镜面磨削

ELID镜面磨削技术&金属结合剂砂轮的研制

ELID Mirror Grinding Technology & Development of Metal Bonded Grinding Wheel

精密ELID镜面磨削用新磨削液的研制

A New Kind of Fluid for ELID Precision Mirror Grinding

ELID镜面磨削硬质合金的工艺参数实验研究

Study on the Experiment of ELID Grinding of Carbide Allay

ELID镜面磨削技术&砂轮快速修整技术的研究

Research on Rapid Wheel Dressing Technology in ELID Grinding Technology

硬质合金ELID镜面磨削的试验研究

Experimental Study on ELID Mirror Surface Grinding Technology of Carbide

ELID超精密镜面磨削钝化膜状态变化的研究

Research on State Change of Passivation Layer in ELID Ultraprecision Mirror Grinding

ELID超精密镜面磨削砂轮磨损规律的研究

A study of wheel wear in ELID ultraprecision mirror grinding

ELID镜面磨削热源和热量分配模型

Heat source and heat partition models of ELID grinding

ELID镜面磨削砂轮氧化膜生成机理

Research on the Forming Mechanism of Oxide Film on Grinding Wheel Used for ELID Mirror Surface Grinding

ELID镜面磨削用铸铁超硬砂轮的快速精密整形研究

Study on the Precision Truing of Cast Iron Bonded Superabrasive Wheel in Short time for ELID Mirror Grinding

ELID镜面磨削技术&综述

ELID Mirror Grinding Technology

铸铁纤维、铸铁结合剂超硬磨料砂轮在ELID超镜面磨削中的应用

Applications of Cast-iron Fiber Bonded Wheels and Cast-iron Binder Bonded Wheels in ELID for Ultra-precision Mirror Surface Grinding

HR-1抗氢不锈钢精密镜面磨削的实验研究

The Experimental Study on Precision Mirror Surface Grinding of HR-1 Anti-hydrogenation Stainless Steel

本文引入金属基超硬磨料砂轮在线电解修整（ELID）技术，对陶瓷喷涂层进行精密镜面磨削的实验研究。

This article introduces precision mirror surface grinding of ceramic coating using metal bond diamond grinding wheel with electrolytic in process dressing ( ELID ) technology .

在线电解修整（ELID）镜面磨削技术作为一种低成本高效率的超精密镜面加工技术，广泛应用在现代超精密加工领域中。

As a low cost and high efficiency ultra-precision mirror processing technology-ELID mirror grinding technology , is widely used in the field of modern ultra-precision machining .

铸铁超硬砂轮的超精密镜面磨削

Ultraprecise Mirror Grinding with Cast Iron Bonded Superhard Grinding Wheel

在线电解修整砂轮的超精密镜面磨削新技术的发展与应用

Ultra - Precision Mirror Surface Machining with ELID Dressed Wheel

在线电解修整镜面磨削中砂轮耐用度的研究

Life of grinding wheel during ELID mirror surface grinding

超精密磨削和镜面磨削的工艺特点

Processing Characteristics of Ultraprecision Grinding and Mirror Finishing

光学零件镜面磨削加工技术

Grinding technique of mirror surface of optical parts

陶瓷刀具材料的精密镜面磨削

Precision Mirror Grinding for Ceramics Tool materials

钢结硬质合金的精密镜面磨削

Precision Mirror Surface Grinding of Grinding Alloy

分析了磨削工艺参数和砂轮出刃形貌参数与超光滑表面形成的作用机制，进行了镜面磨削试验并检测表面微观形貌和粗糙度，分析实现镜面磨削的脆/塑性磨削转换机理。

Then , formation of super-smooth ground surface was theoretically analyzed in connection with grinding parameters and wheel topography .

研制了用于硬脆材料精密镜面磨削的带测力功能微进给工作台。

S : A micro feeding table is developed for surface grinder to carry out mirror grinding of hard and brittle materials .

金属切削加工切屑形成过程仿真技术电解修整精密镜面磨削工件表面形态及切屑形成理论解析

The Technology for Simulation of Chip Formation Process in Metal Cutting Surface Finish and Chip Formation Resulting from Electrolytic In Process Grinding

利用在线电解修整镜面磨削和磁流变光整加工技术对化学气相沉积碳化硅反射镜进行纳米级精度的加工。

A new ultra-precision synergistic process integrated electrolytic in-process dressing ( ELID ) grinding and magnetorheological finishing ( MRF ) was applied to nano-precision finishing for CVD-SiC .

本文主要阐述了光学零件镜面磨削加工的机床、超微粒金刚石砂轮及其修整技术。

This paper introduces the grinding machine used on the processing of mirror surface of optical parts and the superfine diamond grinding wheel and its dressing technique .

在此基础上，建立了陶瓷镜面磨削塑性变质层的物理模型，并用微刃切削理论解释了表面晶粒的碎化机理。

Based on these , the physical model of plastic degenerating layer has been established and the fractional mechanism of surface crystal par - ticles has been explained by micro-edge cutting theory .

因此，本研究提出选择较粗的46、60、270金刚石砂轮实现硬脆性材料的高效塑性域镜面磨削。

Therefore , the coarse diamond grinding wheel of # 46 、 # 270 、 # 60 are chose to realize the ductile-mode efficient grinding of hard and brittle materials in this paper .

该工作台以电致伸缩传感器实现微量进给，具有体积小、制造方便、可靠性好、分辨率高等特点，为实现硬脆材料的镜面磨削提供了有利条件。

The micro feeding table , whose micro movement is realized by an electrostriction sensor , features small in size , easy manufacturing , reliable and high resolution . So the bed provides advantageous conditions for mirror grinding for hard and brittle materials .