共查询到17条相似文献,搜索用时 171 毫秒
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超声波加工己被证明是陶瓷、金刚石、半导体等硬脆性材料加工的有效方法,但其加工效率不高制约着它的广泛应用。因此根据超声波加工材料去除率模型,对磨料粒度、静载荷等加工参数进行探讨,可得出各加工参数对材料去除率的影响。 相似文献
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本文通过超声波加工建筑玻璃小孔的试验,探讨了工具振动的振幅、频率、工件材料、进给压力、工作介质等主要加工参数对去除率和影响和工具设计及加工效果。 相似文献
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介绍了光学玻璃的超声波铣削加工.重点分析了光学玻璃常见的加工方法,并进行了比较.根据光学玻璃精密加工的特点,详细介绍了超声波铣削加工的优点及可行性.研究表明,采用超声波铣削能提高加工效率,加工过程便于检测控制.使用超声波铣削加工可以提高光学玻璃的加工精度,节约加工成本,改变了光学玻璃加工费时费财的现象.对光学仪器或机械... 相似文献
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本文通过超声波加工建筑玻璃小孔的试验,探讨了工具振动的振幅、频率、工件材料、进给压力、工作介质等主要加工参数对去除率的影响和工具设计及加工效果。 相似文献
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短电弧铣削加工作为一种新的放电加工技术,本质上是一种热加工,其对镍基高温合金的加工具有很大优势。为探究短电弧铣削加工GH4099最优电参数工艺组合,创造性建立了GH4099短电弧铣削加工放电凹坑数值模拟模型,研究了电压、频率和占空比对放电凹坑形貌的影响规律,得出GH4099加工的最优电参数:30 V、1 kHz、60%,并通过设计实验,验证该参数加工下的工件材料去除率以及表面质量。这不仅可以实现GH4099材料的高效加工,而且能促进短电弧热加工理论的完善。 相似文献
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线电极放电铣削加工是一种新型电火花铣削技术,它的最大优点是可通过线电极的缓慢移动来补偿加工中的电极损耗。在其加工过程中,由于较多的参数影响(包括电参数和非电参数)及复杂的放电机理,要获得理想的加工效果相当困难。为此,本文通过试验对线电极放电铣削材料去除率进行了初步研究。 相似文献
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Rotary ultrasonic machining of brittle materials, such as glass, ceramics, silicon, and sapphire, has been explored in a large number of experimental and theoretical investigations. Mechanistic models have been developed to predict the material removal rate or cutting force in the rotary ultrasonic machining of brittle materials. However, most merely describe the rotary ultrasonic machining process of drilling holes in brittle materials. There are no reports on the development of a cutting force model for flat surface rotary ultrasonic machining, i.e., rotary ultrasonic face milling. This paper presents a mathematical model for the cutting force in the rotary ultrasonic face milling of brittle materials under the assumption that brittle fracture removal is the primary mode of material removal. Verification experiments are conducted for the developed cutting force model and show that the trends of input variables for the cutting force agree well with the trends of the developed cutting force model. The developed cutting force model can be applied to evaluate the cutting force in the rotary ultrasonic face milling of brittle materials. 相似文献
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An analytical model of rotary ultrasonic milling 总被引:1,自引:1,他引:0
Erich Bertsche Kornel Ehmann Kostyantyn Malukhin 《The International Journal of Advanced Manufacturing Technology》2013,65(9-12):1705-1720
Rotary ultrasonic machining is currently being used as a manufacturing method for advanced ceramic materials, but its complexity has hindered its acceptance in industry. For this technology to gain wider acceptance, it must first be scientifically better understood. The majority of published rotary ultrasonic machining (RUM) papers studied the effect of RUM process parameters on machining performance and removal mechanisms for drilling of circular holes. In industries such as aerospace, the production of advanced turbine components requires machining of complex 3D features using milling strategies. The objective of this paper will be to present a new physical model based on rotary ultrasonic milling which will help provide a better scientific understanding of the process. This will be accomplished by first modeling the macro kinematics between the tool and material followed by the modeling of micro kinematics between the individual diamond grains and the material. In addition, a force model for predicting machining process forces will also be introduced and validated based on a set of experiments. The physical models will help determine the relationships between input parameters, cutting parameters, and process output parameters for rotary ultrasonic milling. 相似文献
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由于大量高硬度增强相SiC颗粒的存在,高体积分数铝基碳化硅(SiCp/Al)复合材料的机械加工十分困难。旋转超声加工被认为是加工这种材料的有效方法。通过超声辅助划痕试验,分析高体积分数SiCp/Al复合材料旋转超声铣磨加工的材料去除机理。在超声振动的作用下,材料中铝基体发生塑性变形,其表面得到夯实;SiC增强相被锤击成细小的颗粒而发生脱落,形成较大的空洞。由于材料加工的缺陷大多产生于SiC颗粒的去除过程中,SiC颗粒的去除方式对加工表面的质量起着决定性的作用,选择合适的工艺参数可以有效提高加工表面质量。旋转超声加工工艺特征试验表明,超声振动可有效降低切削力;主轴转速对轴向切削力的影响最大,其次是进给速度,切削深度对轴向切削力的影响较小;另外主轴转速对表面质量的影响效果也最大,并随主轴转速的增大表面粗糙度增大。因此在加工过程中,可以适当加大切削深度,在保证加工质量的基础上,选择较大的进给速度,在保证刀具寿命的前提下,选择合适的主轴转速,以获得较优的加工表面质量和加工效率。 相似文献
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Songmei Yuan Zhen Li Chong Zhang Alexander Guskov 《The International Journal of Advanced Manufacturing Technology》2018,95(5-8):1751-1761
Ceramic matrix composites of type C/SiC with superior properties have got increasing importance in many fields of industry, especially in the aerospace area. Rotary ultrasonic machining is a high-efficiency processing technology for these advanced materials. However, due to the inhomogeneity and anisotropy of these composites, the machining process is still challenging to achieve desired result due to the lack of understanding and control of material removal mechanism. In this paper, the maximum depth of penetration by diamond abrasives in workpiece material is proposed to quantify the material removal modes. A model of maximum depth of penetration for rotary ultrasonic face machining (RUFM) was developed based on the indentation theory. An experimental RUFM of C/SiC was carried out, and it revealed that the material removal mechanism transited from ductile mode to brittle fracture mode with the decrease of cutting speed. Similar transition was observed with the increase of feed rate and cutting depth. By comparing the measured cutting force with simulation, a critical depth of penetration for the cutting mechanism transition was defined at about 4 μm. The processed surface topography was studied, and the transition of material removal modes was identified by the sudden change of the 3D surface roughness map at the critical penetration depth. Thus, the maximum depth of penetration model developed in this paper can be applied to identify the ductile or brittle fracture removal mode in RUFM of C/SiC using the cutting parameters. This allows controlling the material removal mechanism to achieve desired machining efficiency and quality. 相似文献
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针对超声辅助加工在工件表面形成微刻划表面可以提高高强铝合金表面的微结构性能的现象,进行了单激励旋转超声纵扭复合铣削表面微观结构的试验,基于水接触角理论和纵扭铣削运动学理论分析了加工参数对水接触角的影响;搭建了单激励超声纵扭铣削试验平台,采用正交试验法研究了不同加工参数对表面粗糙度、铣削力以及表面润湿性能的影响。结果表明:超声振幅为4μm时表面质量最佳,切削速度和进给量与表面粗糙度和水接触角呈正相关的关系;超声加工方式下的表面水接触角较普通方式更大,而在超声加工时低振幅加工比高振幅加工的表面水接触角大,当转速达到一定值时,高振幅和低振幅所加工的表面水接触角差别不大。合适的加工参数条件下超声纵扭加工方式可以降低加工表面的粗糙度,改变表面的润湿性。 相似文献