例句與造句

1. Software design of the machining error analyzing
   加工誤差實(shí)驗(yàn)數(shù)據(jù)分析軟件設(shè)計(jì)
2. The machining error caused by the error of fixture needs to be analyzed because it should be compensated
   要消除這部分加工誤差，就需要對它進(jìn)行分析。
3. Deviation should be allowed to comply with the norms . the shear machine error should be allowed to meet the norms
   氣割的允許偏差應(yīng)符合規(guī)范的規(guī)定.機(jī)械剪切的允許偏差應(yīng)符合規(guī)范的規(guī)定
4. Meanwhile , the surface topography reflecting machining errors is also modeled based on cutter ' s trajectories
   同時(shí)還對加工過程仿真和反映加工誤差的已加工表面形貌的構(gòu)建等關(guān)鍵問題進(jìn)行了研究。
5. The analysis of the error of fixture and nc machining precision the error of fixture is one of the main source of nc machining error
   夾具誤差與數(shù)控加工精度分析夾具誤差是加工誤差的主要來源之一。
6. It's difficult to find machine error in a sentence. 用machine error造句挺難的
7. Any incorrect step , process , or result in a microcomputer or data processing system . the term also refers to machine malfunctions or machine errors , and to human mistakes or human errors
   在微型計(jì)算機(jī)或數(shù)據(jù)處理系統(tǒng)中，任何不正確的步驟、過程、或結(jié)果。該術(shù)語也指機(jī)器失效或出錯(cuò)，以及人的失誤或錯(cuò)誤。
8. Depending on computer graphics and the theory of b - splines , i bring forward a new and applied interpolation arithmetic . it greatly minish machining error ~ . enhance the speed and precision because of its advantages
   利用這種插補(bǔ)算法，不僅使加工誤差大大減小，而且由于計(jì)算速度的增加使得加工的速度、精度等均可以得到提高。
9. A mathematic model is set up to express the process of datum transform based on il & sm flexible fixturing system . the machining error caused by the error of the fixture is calculated with the aid of this model , and a solution of error compensation is proposed
   對于il & sm柔性安裝系統(tǒng)，作者建立了反映工位轉(zhuǎn)換的數(shù)學(xué)模型，并運(yùn)用這個(gè)模型分析由尋位箱制造、裝配誤差引起的加工誤差，并提出補(bǔ)償方法。
10. The part represented by the polygon of the half section profile in its axis plane and cutter ' s trajectories for recording and arranging machining errors data are presented based on the analysis of the geometrical characteristics of the part and machining in turning process
    摘要根據(jù)車削加工工件的幾何外形和成形特點(diǎn)，提出了包含加工誤差信息的回轉(zhuǎn)體類工件半剖輪廓多邊形建模方法和記錄、組織加工誤差信息的刀具軌跡法。
11. The micro displacement servo system includes step - electromotor , step - electromotor driver , grating displacement sensor and gearing etc . the closed loop position servo system eliminates machining error , fitting error and backhaul error etc . the control will completely run in the platform of windows
    微位移控制系統(tǒng)由步進(jìn)電動機(jī)、步進(jìn)電動機(jī)驅(qū)動器、光柵位移傳感器、傳動機(jī)構(gòu)等組成，采用閉環(huán)位置伺服控制消除了傳動機(jī)構(gòu)的加工誤差、裝夾誤差、回程誤差等。
12. It is more important to mass production of aspheric optics . in this paper one aspheric surface measuring instrument is discussed . some of aspects connected with measuring instrument are introduced such as the work theory of aspheric surface measuring instrument , the causations of machine error and the solving ways of these causations , the precision of instrument confirming , the result and analysis of experiments and the function of this instrument in practical production
    本論文就是討論了一種自行研制的非球面輪廓儀，主要用于非球面光學(xué)元件精磨階段面形的檢測，文中主要介紹了小型非球面輪廓儀的工作原理、產(chǎn)生測量誤差原因的分析以及減小誤差的方法、輪廓儀精度標(biāo)定、使用輪廓儀進(jìn)行的各種實(shí)驗(yàn)以及實(shí)驗(yàn)結(jié)果分析，以及輪廓儀用于實(shí)際生產(chǎn)的情況。
13. The mathematic model of co - rotating twin - screw machining with milling tool is built . according to this model the tool parameters and theoretical machining error are computed and analyzed . the technique and the approach can effectively aid the designing and choosing of cylinder helical surface machining tools for co - rotating twin - screw
    建立了用圓柱立銑刀加工雙螺桿的數(shù)學(xué)模型，提出了基于接觸線的取點(diǎn)求距優(yōu)化算法，通過該模型和算法實(shí)現(xiàn)了刀具參數(shù)的優(yōu)化求解以及加工理論誤差的分析計(jì)算。
14. This dissertation integrates theory analysis with experiment research and makes further research on nc geometric simulation . the establish of the cutting forces model , cutter wear model , machining error predition and compensation , machining parameter optimization in the physical simulation fields are made more research on the basis of the above research contents . the main achievements are as follows : 1
    本文采用理論分析與實(shí)驗(yàn)研究相結(jié)合的思路,進(jìn)一步研究了幾何仿真與精度驗(yàn)證技術(shù),研究了銑削力模型的建立、刀具磨損模型的建立、加工誤差模型與誤差補(bǔ)償技術(shù)、基于加工仿真的加工參數(shù)優(yōu)化等物理仿真關(guān)鍵技術(shù),主要研究內(nèi)容和成果如下: 1 .設(shè)計(jì)了集幾何仿真和物理仿真為一體的數(shù)控加工仿真系統(tǒng)的體系結(jié)構(gòu)。
15. The three major types of machining error are geometric , thermal and cutting - force induced error . at the present time , error compensation model usually aims at single type of error and is used for the specific machine tool . this paper develops a universal synthetical model of error compensation for three - axis numerical control ( nc ) machine tool , which can be updated on time when manufacturing surroundings is changed
    論文廣泛研究了機(jī)床誤差補(bǔ)償技術(shù)目前的發(fā)展?fàn)顩r，針對目前誤差補(bǔ)償系統(tǒng)存在的不足(諸如大多為單項(xiàng)誤差補(bǔ)償、通用性較差，模型多為靜態(tài)等) ，提出了機(jī)床綜合誤差的補(bǔ)償策略，以三軸數(shù)控機(jī)床為例建立了綜合誤差補(bǔ)償系摘要統(tǒng)，系統(tǒng)的誤差模型可實(shí)時(shí)更新，該補(bǔ)償系統(tǒng)可直接移植到多軸加工系統(tǒng)中。