數密度輪廓 的英文怎麼說

中文拼音 [shǔlúnkuò]
數密度輪廓 英文
number density profile
  • : 數副詞(屢次) frequently; repeatedly
  • : Ⅰ名詞1 (秘密) secret 2 [紡織] (密度) density 3 (姓氏) a surname Ⅱ形容詞1 (距離近; 空隙小)...
  • : 度動詞[書面語] (推測; 估計) surmise; estimate
  • : Ⅰ名1 (輪子) wheel 2 (像輪子的東西) wheel like object; ring; disc 3 (輪船) steamer; steamboa...
  • : Ⅰ形容詞(廣闊) wide; extensive Ⅱ名詞(物體的外緣) outline
  • 輪廓 : outline; line; lineament; contour profile; rough sketch
  1. Number density profile

    數密度輪廓
  2. In the section of fabricating technology, i first discuss the ion beam technology. through the analysis of the effects of each parameter on the surface smoothness, profile fidelity and linewidth resolution in the process of ion etching, the suitable angle of incident ion beam, ion energy, density of ion beam and time of etching are selected combining the actual status of the mask

    在製作工藝的研究方面,首先研究了離子束刻蝕技術,通過對離子束刻蝕過程中各個參對刻蝕元件的表面光潔保真和線寬分辨的影響分析,結合掩膜的實際情況選擇出了合適的離子束入射角、離子能量、束流和刻蝕時間等參
  3. Bench - type ultra - precision numerical control milling machine can solve the problem of high cost, long production cycle to machine the miniature, small batch, high precision work pieces with plane, curve face or other complex moulding surface in large precision machine with high automatization

    而臺式超精控銑床能夠解決工業中平面類、曲面類以及其它復雜型面類的小型、小批量高精零件在大型、自動化程很高的超精機床上加工的成本高,生產周期長等方面的問題。
  4. Measurement and characterization of surface texture is an important aspect of precision metrology. historically this has involved partitioning a profile into different wavelength regimes referred to as roughness, waviness and form followed by numerical quantization. parameters computed are then inspected for tolerance compliance to ensure a part performs its intended function. this approach is satisfactory when the specification has been carefully determined and the process is stable. however, when the manufacturing process is under development or when instability or modifications to the process invalidate specifications, there is a need to study surface finish parameters in relation to functional performance or process measures. in this context, the problem of surface texture classification and recognition are discussed. advanced techniques developed for this purpose along with applications are presented. also, the techniques discussed here will be useful across large bandwidth, from the characterization of nano scale to traditional micro scale surfaces

    表面結構的測量與特徵描述是精計量技術的一個重要方面,傳統上包括將情況根據不同的波長范圍劃分為粗糙、波紋和形狀及后續的字量化.按算得的參檢查它是否為公差允許,以保證零件執行其指定的功能.當技術特性已經經過仔細確定,並且其過程穩定時,該方法是令人滿意的;但是,當製造過程正在進行中或過程的不穩定、過程變化使技術特性失效時,就需要研究和功能表現及過程評定相關的表面參.討論了表面結構的分類與識別問題.同時闡述了為此目的而開發的先進技術及其應用.所研究的技術對從納米尺到傳統的微米尺的較大帶寬范圍內的表面特徵描述都是有效的
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