Abrasive machining plays an important role in precision and ultra-precision processing technology.
磨粒加工是现代精密与超精密加工中重要的加工方法。
Abrasive machining for eccentric shaft of rolling cut type sizing shear has been described in this paper.
介绍用磨削方式加工临钢滚切式定尺剪偏心轴的方法。
Precision processing is performed for martensitic stainless steel SUS440C by loose abrasive machining technique.
利用游离磨粒加工方法对马氏体平面不锈钢SUS440C试件进行精密加工。
The magnetic abrasive machining is a method that the magnetic field is used to polish the surface of the workpiece.
磁研磨是利用磁力的作用进行表面抛光处理的新方法。
The big bowl uses the high quality stainless steel manufacture the surface reduces lowly to after the abrasive machining processing use fabric attrition.
在辊筒采用优质不锈钢制造,表面经过磨削加工处理使用织物磨损降低到最低。
Ordinary abrasive machining applications in a large volume of new types of abrasive and grinding of the application of advanced abrasive finishing techniques and set higher requirements.
普通磨具在机械加工中应用量很大,各种新型磨具和先进磨削工艺的应用对磨具修整技术提出了更高要求。
Employing abrasive machining for the form of the gear and intellective-control carburizing and quenching technology for the surface, the gear is with high intensity, strong tenacity and wearability.
齿轮齿形采用磨齿加工,齿面采用智能控制渗碳淬火技术,齿轮的强度高、韧性和耐磨性好。
On the premise of guaranteeing the machining precision and working property of the bearing of abrasive wheel axes, the maintaining cycle is shortened, and the repair cost is reduced.
在保证砂轮轴轴承原有各项加工精度及工作性能的前提下,缩短了维修周期,降低了修复的成本。
Hence it is crucial to deeply study machining mechanism of solid abrasive in a bid to expend the application range.
因此对固着磨料加工机理进行深入研究,以拓展其应用范围具有重要的意义。
According to the function requirement of fixation-girder portal Milling-grind machine, the abrasive belt grinding is used to grind machining the workpiece.
根据定梁龙门铣磨床的功能需求,采用了砂带磨削对工件进行磨削加工。
In view of this, this thesis proposes the use of abrasive flowing machining technology for ultra-precision polishing of nozzle.
鉴于此,本文提出了采用磨粒流加工技术对喷油嘴进行超精密抛光。
The properties of abrasive flow machining are systematically described, various factors influencing the machining and the examples by using this method in aeroengine manufacturing are introduced.
本文较系统地介绍了磨粒流加工的特点、影响加工效果的诸多因素及其在航空发动机制造中的应用实例。
The viscosity of flowable abrasive mixture is an important parameter in abrasive flow machining (AFM).
流体磨料的粘度是磨料流加工工艺的重要参数。
The micro abrasive jet machining (MAJM) technology was used to make micro channels on the glass.
采用微磨料气射流加工技术(MAJM),对普通硅酸盐玻璃进行微流道槽加工。
A new type of magnetic abrasive is introduced and its machining property has been studied through experiments from which the optimal proportion of the abrasive mixture has been obtained.
介绍了一种新型的磁性磨料,并对该磨料的加工性能进行了实验研究,得到了该磨料的最佳配比。
Presently, there are many techniques and one among them is abrasive flow machining (AFM) process.
目前,有很多技术,而其中之一是加工 (AFM) 过程的磨料流。
It is proved by experiments that under appropriate machining conditions, abrasive belt vibration grinding can not only reduce workpiece surface roughness but also improve work-piece form accuracy.
实验表明,在适当的加上条件下,砂带振动磨削不仅可以降低工件的表面粗糙度,而且可以提高工件的形状精度。
The stability of abrasive concentration, the appropriate size of static pressure, and the wear-resistant materials were conducive to the ultrasonic machining.
其中稳定的磨料浓度,适当的静压力大小,耐磨损的工具头材料都会有利于提高超声加工效率。
Abrasive Airjet machining has many advantages, such as high machining versatility, almost no heat generated and low machining cost.
磨料气射流加工技术具有工艺适应性强,没有热影响,加工成本低等优点,是加工硬脆难加工材料的理想加工技术。
Micro Abrasive Jet Machining (MAJM) is a promising technique for micro processing of hard and brittle materials, particularly for machining complicated three - dimensional microstructures.
微磨料空气射流加工(MAJM)技术是对硬脆材料进行微细加工的一种非常有潜力的技术,特别是对复杂的三维微细结构的加工。
In recent years, more and more importance has been attached to the new machining method of engineering ceramics, i. e. abrasive water -jet.
近年来,高压磨料水射流这种新兴的加工工程陶瓷的方法越来越受到人们重视。
A new assumption of boundary conditions of abrasive flow in abrasive flow machining is presented in this paper. The new assumption is verified by a simple experiment.
提出了磨料流加工磨料流动新的边界条件假设,并用简易实验验证了这种假设。
The influence of the technical parameters, including magnetic strength, working gap and machining time etc. on the result of magnetic abrasive finishing is analyzed through experiment.
通过实验,分析了磁感应强度、工作间隙、加工时间等工艺参数对研抛效果的影响。
Meanwhile, the shape and structure of mould structural channel can also be very influential in abrasive flow machining.
同时模具微型流道的形状和结构对磨粒流加工也有重要影响。
The ultrasonic vibration abrasive tape polishing is a compound machining method, based on the open-loop abrasive tape polishing add to the ultrasonic vibration.
超声砂带研抛是在开式砂带研抛中叠加超声振动而形成的一种复合加工工艺。
Micro abrasive water jet machining (MAJM) is becoming an important machining technique for cost effective micro machining.
微磨料水射流加工技术正成为制造微细结构零件重要的经济高效的微细加工技术。
This paper presents a study of using micro-abrasive water jet for the machining of micro-channels on brittle glasses. The erosion mechanism, surface pattern and process performance are studied.
作者在玻璃上进行微磨料水射流微细槽加工的实验基础上,对微磨料水射流加工的表面形貌、材料冲蚀去除机理及加工工艺性能进行了研究。
This paper presents a study of using micro-abrasive water jet for the machining of micro-channels on brittle glasses. The erosion mechanism, surface pattern and process performance are studied.
作者在玻璃上进行微磨料水射流微细槽加工的实验基础上,对微磨料水射流加工的表面形貌、材料冲蚀去除机理及加工工艺性能进行了研究。
应用推荐