transverse half-wave(L2T1) vibration mode for UVAG.The characteristics of two-dimensional coupled vibration in different directions were analyzed on the basis of apparent elastic method and finite element method. Furthermore, a correction factor was applied to correct the freque...     

二维超声磨削纳米陶瓷的磨削温度特性研究

采用人工热电偶法,通过普通磨削和二维超声振动磨削对比实验,对纳米ZrO2陶瓷材料平面磨削温度进行了实验研究,并对磨削参数与磨削温度的关系,进行了理论分析及实验验证。     

Research on Ultrasonic Vibration Grinding of the Hard and Brittle Materials

It is well known that grinding techniques are main methods to machine hard and brittle materials such as engineering ceramics. But the conventional grinding has many shortcomings such as poorer surface finish,quicker wear and tear of grinding tools,lower effi-ciency and so on. Ultrasonic vibration grinding (UVG) which combines ultrasonic machining and grinding emerged as a developing and promising technique in recent years. In this paper,experimental studies on UVG were conducted on several kinds of hard and brittle material by altering processing parameters such as vibration frequency and its amplitude,diamond abrasive grit size,cutting depth,feeding speed and rotary speed of tools. The experimental results show that alteration in any of above mentioned parameters will bring effects on the processed surface finish of these materials. Of them,the diamond abrasive grit size has the greatest. Moreover,conven-tional grinding experiments were also carried out on these materials. By comparison,it was found that the UVG is superior to the con-ventional method in terms of the ground surface quality,the working efficiency and the wear rate of tools.     

分段拓扑修形齿轮的成形磨削与试验

基于成形磨削的几何原理和机床运动学原理,提出了斜齿轮副的一种分段拓扑修形方法.通过改变齿顶和齿根处渐开线的发生线长度实现齿廓分段修形;给砂轮附加一个抛物线+直线的径向进给运动实现齿向分段修形.推导出基于成形磨削过程中拓扑修形齿面的计算公式,对修形齿面的边界进行了划分,建立成形磨齿机各伺服轴的运动方程.根据齿面的数值模拟结果,在五轴数控(CNC)成形磨齿机上进行磨削加工与在机拓扑测量,验证了成形法实现齿面拓扑修形的可行性. 对给定转速和负载工况下的齿轮箱进行加载试验,齿轮箱振动能量级幅值下降0.008dB,噪声减小约2dB.研究表明分段拓扑修形有利于降低齿轮传动振动和噪声.      

基于LabVIEW的超精密磨床嵌入式监控系统

针对超精密磨削机床的监控需求,基于NI–sbRIO硬件平台开发了一套应用于超精密磨床状态监测和数据采集的嵌入式监控系统,使用FPGA对温度、振动、声发射等信息进行实时数据采集,并使用实时处理器对数据进行分析和处理,实现对机床的实时状态监测和数据存储。通过FPGA编程取代硬件数据采集卡,成本低,灵活性强。试验表明,该系统能够胜任超精密磨床的监控任务。     

Thermomechanical coupling effect on characteristics of oxide film during ultrasonic vibration-assisted ELID grinding ZTA ceramics

Ultrasonic vibration-assisted ELID (UVA-ELID) grinding is utilized as a novel and highly efficient processing method for hard and brittle materials such as ceramics. In this study, the UVA-ELID grinding ZTA ceramics is employed to investigate the influence of thermomechanical loading on the characteristics of oxide film. Based on the fracture mechanics of material, the model of internal stress for oxide film damage is proposed. The thermomechanical loading is composed of mechanical force and the thermal stress generating from grinding temperature. The theoretical model is established for the mechanical force, thermal stress and internal stress respectively. Then the finite element analysis method is used to simulate the theoretical model. The mechanical force and grinding temperature is measured during the actual grinding test. During the grinding process, the effect of grinding wheel speed and grinding depth on the thermomechanical force and the characteristics of oxide film is analyzed. Compared with the conventional ELID (C-ELID) grinding, the mechanical force decreased by 25.6% and 22.4% with the increase of grinding wheel speed and grinding depth respectively, and the grinding temperature declined by 10.7% and 12.8% during the UVA-ELID grinding. The thermal stress in the latter decreased by 16.3% and 20.8% respectively, and internal stress reduced by 12.3% and 15.6%. It was experimentally found that the topographies of oxide layer on the surface of the wheel and the machined surface in the latter was better than that in the former. The results indicate that the action of ultrasonic vibration establish a significant effect on the processing. Subsequently, it should be well considered for future reference when processing the ZTA ceramics.