例句與造句

1. The adaptive finite element method is a numerical scheme which can automatically adjust algorithms to improve the solving procedure
   為邊坡漸進(jìn)累積破壞分析打下基礎(chǔ)。其次，將自適應(yīng)方法引入流形元中。
2. Students have to think carefully about how the solving procedures are processing , and consider whether these procedures are fitting to finishing the subsequent procedures
   學(xué)生必須認(rèn)真考慮計(jì)劃中的解題步驟是怎樣完成的，并確定這樣做對(duì)完成后續(xù)步驟是否適宜。
3. The theoretical basis and the solving procedure of the proposed calibration technique were presented , and the comparative experiments among the new method , linear calibration method and the two - step method were performed
   給出了標(biāo)定方法的理論依據(jù)和求解過(guò)程，并將其與線性標(biāo)定方法和兩步法進(jìn)行了對(duì)比實(shí)驗(yàn)。
4. The influences of thermal effect of an axis on its design precision were discussed and the temperature distribution of a rotating axis was obtained by the conventional heat transfer equations that needed a complex solving procedure and gave a blurry distribution rule
   摘要考慮了熱對(duì)提高軸類件設(shè)計(jì)精度的影響，并通過(guò)傳統(tǒng)導(dǎo)熱微分方程法和一般傳熱學(xué)理論對(duì)主軸在運(yùn)動(dòng)時(shí)熱分布進(jìn)行了分析，指出了傳統(tǒng)熱微分方程解法復(fù)雜，從解析式中難以看出溫度分布規(guī)律，運(yùn)用傳熱學(xué)理論解法簡(jiǎn)單明? ，結(jié)果易于反映各參數(shù)關(guān)系，精確度較高，實(shí)用性強(qiáng)。
5. Then the solving procedures of these bies by the rwg functions based moment method are elaborated , and the method of modeling complex objects built of arbitrary line , surface and volume structures is developed . in order to solve realize antenna and circuit problems , methods of adding excitations and concentrated loadings with moment method are deceloped , and matrix pencil ( mp ) method is used to deembeded the s prameters of antennas and circuits from the computed current distribution . some numerical results of practical complex antenna and scattering problems are presented to illustrate the veracity and effectiveness of the method
   在第一部分中,首先從電磁場(chǎng)的基本理論出發(fā),基于等效原理和邊界條件以統(tǒng)一的方法建立了用于分析金屬、介質(zhì)及金屬與介質(zhì)混合結(jié)構(gòu)的邊界積分方程,并歸納和比較了各類積分的適用范圍和優(yōu)缺點(diǎn);在此基礎(chǔ)上,給出了使用基于rwg函數(shù)的矩量法求解各種邊界積分方程的一般過(guò)程;研究了具有任意線、面、體組成的復(fù)雜結(jié)構(gòu)的電磁建模方法,并給出了各種多面連接情況下基函數(shù)和未知量的選取方法;研究了使用矩量法分析電路、天線問(wèn)題時(shí)集總元件和激勵(lì)源的處理方法,并基于矩陣束方法( matrixpencilmethod )提取了電路和天線問(wèn)題的s參數(shù);最后通過(guò)分析一些工程中的復(fù)雜金屬天線問(wèn)題和具有“金屬與介質(zhì)混合結(jié)構(gòu)”的散射和天線問(wèn)題驗(yàn)證了方法的準(zhǔn)確性和高效性。
6. It's difficult to find solving procedures in a sentence. 用solving procedures造句挺難的
7. The direct solution for u ~ u and u ~ p form , the stagger solution for u ~ p form are compared in the convergency , stability and efficiency , from which it is concluded that the first solution used not widely before is characterized with weakly ill - conditioned stiffness and comparatively high efficiency . the finite element methods based on these three solving procedures are numerically implemented . the seabed soil under wave pressure with small amplitude can be viewed as elastic material
   詳細(xì)比較廣義biot理論u u形式直接解法、 u p形式直接解法與交叉迭代法求解彈性、彈塑性問(wèn)題的收斂性、穩(wěn)定性與計(jì)算效率，認(rèn)為以往較少應(yīng)用的u u形式直接解法剛度陣病態(tài)性弱，求解效率高，更適合土工問(wèn)題的數(shù)值模擬，小風(fēng)浪作用下海床的動(dòng)力響應(yīng)特性可視為彈性的。