慢走丝电火花线切割加工精度是衡量加工性能的重要指标之一。
Machining accuracy of slow-feeding EDM wire-cut is one of major targets scaling processing properties.
为进一步研究气中电火花线切割加工工艺规律提供了理论依据。
The research on the technologies of micro wire electrical discharge machining (micro-WEDM) was presented.
电火花线切割加工的表面粗糙度是衡量加工质量的重要指标之一。
The surface roughness in the wire cut of electric discharge machine work is one of the important parameters to measure the work performance.
开发了能实现复杂曲面零件电火花线切割加工的多轴联动加工系统。
In this paper, the motion rules of multiple spindle linkage motion in machining complex ruled curved surfaces by WEDM was analyzed.
研究了电火花线切割加工工程陶瓷的表面完整性及其淬火强化处理。
This paper attempts to study the surface integrity of WEDM engineering ceramics and their strengthening by quenching.
分析了板线内导体在利用数控电火花线切割加工中所遇到的工艺技术难题。
The core technique problems during wire cut electrical discharge machining in the inner conductor sheet were analyzed by this paper.
电火花线切割加工中,影响模具加工精度与表面粗糙度的原因是多方面的。
This paper analyses the influence factors of technological indexes for die & mould machining quality , and introduces improvement measures in wire cutting.
气中电火花线切割加工技术是近几年出现的一种新技术,它采用气体作为介质。
WEDM in gas is a kind of newly developed technology, in which gas has been used as a dielectric.
高速走丝电火花线切割加工过程中,电极丝有时会出现先有花斑后断丝的现象。
Indistinct pattern are sometimes found on the wire electrode wound regularly in reciprocating travelling WEDM.
高速走丝电火花线切割加工过程中,电极丝有时会出现先有花斑后断丝的现象。
Indistinct pattern are sometimes found on the wire electrode wound regularly in reciprocating travelling WEDM. It is appeared before wire broken.
研究了在大气和乳化液两种介质中,峰值电流对高速走丝电火花线切割加工的影响。
The influence of peak current on finishing high-speed wire electrical discharge machining (WEDM) in gas and emulsion dielectric is studied.
电火花线切割加工精度,主要指尺寸精度、形状精度、位置精度以及加工表面粗糙度。
The machining accuracy of WEDM means mainly the dimensional accuracy, accuracy of form, accuracy of position, and the surface roughness of cut surfaces.
在现代电力电子技术基础上,开发出新型微能可控的微细电火花线切割加工脉冲电源。
Base on power electronic, a newly micro energy controlled pulse generator for MWEDM was developed.
电火花线切割加工过程复杂多变,难以定量控制,影响因素较多,相互关联又相互矛盾。
Wire Electrical Discharge Machining (WEDM) process is changeable and difficult to control quantitatively. Many factors influence the process and they are related and contradictive.
开发了以新型翻转式自动分度数控回转工作台为核心的复杂曲面电火花线切割加工系统。
Taking newtype numerical control turntable as the core, a WEDM system for complicated surfaces was developed.
通过辅助电极利用高速走丝电火花线切割加工的方法对绝缘陶瓷氮化硅作了加工实验研究。
This paper investigates the high speed wire electrical-discharge machining (HSWEDM) of Si3N4-based ceramics by assisting electrode method.
采用一般的脉冲电源对磁钢进行电火花线切割加工,不可避免地将引起充磁,造成排屑困难。
When the method of general pulse power of wire cut EDM is used, magnetic steel has magnetic property inevitably and it is difficult to evacuate.
对进一步提高微细电火花线切割加工精度,减少电极丝的损耗,降低加工成本具有一定意义。
The measures and solution for decreasing wire wear are proposed, which are significant to increase the precision of Micro-WEDM process, reduce the wire wear and cost of the machining process.
设计了一套超声辅助电火花线切割加工的实验装置,并对复合加工的机理和特性进行了研究和探讨。
A set of experimental device that ultrasonic aided wire cut machining has been developed. and the mechanism and inherent nature of combined technology are explored and studied in deep going.
本文采用传统方法进行电火花线切割加工工艺参数优化,分别建立了加工速度和表面粗糙度的数学模型。
This article is about the processing parameter optimization achieved through the traditional method to set a mathematical model of the processing speed and surface roughness.
电火花线切割加工时工具(电极丝)和工件之间的放电电压是对放电加工过程进行实时检测的重要参数。
Voltage between tool and workpiece is an important parameter in the on line monitoring of wire electrical discharge machining (WEDM) process.
试验表明,这种高质量的脉冲电源为改善微细电火花线切割加工整体性能、拓展加工领域提供了技术保证。
A large quantity of experiment show that this MWEDM pulse generator can improve overall process performances, provide guarantee of technology for expanding machining field.
在分析微细电火花线切割加工特点的基础上,对获得高精度、高表面质量工艺指标的关键技术进行了研究。
Based on analyzing the characteristic of MWEDM (Micro wire electrical discharge machining), the key techniques are studied for meeting the needs of high precision and surface integrity.
随着对产品性能和加工精度要求的不断提高,低速走丝电火花线切割加工在机械加工领域中的地位日益突出。
With the improvement of product performance and accuracy of machining, LS-WEDM has increasingly played an important role in the field of mechanical machining.
而往复走丝电火花线切割加工是我国基于本国国情自行研发并普遍应用的经济高效型电火花线切割加工方式。
Reciprocating feed WEDM, which consumes less time and wire electrode, is independently developed machining method originated according to China's national condition.
分析了在微细电火花线切割加工中出现的各种丝损现象,以及影响丝损现象的原因,提出了减少丝损的措施和对策。
The phenomena of wire wear in the process of Micro-WEDM and the relevant factors causing wire wear are analyzed.
通过对仿真结果的分析,总结出典型运动形式下复杂直纹曲面电火花线切割加工系统加工空间直纹曲面的一般规律。
After the simulating results are analyzed, some general rules of machining complex ruled surface by means of WEDM system under typical motion types are figured out.
拥有先进的电火花线切割加工等专业设备,独到的设计,精益求精的品质,使南方尼的模具遍及大江南北,美名远扬。
The company is equipped with advanced electric spark and line cutting etc . equipment . nanfang nylon mould has enjoyed high confidence and popularity throughout china owing to precise manufacturing.
数控电火花线切割加工在机械电子、兵器工业、航空航天以及仪器仪表等行业新产品的研发制造过程中发挥着关键作用。
CNC WEDM plays a key role in the manufacturing process of researching and developing new products in mechatronics, weapons industry, aerospace and instrumentation industries and other industries.
数控电火花线切割加工在机械电子、兵器工业、航空航天以及仪器仪表等行业新产品的研发制造过程中发挥着关键作用。
CNC WEDM plays a key role in the manufacturing process of researching and developing new products in mechatronics, weapons industry, aerospace and instrumentation industries and other industries.
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