納米加工技術 的英文怎麼說
中文拼音 [nàmǐjiāgōngjìshù]
納米加工技術
英文
nano fabrication technologies- 納 : Ⅰ動詞1 (收進來; 放進來) receive; admit 2 (接受) accept; take in 3 (享受) enjoy; take deligh...
- 米 : Ⅰ名詞1. (稻米) rice 2. (泛指去殼或皮的可吃的種子) shelled or husked seed 3. (姓氏) a surname Ⅱ量詞(公制長度的主單位) metre
- 工 : Ⅰ名詞1 (工人和工人階級) worker; workman; the working class 2 (工作; 生產勞動) work; labour 3 ...
- 技 : 名詞(技能; 本領) skill; ability; trick; technique
- 術 : 術名詞1. (技藝; 技術; 學術) art; skill; technique 2. (方法; 策略) method; tactics 3. (姓氏) a surname
- 納米 : aalbert
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We enhance technological innovation, develop hi - tech products and put patents into production. also, we start to research the aluminium profiling of millimicron powder coating and aviation. we adopt millimicron material into the prodution of aluminium profiling, increasing the value added of products
強化技術創新,開發高科技產品把專利產品進行產業化,並啟動了《納米粉末噴塗鋁型材》 、航空航天用鋁材的研製工作,把納米材料運用到鋁型材的生產中,提高產品的附加值。This article introduced nanotechnology including nanocapsule, nanofiltration and ultra - fine pulverization as a new high technology, its applications in food processing
概述了納米技術中納米膠囊、納濾和超微粉碎技術在食品加工中的應用。With the development of science and technology, the need of micro system is more and more urgent in many technical fields, such as various operation of cell and polymerized substances, micro surgery, scanning probe microscope ( spm ), butting optical fiber, fine manufacturing etc. with the development of micro - technology, micro mechanism, which has the character of micro size or micro motion is new high technology from microcosmic point of view understanding and reconstructing the world, micro mechanism technology is important means for researching nanotechnology, so the micro stereo vision ( msv ) techniques are demanded urgently in microcosmic domain
隨著科學技術的發展,許多領域越來越迫切地需要微型系統或微動系統,如生物細胞、聚合物的各種操作、微外科手術、掃描探針顯微鏡spm 、光纖對接和微細加工等;而且隨著微技術的不斷發展,以形狀尺寸微小、操作尺度極小為特徵的微機械已成為人們從微觀角度認識和改造客觀世界的一種高新技術;微機械技術還有望成為研究納米技術的重要手段,因此在微觀領域迫切要求顯微立體視覺技術的發展。It has many unique advantages compared with laser interferometry. and it can achieve higher accuracy and resolution than traditional geometry moir. it has been proved to be very useful in many practical applications, such as microelectronics, ultra - precision manufacturing, bioengineering, medicine, space technology, and material science, etc. in this dissertation, key technologies of nanometer displacement measurement by grating interferometry are systematically investigated, which mainly include measuring theories, designing grating interferometer and new subdividing method for moir interference fringes
作為能夠實現納米級位移測量的技術之一,光柵干涉位移測量技術具有激光干涉儀不具備的獨特優點,可以獲得比幾何莫爾術更高的測量準確度、更高的解析度,在諸如微電子、超精加工、生物工程、未來醫學、航天技術、材料科學等眾多領域有廣泛的應用前景。Anqing diamond is well - equipped with alloy cast iron production line, ductile cast iron production line, stall band oil rings line and surface treatment line. our company has compound chrome plating, gas nit riding, salt nit riding, ceramics penetration, nana - meter technique, plasma spraying etc., advanced surface treatment and equipment. it is also equipped with light score analyzer, outline analyzer, pattern analyzer, metallograplry analyzer etc., and japanese germany examine instrument and technique
帝邁德公司裝備精良,現有高合金鑄鐵球墨鑄鐵毛坯鑄造和加工生產線,鋼帶組合油環生產線,表面處理生產線,車柴環生產線,擁有復合鍍氣體氮化鹽浴氮化滲陶納米技術噴鉬等高新表面處理裝備及技術,配備光譜分析儀輪廓儀投影儀金相分析儀等先進的德日檢測儀器和檢測設備。By studying and using conventional 1c process in combination with electron beam lithography ( ebl ), reactive ion etching ( rie ) and lift - off process, several efficient results are produced : semiconductor and metal nano - structures are fabricated ; the matching problem of photolithography and electron beam lithography is well solved ; the process efficiency is improved ; the process is offered for the controlled fabrication of nano - structures by repetitious process testing ; several nano - structures such as si quantum wires, si quantum dots, double quantum dot structures and tri - wire metal gate are firstly fabricated by using ebl and rie processes
研究利用常規的硅集成電路工藝技術結合電子束光刻,反應離子刻蝕和剝離等技術制備半導體和金屬納米結構,很好地解決了普通光刻與電子束光刻的匹配問題,提高了加工效率,經過多次的工藝實驗,摸索出一套制備納米結構的工藝方法,首次用電子束光刻,反應離子刻蝕和剝離等技術制備出了多種納米結構(硅量子線、量子點,雙量子點和三叉指狀的金屬柵結構) 。In order to solve the problem of conglomeration of the nanoparticle and make the nanoparticle disperse evenly in the coatings. in this way, we could succeed in improving the effect of modification. we originally put forward the in - situ sythesising nanoparticle method to modify coatings. through this method, we made use of the technology of the wet chemical method and added the precursor of nanoparticle during the preparation of coatings
在此基礎上,為解決納米粉體的團聚問題,使納米粒子在塗料中有效分散與附聚,以實現納米粒子改性的有效性,原創性地提出了原位生成納米粒子改性塗料制備工藝的新思路:利用濕化學方法制備納米材料的技術,在常規塗料制備的過程中加入所需引入納米粒子的先驅物,直接在顏填料微粒的表面原位合成相應的納米粒子。But it is impossible for the traditional electroforming to be widely used due to the long process time, the poor metal distribution which is often seen. nano metal has special performance of mechanics and physics, but the making of nano metal block is difficult, and it ' s making method is not perfect, so the study of nano metal block is very difficult. man pay more attention to rapid prototyping which is a new machining method, but to make metal accessory using rapid prototyping is very difficult, it restricts development of rapid prototyping
目前電鑄技術存在著加工時間長,鑄層均勻性差等缺點,嚴重製約著電鑄技術的應用與發展;納米金屬具有特殊的力學和物理性能,但是納米金屬塊體的制備有一定的難度,而且制備方法也不成熟,因此對納米金屬塊體性能的研究有一定的難度;快速成型作為一種新型的加工方法,越來越受到重視,但現在的快速成型技術對製造金屬零件有很大的難度,這也是制約快速成型技術快速發展的一個瓶頸。Meanwhile, we are pursuing a number of developments in the nanotechnology field by integrating the above - mentioned composite material technology with precision forming technology, fine processing technology and analysis measurement technology
我們還將融合上述復合材料技術,精密成形技術,微細加工技術以及解析和計量技術,在納米領域開辟新紀元。Based on the theory of laminated object manufacturing, the technology can directly produce three - dimension miniature structure by melting nano - phased powder with fine focus. in the process of micromachines, an important technological quota is the distinguishability. in the microscopic process of rapid fabrication, the distinguishability including the scanning distinguishability and the fabrication distinguishability
該技術將選區激光燒結快速成型技術與納米科學技術、激光技術、計算機控制技術結合起來,應用分層製造思想,以更精細聚焦的激光熔燒微、納米粉粉末直接成形三維微結構。在微機械加工中,一個重要技術指標是解析度,在快速成型微細加工中,把解析度區分為掃描解析度以及成型解析度。The topography and the nano - mechanical property of the sample before and after self - assembly was characterized by afm, and the factor attributed to the change was analyzed. based on the above conclusion, the nano - mechanical property of the sample fabricated with the technology based on the scratch of afm microprobe combining traditional self - assembly method was analyzed. it was proved that this method could carry out controllable self - assembly on silicon surface ; finally, the nano - mechanical property of the sample fabricated with the technology based on the cutting of diamond tool was measured, and this method was proved to be a quick and convenient mean that could carry out controllable self - assembly on silicon surface according to the nano - mechanical property of the samples fabricated by the two method before
之後利用原子力顯微鏡對組裝前後的樣品進行了表面形貌和納米機械性能的表徵,分析了可能導致其變化的原因;藉助所得的結論,對基於原子力顯微鏡微探針的刻劃與傳統自組裝方法相結合的自組裝加工技術所制備的樣品進行了納米機械性能的分析,證明這種方法能夠實現硅基底上的可控自組裝;最後,對基於金剛石刀具切削的自組裝加工技術所制備樣品的納米機械性能進行了檢測,通過和前兩種方法制備的自組裝結構的納米機械性能進行對照,證明這種方法可以方便快捷的實現硅基底上的可控自組裝,從而實現「割草種花」的構想。The article studied the overseas nanometer lime pyrolignite fundamental research and the lumber nanometer lime pyrolignite description theory trend of development thoroughly, reviewed our country nanometer lime pyrolignite processing technology development, and discussed our country nanometer lime pyrolignite research development direction, anticipated target of the nanometer lime pyrolignite research and the nanometer lime pyrolignite processing technology in the lumber industry application prospect, proposed one new nanometer lime pyrolignite processing method, provided the basis for our country nanometer lime pyrolignite technology development and the application
摘要對國外納米木粉理論研究現狀和木材納米木粉描述理論的發展趨勢進行了深入研究,對我國納米木粉加工技術的發展進行了回顧並探討了我國納米木粉研究的發展方向、納米木粉研究的預期目標和納米木粉加工技術在木材工業上的應用前景,提出了一種新的納米木粉加工方法,為我國納米木粉技術的開發和應用提供了依據。With the rapid progress in microfabrication technology in recent years, it is of practical significance to design and consider subwavelength optical elements
近年來,微加工技術和納米光刻技術的快速發展,使得設計亞波長光學元件具有實際意義。Interferometirc lithographic technology incorporates laser, interference optics, diffraction optics and optical lithography and it is a frontier research subject in microfabrication technology and microelectronic field sponserd by national natural science foundation of china. the research for this technology in theory, simulation and experiments has important scientific meanings and broad application prospect for promoting lithographic limit, developing nanometer electronic and photoelectron devices, novel large screen panel display and novel lithographic equipment of our country
干涉光刻技術集激光、干涉和衍射光學及光學光刻於一體,是國家自然科學基金資助的微細加工技術和微電子領域的前沿研究課題,對其進行理論、模擬和實驗研究,對推進光學光刻極限,發展我國納米微電子和光電子器件、新型大屏幕平板顯示器和新型光刻機具有重要的科學意義和廣闊的應用前景。Nanometer scale machining technology and its application
納米加工技術及其應用The other is enterprises technologies center taking the technologies of nanomaterials manufacturing and value - added production as the breakthrough point targeting to achieve 3 - 5 technologies in the field of ion powder producing and spray treatment of cemented carbide
企業技術中心以研究納米材料製造技術和鎢深加工技術為突破點,力爭在等離子制粉、硬質合金表面處理技術等領域取得3 - 5項國內領先的成果。With the fast development of information industry, microelectronics manufacture technology has entered into 3d machining field at nanometer levels, so a severe challenge is put forward to the measurement of ultra - precision 3d microstructures
隨著信息產業的高速發展,微電子製造技術進入納米級三維加工技術領域,這就對超精密三維微細結構的測量提出了嚴峻挑戰。With regard to textile materials ( e. g. fibersyarns ), nano - materials and related processing technologies can be applied in the processing of smart and intelligent materials and the production of novel yarn
至於紡織物料(如纖維紡紗) ,則可應用納米材料及相關加工技術,藉以製作智能材料及生產新穎紗線。Analyzing the present status of nano - structure machining, we find the main barrier to the three - dimensional nano - structure machining is the lack of the systemic thesis on machining depth. the micro - machining by micro probe can be divided into two processes : indentation and scratching
本文通過分析國內外相關微納米加工技術的研究現狀,針對基於掃描探針顯微鏡的微加工系統中採用原子力微探針刻劃加工三維加工中亟待解決的加工深度問題,藉助理論、模擬以及實驗手段進行了研究。Materials technologies such as nano - materials and related processing technologies, and smart and intelligent textile materials and garments
材料技術,如納米材料及相關加工技術、智能紡織物料及成衣;分享友人