旋转超声加工是加工硬脆材料的一种较好方法。
Rotary ultrasonic machining is an effective way for machining hard and fragile materials.
旋转超声加工是加工硬脆材料的一种较好方法。
Rotary ultrasonic machining is an effective method for machining hard and fragile materials.
旋转超声加工已成为加工硬脆材料的主要方法之一。
Rotary ultrasonic machining has been one of the main method for machining hard-brittle materials.
超声加工过程中,材料的去除率直接影响加工效率。
In ultrasonic machining, machining efficiency is directly effected by material removal rate.
因此超声变幅杆设计的优劣直接影响到超声加工的质量。
Therefore the design of ultrasonic horn is directly impact on the quality of ultrasonic machining.
频率跟踪和恒定振幅控制是超声加工电源两个重要的特性。
Frequency automatic tracking and amplitude stabilizing are two important characteristics of ultrasonic machining power.
为进行硬脆材料的旋转超声加工,研制了智能超声波发生器。
A smart ultrasonic generator was investigated for rotary ultrasonic machining of hard, fragile material.
通过试验研究了以硬度为主的材料性能对超声加工工具磨损影响的规律。
This paper researches law of tool material hardness affecting wear in ultrasonic machining.
超声加工的核心部分是超声振动系统,而变幅杆又是超声振动系统中关键的一环。
The core of ultrasonic machining is ultrasonic vibration system, while the ultrasonic horn is a key element.
尽管如此,旋转超声加工仍然不能避免硬脆性材料加工中的边缘破损等常见问题。
RUM can not avoid the common problems of machining brittle and hard materials like edge-chipping.
超声加工是目前加工玻璃、钻石、工程陶瓷等硬度高、脆性大材料的一种比较好的方法。
Today ultrasonic machining is a good method to machine hard and brittle material, such as glass, diamond, engineering ceramics.
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。
The stability of abrasive concentration, the appropriate size of static pressure, and the wear-resistant materials were conducive to the ultrasonic machining.
随着超声清洗、超声加工、超声焊接、超声医疗等技术的日益普及应用,功率超声在工业上的应用越来越广泛。
With the more application of ultrasonic cleaning, ultrasonic machining, ultrasonic welding, ultrasonic medical treatment and so on, power-ultrasonic applied in the industry more and more.
试验结果表明,超声电解复合加工和单一的超声加工、电解加工比较可显著提高其加工速度、加工精度及表明质量。
The experimental result indicates that cutting speed, precise process and surface quality of the combined USM and ECM machining are all greatly improved compared with those of the USM or ECM.
本文以硬质合金拉丝模为试验研究对象,探讨了超声加工设备有关问题,进行了超声加工工艺的研究,介绍了拉丝模的生产试验情况。
Subject for carbide wire drawing dies, it analyses the problems related to ultrasonic machining equipment, investigates ultrasonic process and introduces the production and test of dies.
在加工过程中,通过超声波振动,工件加工工艺得到改善。
During machining, ultrasonic vibration of workpiece can improve the machining process.
我们拥有印刷、烫金、超声熔接、组装等二次加工工程。
We have secondary processes like printing, hot stamping, ultrasound welding, assembling etc.
超声珩磨与珩研复合加工技术是近来对发动机缸套等重要零件表面纹理特性研究的热点。
Ultrasonic honing and lapping complex machining technology is the hot topic of the surface texture characteristics of important parts such as engine cylinder sleeves.
进行了超声振动车削与普通车削、磨削加工陶瓷材料的对比试验研究。
Machining of ceramics processed by ultrasonic vibration-turning is experimentally compared with that through conventional turning and grinding.
介绍一种新的气体超声波振动电火花加工方法。
A new method of ultrasonic vibration electrical discharge machining in gas is proposed in this paper.
利用传统电磁感应理论研究了无接触感应电能传输系统和应用在超声振动加工系统中的设计方法。
Contactless inductive power transfer system with conventional inductive technology was researched and a design method was presented after applying it to ultrasonic vibration machining system.
综述了超声波及其在纺织品湿加工中的应用。
Ultrasound and its application on wet processing of textiles are reviewed.
本文以超声波振动切削为例介绍了超声波振动加工中自动调谐技术的实现方法。
Taking ultrasonic vibration cutting (UVC) as an example, this paper puts forward a method of tuning automatically for ultrasonic vibration machining (UVM).
集团核心业务领域覆盖全面,包括“车削”、“铣削”、“超声振动加工”、“激光加工技术”及为机床和太阳跟踪系统而设计的自动化与软件解决方案。
The core business areas of "Turning", "Milling", "Ultrasonic" and "Laser" are complemented by automation and software solutions for machine tools and solar tracking systems.
本文综述了检测超声和功率超声在高分子检测,高分子加工,高分子化学方面应用的最新进展。
This paper discussed the recent development of the applications of diagnostic ultrasonics and power ultrasonics in polymer inspection and measurement, polymer processing and polymer chemistry.
建立平行、不可展直纹面数学模型,确定超声磨削加工平行、不可展直纹面时磨轮空间轨迹及其算法。
The mathematical model of parallel and undevelopable ruled surface was constructed, the algorithm for NC ultrasonic grinding surface was founded.
在纺织加工的不同阶段,超声波在染色方面的应用是最有发展前景的。
Out of the different sections of textile processing, ultrasonic applications to dyeing appears to be most promising.
在纺织加工的不同阶段,超声波在染色方面的应用是最有发展前景的。
Out of the different sections of textile processing, ultrasonic applications to dyeing appears to be most promising.
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