Research on the new quadratic rotated conicoid using normal equidistance method machine optical parts;
法線等距離線法加工二次旋轉(zhuǎn)曲面光學(xué)零件的研究
Grinding technique of mirror surface of optical parts;
光學(xué)零件鏡面磨削加工技術(shù)
The principle and the new technique of super precision processing of optical parts;
光學(xué)零件超精密加工機(jī)理及新技術(shù)
The mathematic model of principle of machining quadratic aspheric optical parts by locus shaping method is created.
建立了采用軌跡成形法加工二次非球面光學(xué)零件的數(shù)學(xué)模型,給出了相關(guān)變量的誤差公式,并以某炸彈的導(dǎo)引頭上的非球面透鏡作為實(shí)例,分析了相關(guān)變量對軌跡形狀誤差的影響���。
Aspheric optical part has made more and more influence on many fields such as national defence technology,aerospace and information.
非球面光學(xué)零件在未來的國防�、航空、航天�、信息等諸多領(lǐng)域中發(fā)揮著越來越重要的作用,非球面光學(xué)零件表面精度和表面質(zhì)量的提高離不開超光滑表面拋光技術(shù)的支持��。
Aspheric optical part processing is an acknowledged difficult problem around the world.
非球面光學(xué)零件加工是國內(nèi)外公認(rèn)的難題����。
A general method of calculation of paraxial optical parameters for curved GRIN optical element;
曲面GRIN光學(xué)元件近軸光學(xué)參數(shù)的通用算法
Stability of optical elements in large laser facilities
大型激光裝置光學(xué)元件的穩(wěn)定性設(shè)計
Study on the technology of the ultra precision machining for the optical components in laser nuclear fusion;
激光核聚變光學(xué)元件超精密加工技術(shù)的研究
We evaluate mid frequency error of optical component surface profile by power spectral density function.
介紹采用 PSD功率譜密度函數(shù)來評價光學(xué)元件面形中頻誤
The discussion confirms that the 3_swing_jib support system suits very well for optical mirror or other optical elements in optical instruments of medium size, particularly for applications in space engineering and o.
該支撐系統(tǒng)具有結(jié)構(gòu)簡單����、剛度恒定以及無附加溫度應(yīng)力等特點(diǎn),可用于中小型光學(xué)鏡面和光學(xué)元件的支撐,特別適用于空間儀器的光學(xué)加工領(lǐng)域。
Chamfers for optical parts
GB/T1204-1975光學(xué)零件的倒角
Surface imperfections of optical elements
GB/T1185-1989光學(xué)零件表面疵病
Radii of spherical surfaces of optical elements series of numerical values
GB/T3158-1982光學(xué)零件球面半徑數(shù)值系列
The Design and Consider of Net-courseware about"Optic Component Technology"
《光學(xué)零件工藝學(xué)》網(wǎng)絡(luò)課件的制作與思考
Surface form deviation of optical elements--Inspection methods
GB/T2831-1981光學(xué)零件的面形偏差檢驗(yàn)方法(光圈識別)
Experiment and Analysis on Processing Quartz Glass Optical Parts by MRF
環(huán)帶式磁流變拋光加工石英光學(xué)零件實(shí)驗(yàn)分析
" Thin-film coatings on optical parts--Classification, symbols and designations"
GB/T1315-1977光學(xué)零件薄膜的分類���、符號及標(biāo)注
Trends of the Manufacturing Technology of Optical Elements in the Early 21~(st) Century
21世紀(jì)初光學(xué)零件加工技術(shù)的發(fā)展趨勢
The ana Lysis of Surface Precision of Locus Shaping Method Machining Spherical Optical Parts
軌跡成形法加工球面光學(xué)零件面形精度分析
Research on Principle of Locus Shaping Method to Process Aspheric Optical Parts;
軌跡成形法加工非球面光學(xué)零件原理的研究
A Study on New Technology of Rocessing Aspheric Optical Parts by Locus Compensation Method;
軌跡補(bǔ)償法加工非球面光學(xué)零件新技術(shù)的研究
DEVELOPMENT OF FEED CONTROL SYSTEM OF ULTRA-PRECISION GRINDING OPTICAL PARTS;
光學(xué)零件超精密磨削進(jìn)給控制系統(tǒng)的研制
Study on Machining Small Precision Optical Component Using Thin Ion Beam
應(yīng)用細(xì)小離子束加工小型精密光學(xué)零件
Research on PVT Control Trajectory of Processing Aspheric Optical Parts Based on UMAC
基于UMAC加工非球面光學(xué)零件PVT控制軌跡研究
Research on the motion track of the aspheric optical parts processing based on the tangent rotary method
切線回轉(zhuǎn)法加工非球面光學(xué)零件運(yùn)動軌跡研究
Research on Technology of Locus Shaping Method to Process Aspheric Optical Parts of Middling Caliber;
軌跡補(bǔ)償法加工中等口徑非球面光學(xué)零件技術(shù)研究
Research on New Principle of Processing Large-diameter & High-order Aspheric Optical Parts with Rotary Tangent Method
切線回轉(zhuǎn)法加工大型高次非球面光學(xué)零件新原理的研究
General specification of optical components for the scale and surface defects
GB/T11162-1989光學(xué)分劃零件通用技術(shù)條件
