共查询到19条相似文献,搜索用时 171 毫秒
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钛合金径向超声振动铣削表面粗糙度研究 总被引:2,自引:0,他引:2
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. 相似文献
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微纳复合织构自润滑陶瓷刀具的制备及切削性能 总被引:2,自引:0,他引:2
金属干切削过程中,由于前后刀面与切屑和工件之间存在的剧烈的摩擦,切削温度极高,刀具的磨损十分严重,导致刀具寿命降低[1],为解决这一问题国内外学者不断寻求幕发新型刀具材料,优化刀具结构,研究新型刀具[2-4].
近年来,摩擦学与仿生学研究领域提出表面织构能够有效地减小摩擦,降低摩擦系数[5-8],将这种技术应用于切削加工刀具将是一种富有前景的研究领域.目前国内外学者将表面织构应用于刀具研究尚处在起步阶段.日本学者Kawasegi[9]等利用飞秒激光在WC-Co硬质合金刀具前刀面加工了微纳米沟槽织构,在干切削和最小微量润滑(MQL)条件下切削铝合金试验,结果表明微纳织构能有效地降低切削力. 相似文献
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针对微织构刀具对钛合金Ti6Al4V切屑形成以及微槽二次切削机理分析的不足,通过建立热-力耦合仿真模型对比研究不同微织构刀具、微织构几何尺寸以及切削速度对切屑形成的影响规律。数值仿真结果表明:微织构刀具更有利于断屑,二次切削作用使切屑的弯曲半径变大,微织构可以减小刀屑之间实际接触面积,降低切削温度。增大微织构宽度可以增强微槽的二次切削作用,利于断屑,但应注意其对刀具强度的削弱作用,而增大相邻微槽间距则会出现相反的二次切削作用机制。提高切削速度对各刀具均有利于断屑,弧形微织构刀具的降温效果最好,V形微织构刀具次之,矩形微织构刀具降温效果最差。研究结果对进一步理解微织构刀具对钛合金切屑的二次切削作用机理提供一定参考。 相似文献
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在深孔加工中,给刀具(工件)施以低频轴向振动,成功地解决了切屑处理问题,降低了因切屑堵塞而引起的刀具破坏的可能性,但刀具的磨损寿命有所下降。 相似文献
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石英增强聚酰亚胺树脂基复合材料是一种非均匀的各向异性材料,其加工性能高度依赖于纤维铺层方向与加工进给方向所成角度,即纤维方向角。本文通过一系列不同纤维方向角的干切削和超低温冷却铣削实验,研究了纤维方向角对表面形貌、表面粗糙度、铣削力及刀具磨损的影响。结果表明:不同纤维方向角,剪应力形式不同,切削断屑形式也不同。纤维方向角为锐角时铣削表面质量均良好,但当纤维方向角增大到90°时,切削表面质量下降,切削力变化幅度增大。相同铣削时间内,在干切削工况下,刀具磨损严重,涂层脱落面积约为测量面积的70%;而在低温切削工况下,涂层未遭到严重破坏,刀具仍处于稳定磨损阶段,刀具耐用度优于干切削工况。 相似文献
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以椭圆超声振动切削为研究对象,通过理论分析,有限元仿真和切削实验,研究了切深变量对其切削过程中机理的影响。指出在微小的切深条件下,刀尖钝圆影响不可忽略,其切削过程表现出微细切削特性。一方面,基于微细切削理论,建立了正交椭圆超声振动切削运动学和力学模型,将切削区分为后刀面回弹区、刀尖犁切区、刀尖剪切区和前刀面摩擦区四个区域,并依次对四个区域内不同切深条件下各个切削分力进行计算分析。另一方面,对切削过程进行有限元仿真和切削实验。其结果表明:当切深小于最小切削厚度时,切削过程主要为刀具后刀面的回弹挤压与摩擦和刀尖钝圆的犁切作用,不产生切屑,切深抗力大于主切削力;当切深大于最小切削厚度并逐渐增大时,刀尖剪切和切屑与前刀面的挤压与摩擦作用逐渐凸显并成为主要切削方式,此时主切削力逐渐超过切深抗力并迅速增大。 相似文献
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Rotary ultrasonic drilling(RUD) has become an effective approach for machining advanced composites which are widely using in the field of aeronautics. The cutting kinematics and the corresponding material removal mechanisms are distinct in different drilling areas during RUD. However, these fundamentals have not been fully considered in the existing studies. In this research, two distinct forms of interaction induced by ultrasonic vibration were considered as impact-separation and vibratory lapp... 相似文献
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针对碳纤维增强复合材料(CFRP)和钛合金叠层结构在传统钻削过程中切削温度高、加工质量差等问题,基于低频振动钻削和高频(超声)振动钻削的优势,提出了高低频复合振动钻削的加工方法。采用自主研制的高低频复合振动钻削装置,对CFRP/钛合金叠层结构进行了制孔试验,对比研究了普通钻削、超声钻削、低频振动钻削和高低频复合振动钻削4种方式下的切削力、钛合金切屑形貌、切削温度和CFRP孔加工质量。结果表明:4种加工方式中,高低频复合振动钻削的轴向力波动相对较大,切削温度显著降低,产生的钛合金切屑呈不连续扇形且整体尺寸最小,CFRP孔出入口及孔壁的损伤程度最低,显著提高了加工质量,为复合材料叠层结构一体化制孔加工提供了指导意义。 相似文献
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《中国航空学报》2021,34(6):209-219
Inconel718 was machined with the traditional micromilling (TMM) and ultrasonic vibration assisted micromilling (UVAMM) with the different technology parameters, whose surface quality and burrs formation were studied. The results show that TMM often forms pits, bumps and gullies in the size effect range. UVAMM effectively improves the surface quality compared with TMM. The surface defects are significantly reduced with the increase of feed per tooth (ƒz). When ƒz exceeds 4 μm, the effect of ultrasonic vibration on the surface quality is no longer obvious. The minimum burr size on the down milling side and the up milling side are 50.23 μm and 36.57 μm, respectively. The feasibility of vibration cutting in improving surface quality and suppressing burr size was verified. UVAMM effectively suppresses the formation of built-up edge, which can significantly improve the micromilling process. The cutting force is obtained through simulation and experiment. They are agreement in the change trend. The finite element simulation can be used to predict the cutting force. Compared with TMM, feeding force (Fx), radial force (Fy) and axial force (Fz) of UVAMM decrease by 7.6%, 11.5% and 1.3%, respectively. 相似文献
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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。 相似文献
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《中国航空学报》2021,34(4):160-173
Ultrasonic vibration-assisted milling has been widely applied in machining the difficult-to-cut materials owing to the remarkable improvements in reducing the cutting force. However, analytical models to reveal the mechanism and predict the cutting force of ultrasonic vibration-assisted milling metal matrix composites are still needed to be developed. In this paper, an analytical model of cutting force was established for ultrasonic vibration-assisted milling in-situ TiB2/7050Al metal matrix composites. During modeling, change of motion of the cutting tool, contact of tool-chip-workpiece and acceleration of the chip caused by ultrasonic vibration was considered based on equivalent oblique cutting model. Meanwhile, material properties, tool geometry, cutting parameters and vibration parameters were taken into consideration. Furthermore, the developed analytical force model was validated with and without ultrasonic vibration milling experiments on in-situ TiB2/7050Al metal matrix composites. The predicted cutting forces show to be consistent well with the measured cutting forces. Besides, the relative error of instantaneous maximum forces between the predicted and measured data is from 0.4% to 15.1%. The analytical model is significant for cutting force prediction not only in ultrasonic-vibration assisted milling but also in conventional milling in-situ TiB2/7050Al metal matrix composites, which was proved with general applicability. 相似文献