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1.
设计钛合金超声椭圆振动辅助车削实验,获得不同超声波电源电压下刀具近似椭圆运动轨迹。分析超声椭圆振动辅助车削切削力变化规律,与普通车削相比超声椭圆振动辅助车削能在较大程度上降低切削力。研究超声椭圆振动辅助车削工件表面粗糙度变化规律,与普通车削相比超声椭圆振动辅助车削工件表面粗度Ra值略增大,Rz值明显降低。分析进给速度对切削力的影响规律,随进给速度增大,普通车削及超声椭圆振动辅助车削切削力均升高。对同一进给速度,与普通车削相比超声椭圆振动辅助车削切削力均降低,且随进给速度增加其降低幅度减小。对比超声椭圆振动辅助车削与普通车削工件表面形貌发现,施加超声椭圆振动后工件表面沿切削速度方向形成有规律振纹。  相似文献   

2.
GH4169高温合金化学铣切表面粗糙度的影响因素   总被引:1,自引:0,他引:1  
为了满足生产对GH4169高温合金化学铣切加工表面粗糙度的要求,通过单因素试验研究了化铣液的主要成分和化铣工艺参数对GH4169高温合金表面粗糙度的影响。结果表明:随着化铣液中FeCl3和HNO3浓度的升高,表面粗糙度呈下降趋势;当化铣液温度高于50℃时,表面粗糙度在1.4μm以下;HCl,HF浓度均为200 mL/L时,表面粗糙度最小;添加剂SA和SN能够降低表面粗糙度和消除凹槽;随着化铣液中Ni2+浓度的增加,表面粗糙度也随之变大,当Ni2+浓度大于26.95 g/L时,表面粗糙度达到1.6μm以上,不符合加工要求;最佳化铣工艺为200~250 g/L FeCl3,200 mL/L HF,150 mL/L HNO3,200 mL/L HCl,0.2 g/L添加剂SA,0.5 mL/L添加剂SN,温度53℃,该工艺下化铣的GH4169高温合金表面质量良好,无凹槽、沟蚀,表面光洁,粗糙度小于1.6μm,符合生产要求。  相似文献   

3.
针对强韧性材料铣磨、小孔磨削等工艺中,因磨削速度低所引起的磨削表面粗糙度不易改善的问题,提出采用轴向超声振动辅助磨削工艺进行加工的方法。从几何层面对轴向超声振动辅助磨削表面创成进行理论分析,并对9Cr18马氏体不锈钢开展磨削试验,对比了轴向超声振动辅助磨削与普通磨削条件下的磨削表面粗糙度及表面形貌。结果表明,轴向超声振动辅助磨削可有效改善磨削表面粗糙度,且改善效果受磨削参数的影响,其中磨削速度对轴向超声振动效果影响最大,进给速度及磨削深度影响相对较小。磨削速度及磨削深度的增加对轴向超声振动效果具有弱化作用;增大进给速度,轴向超声振动效果略有增强。  相似文献   

4.
采用Hashin-Damage失效准则建立碳纤维增强复合材料超声振动辅助车削有限元模型,预测超声振动切削过程中切削力变化,将仿真所得切削力平均值与同条件下实验所得切削力平均值比较,验证有限元模型的有效性。将超声振动辅助车削切削力平均值与普通车削切削力平均值比较,采用超声振动辅助加工手段可明显降低切削力,且随超声振动振幅、频率增加切削力降低。研究超声振幅及频率对复合材料基体破坏及损伤影响表明,随超声振幅及频率增加基体破坏、压溃损伤、开裂损伤程度均降低。  相似文献   

5.
介绍了笔者单位在冲击试样加工中应用基于高速切削加工技术的以铣代磨加工技术,代替了传统工艺中平面磨床的功能,改变了传统的冲击试样加工工艺。与磨削相比,以铣代磨切削力小,切削热影响小,刀具、试样变形小,实现了高精度、低粗糙度加工;同时单位时间材料切除率是磨床磨削的3~6倍,极大的提高了冲击试样的加工效率。  相似文献   

6.
为研究不同方向的超声振动冲击对铣磨加工氧化锆陶瓷的影响规律,基于压痕断裂力学模型,理论分析对工件施加平行和垂直于进给方向的振动时磨粒加工过程,开展不同参数下的磨削试验并对其加工后表面进行检测分析。结果表明:平行施振时工件受到的轴向力F_z和材料去除率(MRR)较之于垂直施振大,但垂直施振方式下工件表面粗糙度Ra更小;在所研究的加工参数中,施振方向是影响工件表面粗糙度的最显著因素;另外,不同施振方式下材料主要去除方式有所差异。  相似文献   

7.
为了对超声振动铣磨加工先进陶瓷的表面粗糙度进行预测,建立了加工表面形貌的仿真模型.通过实验测得砂轮表面形貌和磨粒突出高度信息,并对这些信息进行Kolmogorov-Smirnov正态验证,发现砂轮表面形貌不服从高斯分布.对非高斯分布的数据进行Johnson变换,建立砂轮形貌的数值模型.结合砂轮表面形貌和磨粒与工件的相对运动分析,提出了一种表面轮廓搜索方法,进而生成了加工表面的三维形貌.最后,在DMG ULTRASONIC 70-5 linear机床上进行切削实验,对仿真结果进行了验证,结果表明仿真与实验结果具有较好的一致性,并对仿真误差产生的原因进行了分析.  相似文献   

8.
碳纤维增强树脂基复合材料制孔技术研究现状与展望   总被引:10,自引:0,他引:10       下载免费PDF全文
碳纤维增强树脂基复合材料(CFRP)具有优越的物理和力学性能,已在航空制造工业中得到大量应用。在主承力结构中,CFRP与金属材料的连接通常为机械连接。然而,CFRP的各向异性严重影响了其制孔质量。由于CFRP和金属具有截然不同的材料属性,CFRP/金属叠层结构制孔技术成为飞机装配过程中的一大难题。本文首先阐述了CFRP及其叠层结构在切削过程中的切屑形成机制、钻削力和钻削热的研究现状;其次,剖析了钻削过程中典型加工损伤,如毛刺与撕裂、分层缺陷及孔壁表面损伤的产生原因和影响因素;然后,介绍了CFRP制孔刀具材料和几何结构的优化设计研究进展,并综述了螺旋铣孔、变工艺参数钻削、"以磨代钻"和振动辅助制孔等多种CFRP及其叠层结构加工新技术及钻削过程的仿真研究。最后,借鉴钎焊工具和超声振动技术的独特优势,提出了磨粒有序排布钎焊金刚石工具的超声振动加工构想,以达到CFRP及其叠层结构的精密高效制孔加工这一目的。  相似文献   

9.
利用一种新的电铸技术——游离粒子辅助磨电铸技术进行镍锰合金的电铸试验。验证了游离粒子的辅助摩擦研磨作用对镍锰合金电铸层的表面形貌、表面粗糙度、锰含量分布及电流效率的影响,并与传统电铸技术所制备的镍锰合金电铸层进行对比。结果表明:采用游离粒子辅助磨电铸技术所制备的镍锰合金电铸层外观光亮平整,表面粗糙度Ra由0.6μm降到0.05μm,晶粒得到了明显的细化,由微米级尺度降低到150nm以内;电流效率由80%左右增至96%;另外,通过调节阴极旋转速度可以改变电铸层中锰含量,随着阴极转速的提高电铸层中锰含量增加,当超过一定转速时,锰含量开始下降。  相似文献   

10.
以单颗磨粒为对象,分析了轴向超声振动下磨粒的运动特性;在此基础上,将磨削力分为切削变形力和摩擦力两部分,分别分析了轴向超声振动对切屑变形力和摩擦力的影响。在切削变形力方面,轴向超声振动改变了磨粒的运动方向和运动轨迹;在摩擦力方面,轴向超声振动降低了磨粒与工件间的摩擦因数;结合切向磨削力与热源强度的关系,以及温升是磨削表面残余应力产生的主要因素,建立了轴向超声振动辅助磨削的表面残余应力模型。进行轴向超声振动辅助磨削45钢的表面残余应力实验,确定了模型的常数,并验证了所建模型的正确性。  相似文献   

11.
为研究碳纤维蜂窝复合材料切削过程中切削宽度和切削方向对表面质量的影响,本文开展了高速切削碳纤维蜂窝实验,分析了切削过程中切削力的变化特征,获得了切削宽度和切削方向对切削力的影响规律。同时,观测了碳蜂窝典型表面缺陷形貌,分析了不同切削宽度和切削方向下表面缺陷的分布规律。进一步以蜂窝壁损伤面积占比作为表面质量的评价方法,定量研究了切削宽度和切削方向对于碳蜂窝表面质量的影响。实验结果表明:在碳纤维蜂窝复合材料加工过程中,减小切削宽度和改变切削方向可有效降低加工损伤。切削力随着切削宽度的增大呈现出增大的趋势;毛刺、撕裂、孔壁破损以及孔壁开胶等损伤现象也随着切削宽度的增大而增加。此外,碳纤维蜂窝复合材料的表面质量还与切削方向有关,相较于沿双层孔壁方向切削,当切削宽度分别为5、10及15 mm时,沿垂直于双层孔壁方向切削的损伤分别减小了22.5%、13.4%和8.7%。  相似文献   

12.
Microgroove, as a form of surface texturing, has a wide array of industrial applications. However, the use of conventional methods to machine microgrooves leads to a number of problems including large burrs, high cutting forces, and poor machining quality. In this paper, ultrasonic elliptical vibration cutting is used to assist microgrooves turning on cylindrical workpiece surfaces. The elliptical locus in the cutting process is generated by a newly designed 2D resonant ultrasonic vibrator. A series of microgrooves cutting experiments without and with the ultrasonic elliptical vibration-assistance is performed to verify the effects of the ultrasonic elliptical vibrations as compared to the ordinary cutting method. The generated cutting forces, burr suppression action, and microgroove surface quality are compared for the two classes of processes. Comparison results show the effectiveness of elliptical vibration-assisted microgroove cutting in reducing cutting forces and improving microgrooves machining quality for difficult-to-cut materials. The results also show that ultrasonic elliptical vibration-assisted cutting improves the microgroove turning process with respect to cutting forces, microgroove surface roughness, and burr formation for difficult-to-cut materials.  相似文献   

13.
Ultrasonic vibration cutting has been proved to be an effective cutting technology for its excellent cutting performance and has been widely applied in turning and drilling process. However, this kind of technology is rarely tried in milling process. In cutting process, cutting force is an important process parameter, which affects surface finish and tool wear. This paper investigates the milling force variation in ultrasonic vibration-assisted end milling process through a series of slot-milling experiments. The main research contents include two parts, one is the effect of the externally excited vibration on milling force in milling process, and the other is the influence of milling and vibrating parameters matching on milling force value. Experimental results show that ultrasonic vibration can change traditional milling conditions, realize separate-type milling, obtain similar pulse-like profiles of cutting forces, reduce average cutting force value; and the peak value of the feed direction cutting force can also be greatly decreased by adopting reasonable vibration amplitude, an optimal combination of machining parameters is of great benefit to achieving small cutting force. According to the experimental findings, ultrasonic vibration-assisted milling is a prospective technology to achieve precision milling of small part.  相似文献   

14.
Vibration-Assisted Precision Machining of Steel with PCD Tools   总被引:1,自引:0,他引:1  
This article presents experimental results of precision machining of steel alloys with polycrystalline diamond tools. Ultrasonic vibration-assisted cutting was tried out for expanding the application of diamond tools for high-precision and high-quality machining of ferrous materials. The experimental results show that compared with conventional turning, the cutting performance, in terms of cutting force, surface finish, and tool life, was improved by applying ultrasonic vibration to the cutting tool. The cutting forces and tool wear measured in vibration cutting are much lower than those in conventional cutting. The tool wear mechanism was discussed on the basis of the observation of wear zone.  相似文献   

15.
Fiber-reinforced ceramic matrix composite (FRCMC) have been widely used in aerospace and other high-technology fields due to their excellent mechanical and physical properties. However, FRCMC is a kind of typical material with anisotropic and inhomogeneous structure; thus, it is difficult to guarantee the precision and surface quality using traditional machining. The present paper employed ultrasonic vibration-assisted grinding (UAG) to machine 2.5D woven SiO2f/SiO2 composites. By comparing the grinding force, surface microstructure, chip formation, surface topography and surface roughness with and without ultrasonic vibration for the machining of SiO2f/SiO2 composites, the feasibility of UAG on FRCMC was investigated experimentally. In addition, the effects of the process parameters (including spindle speed, feed rate, grinding depth, grain mesh size and ultrasonic power) on grinding force and surface roughness were studied through an orthogonal experiment. The research obtained can be a useful technical support for the development of UAG in the machining of FRCMC.  相似文献   

16.
基于径向基函数神经网络的CFRP切削力预测   总被引:1,自引:0,他引:1       下载免费PDF全文
碳纤维增强树脂基复合材料(CFRP)加工中基体相极易因切削力过大而破坏,并迅速扩展至加工表面以下而形成损伤。为了准确预测其切削力并加以控制,基于实验切削力数据建立了人工神经网络切削力模型,预测了不同纤维角度、切削深度和刀具角度下加工CFRP的切削力变化规律,并完成了不同刀具角度及切削参数下典型纤维角度CFRP单向板的直角切削实验,对预测模型进行验证,其预测精度可达85%以上。结合成屑过程在线显微观测结果可知:纤维角度是影响CFRP切削力的主要因素, 0°~135°范围内,切屑形成方式为切断型和开裂后弯断型;切削力随纤维角度增大呈先减小后增大的趋势, 135°时最大,随切削深度增加,切削力总体呈增大趋势。   相似文献   

17.
采用化学气相沉积(chemicalvapordeposition,CVD)厚膜金刚石刀具进行模具钢超声振动切削实验.首先阐述刀具的材质特点,观测其刀尖微观形貌和切削刃截面轮廓.然后搭建了适应精密/超精密加工需求的超声振动切削实验装置,其中激振机构可稳定实现频率42.0kHz、振幅峰峰值8~9μm的振动输出.通过切削无氧铜实验证明该超声振动切削装置工作有效、稳定后,选用AISI420模具钢进行切削实验,研究切削工艺条件及切削用量对加工质量的影响,得到适用于CVD厚膜金刚石刀具的切削用量选取范围,对比研究发现超声振动切削在提升加工表面质量、减少金刚石刀具磨损方面均优于常规切削.本研究可使切削模具钢时的金刚石刀具磨损VBmax由500~600μm减少至40μm,模具铜表面粗糙度Ra由0.93μm改善至0.09μm.本研究为金刚石刀具超声振动切削模具钢的实用化积累工艺经验,并探索提供可行的技术实现途径.  相似文献   

18.
微细切削技术是传统加工工艺向微观尺度的延伸,在微加工领域具有重要的作用,尤其适用于三维零件及微结构的加工。与其他微细切削技术相比,微细磨削技术具有加工零件棱边精度高、适于硬脆性材料加工等优势,但其存在加工效率低、磨削热量大、微砂轮易磨损等缺陷。已有研究表明,于机械加工辅加超声振动的复合加工技术可有效降低切削力、切削温度,增大脆性材料脆-塑转变临界切削深度,改善加工表面质量等。因而超声振动辅助微磨削技术被认为是一种可有效解决微磨削加工现存缺陷的技术。主要从微磨削技术研究现状、尺寸效应机理研究、脆性材料塑性域去除机理研究、超声振动切削实验研究、超声振动切削断续切削机理研究及微磨削动态有效磨刃密度建模研究六个方面,对微磨削技术及超声振动辅助切削技术相关领域研究进行综述,并探讨超声振动辅助微细磨削技术加工机理研究及未来发展需注重解决的问题。  相似文献   

19.
SiCp/Al composites have been widely used in many fields such as aerospace, automobile, advanced weapon system, etc. But this kind of material, especially with high volume fraction, is difficult to machine due to the reinforced particles existing in matrix, which has limited its further application. Rotary ultrasonic machining (RUM) has many excellent features and it has never been used to machine SiCp/Al composites. In order to improve the machinability and application of SiCp/Al composites, the rotary ultrasonic face grinding experiments of SiCp/Al composites reinforced with 45% volume SiC particles were carried out to investigate cutting force, surface quality, tool wear, and abrasive chip shapes. The experimental results indicate that ultrasonic vibration could reduce cutting force, surface roughness, surface defects, and increase plastic removal ratio. The cutting force could be lowered by an average of 13.86% and the surface roughness could be lowered by an average of 11.53%. The examined results of tool wear patterns suggest that tool wear is mainly caused by grain breakage and grain fall-off. Grinding wheel blockage and grinding burn were not observed in machining process.  相似文献   

20.
以单向玻璃纤维增强复合材料为研究对象,通过改变切削参数对在不同纤维方向角情况下的切削力和已加工表面的粗糙度进行了测试,并结合已加工表面的SEM观察,对复合材料的直角切削技术进行了试验研究。结果表明,纤维方向角对切削力和粗糙度以及切削区损伤程度的影响较大,是影响单向复合材料切削性能的重要因素;切削速度越快,粗糙度变化趋势越大。  相似文献   

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