例句與造句

1. Volume size control and surround a voice result
   音量大小控制及環(huán)繞聲效果
2. Flow equations for sizing control valves
   尺寸控制閥用流量方程式
3. Type o steel shall be supplied without specific grain size control
   0類型的鋼沒有特殊的顆粒尺寸控制。
4. Align or size controls based on the location and size of a single control
   基于單個控件的位置和大小對控件或調(diào)整控件的大小。
5. An efficient step - size control method in numerical integration for astrodynamical equations
   天文動力學方程數(shù)值積分中的一種有效變步法
6. It's difficult to find sizing control in a sentence. 用sizing control造句挺難的
7. Line pressing roller and trimming cutter size control are in computer keyboard operation , display by screen
   壓線?及修邊刀尺寸控制采電腦鍵盤操作.以螢幕顯示
8. The modicon tsx micro platform from telemecanique is designed for implementing small and medium - sized control systems up to 248 io
   Te電器的modicontsxmicro自動化平臺，專門設計用于完成最多248個io的小型和中型控制系統(tǒng)。
9. The following table lists the common modes that visual design tools support to assist you with positioning and sizing controls on a design surface
   下表列出可視化設計工具支持的用以在設計圖面上輔助定位控件和調(diào)整控件大小的常用模式。
10. If the control is top level , this will not scale the control s location . this does not scale children or the size of automatically sized controls
    如果控件為頂級控件，將不會縮放控件的位置，也不會縮放子控件或已自動調(diào)整大小的控件的大小。
11. The size control of bar particles could be achieved by adding surfactant . the principle of mlps and influence factors were discussed in the last , main influence factors were pointed out
    最后討論了微液相法的原理和影響反應的因素，指出了影響該方法的主要因素和改進方向。
12. Lizhan technology is a technological company that is specialized in the development and manufacture of electronic quantitative packaging weighers , fiberboard sizing control systems and feed mixing control systems
    力展科技是一家以電子定量包裝秤、纖維板施膠控制系統(tǒng)、飼料配料控制系統(tǒng)的研發(fā)制造為主的科技型企業(yè)。
13. While in pratical applications , the esd method still has drawbacks in graphical modeling capability , connections with products " structures , size control of esd models , and etc . through in - depth study of the esd method , this paper systematically describes the framework and its basic modeling elements of esd , explains the principles of risk modeling , gives the mathematical model of the basic modeling elements of the esd framework to support the quantitative analysis of the esd model . based on the research above , this paper expands the esd framework , which includes : to overcome the drawback in graphic modeling capability of the esd method , the paper invents some new logical modeling symbols like " n / k " gate , sequence gate , expandable gate and constraint , those enrich the modeling capability of the esd method . to overcome the drawbacks in connections with products " structures and size control , the paper explains the multi - layered modeling principles based on the esd
    在上述研究基礎上，對esd框架進行了擴展，包括：針對esd圖形建模能力的不足，提出了“ n中取k門” 、 “順序門” 、 “可擴展門”以及“限制”等新的邏輯建模圖形符號，豐富完善了esd的建模元素；針對esd模型與產(chǎn)品結構關聯(lián)及規(guī)模控制方面的局限，提出了基于esd的層次化建模原理，使得可基于esd進行層次模塊化建模；針對esd與其它安全風險分析技術的綜合運用問題，分別討論研究了與故障樹分析技術、馬爾科夫狀態(tài)轉移圖集成的esd ft和esd m方法，提高了esd建模的靈活性；針對動態(tài)系統(tǒng)風險評價模型的求解問題，討論提出了運用esd求解動態(tài)概率風險評價問題的解析解或近似解析解方法，并予以了示例說明。
14. This part emphasizes the synthesis of nanoarrays , aiming at controlling the size and distance of nanocrystallites using calixarene derivatives by altering the size , length and chemical structure of the organic molecules ; 2 . this part emphasizes in situ synthesis strategy for fabrication of polymer network of zns based nanopowder , aiming at size controls , coating and preventing agglomeration following " one - pot " synthesis ; this method fits to low cost , large scale production ; 3 . according to development in zno nanomaterials , we first report on the synthesis , characterization of amorphous zno , aiming at describing the principles and approaches of synthesis techniques , optical properties , spatial structure and doped effect ; the amorphous zno displays cage - like structure , showing a strong ultraviolet emission while the visible emission is nearly fully quenched , a potential uv - emission material ; 4
    本論文以量子結構自組裝為出發(fā)點，提出利用杯芳烴及其衍生物的化學受限反應實現(xiàn)尺寸可調(diào)半導體納米粒子自組裝；提出有機聚合網(wǎng)絡原位組裝zns基納米熒光粉方法，把熒光粉的納米化、包敷、防團聚在“一鍋”反應中完成，適于低成本，批量生產(chǎn)；根據(jù)當前zno的研究情況，我們首次合成了非晶zno ，研究了它的光學性質，確定了它的結構，并對其摻雜進行了初步的研究，非晶zno表現(xiàn)出強的深紫外發(fā)光特性，而可見發(fā)射非常弱，是一種有巨大潛在應用價值的深紫外發(fā)光材料；利用非晶zno的亞穩(wěn)特性，對晶化過程中非晶zno納米晶zno三維受限量子結構特性，界面特性進行了深入的研究；利用固相熱分解一般受擴散控制特性，實現(xiàn)了尺寸可控的zno三維量子結構的自組裝；利用非晶zno的高度分散性，容易均勻成膜特性，實現(xiàn)了非晶籽晶誘導低溫液相外延自組裝生長高取向zno晶體薄膜。