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1、在Abaqus中使用梁?jiǎn)卧M(jìn)行計(jì)算在Abaqus中使用梁?jiǎn)卧M(jìn)行計(jì)算(2012-03-26 11:28:00) 轉(zhuǎn)載標(biāo)簽: abaqus梁雜談分類: ABAQUS xiaozity 助理工程師:在練習(xí)老莊的Crane例題時(shí),欲提取梁元的截面應(yīng)力。反復(fù)折騰后,小小體會(huì),總結(jié)如下:(1)書中講到:“線性梁元B21、B31及二次梁元B22、B32是考慮剪切變形的Timoshenko梁?jiǎn)卧欢瘟涸狟23、B33不能模擬剪切變形,屬Euler梁?jiǎn)卧?。?)眾所周知,當(dāng)要考慮剪切變形時(shí),例如深梁,采用Timoshenko梁?jiǎn)卧容^合適。三次梁元由于可模擬軸線方向的三階變量,因而對(duì)static問題,一

2、個(gè)構(gòu)件常常用一個(gè)三次單元就足夠,特別對(duì)于分布載荷的梁,三次梁元的精度相當(dāng)高。(3)Abaqus 會(huì)默認(rèn)在積分點(diǎn)處的若干截面點(diǎn)輸入應(yīng)力值;但用戶可自定義應(yīng)力輸出的截面點(diǎn)位置,這通過property-section-manage-edit-output points 來(lái)定義輸出應(yīng)力值的截面點(diǎn);(4)特別要指出的是,無(wú)論B22還是B33還是其它梁元,其輸出的應(yīng)力分量只有S11,如圖所示;那么,現(xiàn)在的問題是:1:S11代表什么應(yīng)力,根據(jù)經(jīng)驗(yàn),大家會(huì)認(rèn)為11是1方向的正應(yīng)力或主應(yīng)力等等2:為什么沒有S22、S33、S12.下面分別說(shuō)明:1:S11表達(dá)的是梁元的彎曲應(yīng)力,即局部坐標(biāo)系下截面上的正應(yīng)力2:只

3、輸出S11,而無(wú)其它應(yīng)力,這是因?yàn)榱涸猿蔀榱涸幸换厩疤峋褪怯昧涸獊?lái)模擬的構(gòu)件,其正應(yīng)力是最主要的,而剪應(yīng)力是可忽略的;一個(gè)基本的佐證就是:眾所周知,在建立梁的總勢(shì)能方程時(shí),總是講剪切應(yīng)變能是小量,因而它總是被忽略掉的;忽略剪應(yīng)力的一個(gè)結(jié)果是:mises應(yīng)力將與S11在數(shù)值上完全相同,不僅Abaqus如此,Ansys也是如此,這也難怪有人講:“Timoshenko梁?jiǎn)卧球_人的,它根本沒有考慮剪應(yīng)力”;對(duì)這件事情,我想作如下評(píng)價(jià):(A)不僅Timoshenko梁?jiǎn)卧?,其它梁元(不考慮剪切變形)確實(shí)在應(yīng)力的層面沒有考慮剪應(yīng)力的影響,這可從mises應(yīng)力與S11的比較看出來(lái);而為什么這樣

4、處理,理由如上所述,剪應(yīng)力是高階量,可忽略,否則就認(rèn)為不能用梁元來(lái)模擬。(B)盡管應(yīng)力層面沒有考慮剪應(yīng)力,但在變形層面Timoshenko梁?jiǎn)卧€是考慮了剪切的影響;所以說(shuō)Timoshenko梁?jiǎn)卧球_人的說(shuō)法,本人不太同意。 怪獸 :助理工程師樓上的問題有些是重復(fù)的,但為了清晰,還是獨(dú)立回答(1)變形層面考慮剪切具體有兩個(gè)方面:1:在單元?jiǎng)偠戎锌紤]了剪切剛度;2:從所周知,梁元的變形是由結(jié)點(diǎn)位移插值獲得;考慮剪切變形的位移的影響就體現(xiàn)在插值過程中考慮剪切變形;比如Timoshenke梁元采用彎曲和剪切獨(dú)立插值的形狀函數(shù);所謂應(yīng)力層面不考慮剪切,是因?yàn)椋?:Abaqus/Ansys在計(jì)算Mis

5、es應(yīng)力時(shí)只考慮了正應(yīng)力,而沒有把剪應(yīng)力拿進(jìn)去,所以它的Mises應(yīng)力并非真正的等效應(yīng)力,只是正應(yīng)力取絕對(duì)值而已;2:另外,說(shuō)程序在應(yīng)力層面不考慮剪切,也在于它根本就沒有去計(jì)算剪應(yīng)力,也因此而沒有剪應(yīng)力的輸出選項(xiàng);為了更清楚的回答你的問題,有必要提一下有限元的過程:結(jié)點(diǎn)位移?插值獲得單元位形?幾何方程導(dǎo)出應(yīng)變?本構(gòu)方程獲得應(yīng)力;應(yīng)力是在結(jié)果的最未端,只是程序認(rèn)為剪應(yīng)力太不重要,在與應(yīng)力有關(guān)的結(jié)果中,沒有去理會(huì)它而已。(2)如果第一個(gè)問題我說(shuō)清楚了,我想第二個(gè)就不是問題了(3)所謂考慮剪切變形,具體的就在于:在梁元的單剛方程和插值函數(shù)中考慮了剪切變形的影響;影響誰(shuí)呢,影響著原本不考慮剪切剛度的彎

6、曲剛度和彎曲變形;也就是說(shuō),考慮剪切的影響,其實(shí)質(zhì)在于:在彎曲剛度中把剪切剛度加進(jìn)去,以使梁更剛硬一些,以模擬剪切變形不能忽略的“深梁”。(4)45是一個(gè)問題,一并回答;具體如何證明,我考慮單獨(dú)在Abaqus中用算例證明好象行不通;要想了解特定的梁元是否考慮剪切變形,根據(jù)我現(xiàn)在的經(jīng)驗(yàn),只能看它的理論手冊(cè),一看單元?jiǎng)偠确匠?,二看插值函?shù)。如果假定程序給出了插值階數(shù)相同的梁元A、B,其中:A?考慮剪切B?不考慮剪切那么,在其它條件相同的情況下,A算出來(lái)的位移應(yīng)該有小一些,因?yàn)樗鼊傆?;如果一定要通過上述思路進(jìn)行算例證明,考慮用ansys的梁元與Abaqus梁元進(jìn)行上述比較,前提是選取的梁元插值階數(shù)

7、要相同。不知道我說(shuō)清楚沒有歡迎討論megvin 助理工程師:我猜,wong兄所提彎曲剛度提高了,可能是基于插值階數(shù)降低之后,彎曲變得剛硬.這沒問題;我強(qiáng)調(diào)的是,比較的前提是:選取相同的插值階段;更具體一點(diǎn),是選取相同的彎曲插值階次;只有在這個(gè)條件下,才能比較兩者的差別.選取相同的彎曲插值階次的目的在于:固定其彎曲剛度chsxiaolin 助理工程師:按照上面的說(shuō)法,與其說(shuō)“應(yīng)力層面不考慮剪應(yīng)力,變形層面考慮剪切變形”,還不如說(shuō)“只考慮彈性剪切,不考慮塑性剪切及其影響”。單說(shuō)不考慮剪應(yīng)力又哪里來(lái)的剪切剛度呢? 針對(duì)樓上提法,稍稍再補(bǔ)充一下:1:Abaqus/Ansys(其它程序不清楚)中,考慮剪

8、切的影響,一律認(rèn)為剪切永遠(yuǎn)是彈性的;如果說(shuō)程序一定要計(jì)算剪應(yīng)力,其本構(gòu)也一定是基于彈性本構(gòu)確定。為什么認(rèn)為剪切不會(huì)進(jìn)入塑性,可能是因?yàn)椋喝缜八?,還是基于梁元的特點(diǎn),認(rèn)為剪切一般只會(huì)處于彈性;而且對(duì)梁元而言,剪切變形總是彎曲的小量,能考慮一下剪切影響已經(jīng)很不錯(cuò)了2:剪切剛度是構(gòu)件的抗剪切變形的能力,是剛度層次;剪應(yīng)力則屬于是截面層次;也就是說(shuō):在變形的時(shí)候考慮剪切剛度的影響,但在計(jì)算應(yīng)力的時(shí)候,并沒有去理會(huì)到底產(chǎn)生了多大的剪應(yīng)力。 From: 7/viewthread.php?tid=1150914合理選用梁?jiǎn)卧狟eam Elements in ABAQUS

9、作者:麥田 本文內(nèi)容主要譯自ABAQUS Documents1.梁理論1.1應(yīng)用梁?jiǎn)卧?,首先?yīng)當(dāng)考察問題是否適合用梁?jiǎn)卧!A豪碚撌怯靡痪S近似三維,近似的前提是長(zhǎng)細(xì)比假定,即梁的截面尺寸相比于梁軸線方向的典型尺寸足夠小。所謂典型尺寸是一種整體尺寸,而非單元長(zhǎng)度,比如: 支座間的距離; 發(fā)生顯著改變的梁截面間的距離; 感興趣的最高階振動(dòng)模態(tài)的波長(zhǎng); 梁?jiǎn)卧侨S或二維空間中的一維線單元,具有一定的抵抗線(梁軸線)變形的剛度。這種變形包含軸向變形、彎曲變形,發(fā)生于梁軸線與橫截面間的橫向剪切變形,空間中還包含扭轉(zhuǎn)變形。ABAQUS/Standard中的部分梁?jiǎn)卧€包含翹曲變形(發(fā)生在梁橫截面上

10、的不均勻的出平面變形)。梁?jiǎn)卧闹饕獌?yōu)勢(shì)在于幾何構(gòu)造簡(jiǎn)單,并且自由度較少。它以“參考線”(梁軸線)的運(yùn)動(dòng)代替實(shí)際上的三維實(shí)體梁的運(yùn)動(dòng),這種幾何上簡(jiǎn)化的前提是假定梁的全部變形可以僅僅從“參考線”(梁軸線)位置的函數(shù)得到。應(yīng)用梁?jiǎn)卧年P(guān)鍵在于判斷這種一維建模方法是否合適。基本假定是垂直于梁軸線的平面,即梁截面不能在其在身平面內(nèi)變形(除了梁截面面積的不斷變化,這可能發(fā)生在幾何非線性分析中,并且梁截面上各個(gè)方向具有相同的應(yīng)變)。使用任何梁?jiǎn)卧岸紤?yīng)仔細(xì)考察此假定是否成立,尤其是分析承受大量彎矩或軸向拉、壓荷載的非實(shí)體截面,比如管道、I形及U形截面。這些截面可能發(fā)生崩潰(section collapse

11、),使截面性能變的很差,不能被梁理論預(yù)測(cè)。類似地,薄壁彎曲管道的抗彎性能更弱,也不能被梁理論預(yù)測(cè),因?yàn)楣鼙诤苋菀自谧陨砥矫鎯?nèi)彎曲,這是由于上述基本假定導(dǎo)致的梁理論所不能考慮的另一種效應(yīng)。1.2在動(dòng)力分析和特征值分析中應(yīng)用梁?jiǎn)卧獙?duì)于細(xì)長(zhǎng)梁結(jié)構(gòu),通常梁橫截面的轉(zhuǎn)動(dòng)慣量影響并不顯著(繞梁軸線的扭轉(zhuǎn)除外)。因此,ABAQUS/Standard忽略了歐拉-伯努力(Euler-Bernoulli)梁元彎曲變形時(shí)梁截面的轉(zhuǎn)動(dòng)慣量。對(duì)于較厚的梁,轉(zhuǎn)動(dòng)慣量對(duì)動(dòng)力分析有一定影響,但影響程度要比剪切變形小。對(duì)于鐵木辛克(Timoshenko)梁元,程序通過橫截面的幾何特性計(jì)算慣性特性,與扭轉(zhuǎn)模態(tài)和彎曲模態(tài)相關(guān)的轉(zhuǎn)動(dòng)

12、慣量是不同的。對(duì)于非對(duì)稱橫截面,轉(zhuǎn)動(dòng)慣量在各個(gè)彎曲方向也不相同。ABAQUS允許用戶選擇鐵木辛克梁元的轉(zhuǎn)動(dòng)慣量公式,如果選擇近似的各向同性公式,在ABAQUS/Standard中,所有的轉(zhuǎn)動(dòng)自由度都被賦予和扭轉(zhuǎn)模態(tài)關(guān)聯(lián)的轉(zhuǎn)動(dòng)慣量,而在ABAQUS/Explicit中,則被賦予放大了的彎曲慣量,通過放大系數(shù)的選擇使穩(wěn)定時(shí)間增量最大化;梁橫截面的質(zhì)量中心位于節(jié)點(diǎn)處。當(dāng)采用精確的各向異性公式時(shí),彎曲和扭轉(zhuǎn)對(duì)應(yīng)的轉(zhuǎn)動(dòng)慣量是不同的,而且當(dāng)梁截面的質(zhì)量中心不在節(jié)點(diǎn)處時(shí),在梁截面定義中包含平動(dòng)自由度和轉(zhuǎn)動(dòng)自由度的耦合。使用精確的轉(zhuǎn)動(dòng)慣量公式(默認(rèn))時(shí),可以定義附加質(zhì)量和附加轉(zhuǎn)動(dòng)慣量,它們僅影響梁的慣性反應(yīng),

13、不增加結(jié)構(gòu)的剛度。2.梁?jiǎn)卧倪x擇ABAQUS中的梁?jiǎn)卧譃闅W拉-伯努力梁元和鐵木辛克梁元兩類,支持實(shí)心截面、薄壁閉口截面、薄壁開口截面。ABAQUS/Standard中的梁?jiǎn)卧ǎ?平面及空間的歐拉-伯努力(細(xì)長(zhǎng))梁; 平面及空間的鐵木辛克(剪切變形)梁; 線性、二次、三次插值公式; 翹曲(開口截面)梁; 管單元 雜交梁,通常用于具有明顯轉(zhuǎn)動(dòng)的非常剛硬的梁; ABAQUS/Explicit中的梁?jiǎn)卧ǎ?平面及空間的鐵木辛克(剪切柔性)梁; 線性及二次插值公式; 2.1歐拉-伯努力梁歐拉-伯努力梁元(B23, B23H, B33, B33H)僅在ABAQUS/Standard中提供。不允

14、許橫向剪切變形;初始垂直于梁軸線的平截面變形后依然保持平面(如果沒有翹曲),并垂直于梁軸線。只能用于模擬細(xì)長(zhǎng)梁:梁截面尺寸相比于梁軸線方向的典型尺寸,即長(zhǎng)細(xì)比較小。對(duì)于由均一材料構(gòu)成的梁,只有當(dāng)?shù)湫土航孛娉叽缧∮诹狠S線方向典型尺寸的1/15時(shí),橫向剪切變形才可以忽略。單元不包含由壓力產(chǎn)生的荷載剛度。插值:歐拉-伯努力梁元采用三次插值公式,這對(duì)于梁上分布荷載是精確的。因此,適合于動(dòng)力振動(dòng)分析因?yàn)閐Alembert荷載(達(dá)朗貝爾荷載,即慣性力)也是分布的。三次梁?jiǎn)卧m合于分析小應(yīng)變、大轉(zhuǎn)動(dòng)問題。由于采用近似的方程,不適合分析扭轉(zhuǎn)穩(wěn)定問題,也不適合分析有特別大轉(zhuǎn)動(dòng)的問題(比如約180度),此時(shí),應(yīng)該

15、采用一次或二次梁?jiǎn)卧Y|(zhì)量公式:歐拉-伯努力梁元采用一致質(zhì)量公式。繞梁軸線扭轉(zhuǎn)時(shí)的轉(zhuǎn)動(dòng)慣量和鐵木辛克梁元一樣。不能定義附加慣量。2.2鐵木辛克梁鐵木辛克梁(B21, B22, B31. B32, B31OS, B32OS, PIPE21, PIPE22, PIPE31, PIPE32及對(duì)應(yīng)的雜交單元)允許橫向剪切變形。既可分析厚梁,又可細(xì)長(zhǎng)梁。對(duì)于由均一材料構(gòu)成的梁,對(duì)于截面尺寸達(dá)到軸向典型尺寸或?qū)τ诮Y(jié)構(gòu)反應(yīng)有顯著貢獻(xiàn)的最高階振動(dòng)波長(zhǎng)的1/8的梁,剪切變形梁理論能夠提供有用的結(jié)果。在這個(gè)比例以外,如果還僅僅用梁軸線位置的函數(shù)來(lái)描述構(gòu)件的行為,將得不到足夠準(zhǔn)確的結(jié)果。ABAQUS假定鐵木辛克梁的

16、橫向剪切變形是線彈性的,具有固定的模量,因此獨(dú)立于梁截面的軸向拉、壓和彎曲反應(yīng)。對(duì)于大部分梁截面,ABAQUS會(huì)自動(dòng)計(jì)算橫向剪切剛度,用戶也可以自定義。如果程序不能從輸入部分得到剪切模量值,將無(wú)法計(jì)算缺省的剪切剛度,比如使用子程序(UMAT, UHYPEL, UHYPER, VUMAT)定義材料的情況。對(duì)于這些情況,用戶必須自己定義剪切剛度值。鐵木辛克梁元可以承受很大的軸向變形,并假定由扭轉(zhuǎn)引起的軸向應(yīng)變很小。在拉(壓)-扭組合荷載下,只有當(dāng)軸向應(yīng)變不太大的時(shí)候,才能精確計(jì)算扭轉(zhuǎn)引起的剪應(yīng)變。關(guān)于剪切剛度的計(jì)算可參考幫助文檔。插值:程序?yàn)橛邢掭S向應(yīng)變、剪切變形梁?jiǎn)卧峁┮淮魏投尾逯怠卧狟2

17、1, B31, B31OS, PIPE21, PIPE31及對(duì)應(yīng)的雜交單元采用線性插值。特別適合于分析接觸問題,比如溝渠或海底管線的鋪設(shè),鉆頭和井孔的接觸,及它們對(duì)應(yīng)的動(dòng)力學(xué)問題。單元B22, B32, B32OS, PIPE22, PIPE32及對(duì)應(yīng)的雜交單元采用二次插值。質(zhì)量公式:線性鐵木辛克梁元采用集中質(zhì)量公式。ABAQUS/Standard中,二次鐵木辛克梁元采用一致質(zhì)量公式,但動(dòng)力分析中將按照1:4:1的分布,采用集中質(zhì)量公式。ABAQUS/Explicit中的二次鐵木辛克梁元也采用上述形式的集中質(zhì)量公式。轉(zhuǎn)動(dòng)慣量和附加慣量:缺省情況下,鐵木辛克梁采用精確的(各向異性,位移-轉(zhuǎn)角耦合

18、)轉(zhuǎn)動(dòng)慣量公式,也可以采用各向同性的、解耦的近似方法。例外是,對(duì)于靜力分析中采用自動(dòng)穩(wěn)定控制(automatic stabilization)的情況,程序在計(jì)算鐵木辛克梁的質(zhì)量矩陣時(shí),直接假定轉(zhuǎn)動(dòng)慣量為各向同性,忽略指定的轉(zhuǎn)動(dòng)慣量類型。在一些結(jié)構(gòu)應(yīng)用中,對(duì)于具有復(fù)雜幾何形狀和質(zhì)量分布的截面,梁?jiǎn)卧且环N一維的近似。沿梁長(zhǎng)度方向,梁截面上可能存在著對(duì)結(jié)構(gòu)剛度沒有貢獻(xiàn),但卻對(duì)慣性有貢獻(xiàn)的分布質(zhì)量,如機(jī)器、船艙中的貨物、裝滿流體的容器等。這種情況下,可以在梁截面定義中定義附加質(zhì)量和附加轉(zhuǎn)動(dòng)慣量。還可以定義與附加慣量相關(guān)的質(zhì)量比例阻尼。程序根據(jù)質(zhì)量比例,通過對(duì)材料阻尼和附加慣性阻尼進(jìn)行加權(quán)平均,確定單

19、元的質(zhì)量比例阻尼。翹曲(開口)梁:在三維空間中使用梁?jiǎn)卧獣r(shí),必須注意梁截面上可能存在的由于扭矩引起的翹曲變形,除了圓形截面外,所有的截面在承受扭矩時(shí)都會(huì)發(fā)生出平面變形。翹曲將改變截面上的剪應(yīng)變分布。如果翹曲沒有得到有效約束,開口截面很容易發(fā)生扭曲,尤其是梁截面壁厚較薄的情況。單元B31OS, B32OS以及對(duì)應(yīng)的雜交單元通過在每個(gè)節(jié)點(diǎn)處增加一個(gè)自由度來(lái)考慮翹曲,并假定翹曲變形是截面上位置的函數(shù),僅翹曲幅度隨截面在梁軸線上的位置而改變,并且上述單元只能在ABAQUS/Standard中使用。它們可用于分析薄壁、開口截面,對(duì)于這些截面,翹曲約束起一定作用,由翹曲引起的軸向變形不可忽略,例如I形截面

20、和任意開口截面。在其他的梁?jiǎn)卧校N曲被認(rèn)為是自由的,翹曲引起的任何軸向應(yīng)力都被忽略。用這些單元分析薄壁、開口截面梁時(shí),扭轉(zhuǎn)不能被很好的反映。通常,只有當(dāng)通過節(jié)點(diǎn)的梁軸線是連續(xù)的,并且節(jié)點(diǎn)兩側(cè)的梁橫截面相同時(shí),翹曲幅度才是連續(xù)的。因此,如果開口梁在節(jié)點(diǎn)處相交,那么就需要為這個(gè)具有不同軸線方向的交叉梁定義單獨(dú)的節(jié)點(diǎn),并且需要為兩個(gè)相交構(gòu)件在這個(gè)節(jié)點(diǎn)處翹曲幅度定義合理的約束。例如,如果接點(diǎn)被加強(qiáng),翹曲變形就可能被消除;那么,在接點(diǎn)連接處,作為邊界條件,翹曲自由度7應(yīng)該在合適的構(gòu)件上被完全約束。參考資料:ABAQUS, Inc. 2008. Abaqus Theory Manual, Version

21、 6.8. Providence, Rhode Island: Dassault Systmes.From: 在進(jìn)行梁?jiǎn)卧孛鎯?nèi)力的后處理時(shí),會(huì)遇到SF1、SF2、SF3、SM1、SM2、SM3,其具體含義是什么呢?根據(jù)23.3.8 Beam element library的解釋Section forces, moments, and transverse shear forcesSF1 Axial force.梁?jiǎn)卧S力SF2 Transverse shear force in the local 2-direction (not available for B23, B23H, B33,

22、B33H).n2方向的橫向剪力SF3 Transverse shear force in the local 1-direction (available only for beams in space, not available for B33, B33H).n1方向的橫向剪力SM1 Bending moment about the local 1-axis.繞n1軸的彎矩SM2 Bending moment about the local 2-axis (available only for beams in space).繞n2軸的彎矩SM3 Twisting moment about

23、 the beam axis (available only for beams in space).繞梁?jiǎn)卧S線的扭矩ABAQUS的任務(wù)管理命令可以暫停、恢復(fù)、和終止一個(gè)正在背景運(yùn)行的任務(wù),方法如下(在命令行輸入并運(yùn)行): 1、暫停一個(gè)正在運(yùn)行的任務(wù):abaqus suspend job=job-name2、恢復(fù)一個(gè)暫停的任務(wù):abaqus resume job=job-name 3、終止一個(gè)正在運(yùn)行的任務(wù):abaqus terminate job=job-name其中任務(wù)暫停(suspend)的時(shí)候,windows任務(wù)管理欄中仍會(huì)保留standard/explicit的計(jì)算線程,只是不再使

24、用CPU資 源,當(dāng)任務(wù)恢復(fù)(resume)的時(shí)候繼續(xù)工作。任務(wù)終止則就像CAE中提交的任務(wù)的KILL功能類似,直接cut掉正在運(yùn)行的任務(wù),不可恢復(fù)。其實(shí)也就 和在windows任務(wù)管理欄中強(qiáng)行終止差不多,但屬于合法操作。ABAQUS中USER TIME/SYSTEM TIME/TOTAL CPU TIME/WALL CLOCK的意義2011-02-24 21:56:29|分類: ABAQUS |標(biāo)簽:timecputotalclockwall |字號(hào)訂閱 USER TIME refers to the CPU time spent executing ABAQUS. SYSTEM TIME r

25、efers to the amount of OS kernel CPU time spent by the operating system doing work on behalf of the ABAQUS process. TOTAL CPU TIME is the sum of these two numbers. WALL CLOCK time refers to the actual physical time spent for the analysis process to complete. If the analysis job is running on a singl

26、e CPU, and the job has exclusive access to that CPU, the difference between TOTAL CPU TIME and WALL CLOCK TIME is largely the time taken to perform all I/O requests. 求解器算法比較應(yīng)當(dāng)用Total CPU,對(duì)用戶感到的時(shí)間用Wall clock在進(jìn)行殼單元截面內(nèi)力的后處理時(shí),會(huì)遇到SF1、SF2、SF3、SF4、SF5、SF6、SM1、SM2、SM3,其具體含義是什么呢?根據(jù)23.6.8 Continuum shell eleme

27、nt library 的解釋Section forces, moments, and transverse shear forcesSF1 Direct membrane force per unit width in local 1-direction.n1方向單位寬度內(nèi)的正拉(壓)力SF2 Direct membrane force per unit width in local 2-direction.n2方向單位寬度內(nèi)的正拉(壓)力SF3 Shear membrane force per unit width in local 12 plane.n1-n2平面內(nèi)單位寬度內(nèi)的剪力SF4

28、Transverse shear force per unit width in local 1-direction.n1方向單位寬度內(nèi)的橫向剪力SF5 Transverse shear force per unit width in local 2-direction.n2方向單位寬度內(nèi)的橫向剪力SF6 Thickness stress integrated over the element thickness.殼單元厚度方向的集中力SM1 Bending moment force per unit width about local 2-axis.繞n2軸的彎矩SM2 Bending mo

29、ment force per unit width about local 1-axis.繞n1軸的彎矩SM3 Twisting moment force per unit width in local 12 plane.n1-n2平面內(nèi)的扭矩File extensionsabq State file, only used by Abaqus/Explicit. It is written by the analysis, continue, and recover options. It is read by the convert and recover options. This fil

30、e is required for restart.axi Symmetric model data file, only used by Abaqus/Standard. It is written during symmetric model generation by the datacheck and analysis options.bsp Text file containing beam cross-section properties for meshed section profiles. It is written by Abaqus/Standard during mes

31、hed beam cross-section generation.cid Auto-release file, which contains information needed for license recovery and Command file, created by the Abaqus execution procedure.dat Printed output file. It is written by the analysis, datacheck, parametercheck, and continue options. Abaqus/E

32、xplicit does not write analysis results to this file.eig Lanczos eigenvector file. This is a temporary scratch file that is used to store the eigenvectors calculated by the Lanczos eigensolver during the solution procedure.f User subroutine or other special-purpose FORTRAN file.fct, uft Sparse solve

33、r factor files. These temporary scratch files are used by the sparse solver in Abaqus/Standard. The uft file is created only when the unsymmetric solver is used.fil Results file. It is written by the analysis and continue options in Abaqus/Standard and by the convert=select and convert=all options i

34、n Abaqus/Explicit.fin Results file created when changing the format of the .fil file using the abaqus ascfil command. It can be in either ASCII or binary format. (See “Execution procedure for ASCII translation of results (.fil) files,” Section 3.2.9.) The ASCII format is convenient for data transfer

35、 between machines that do not have compatible binary data formats.inp Analysis input file. It is read when the analysis, datacheck, and parametercheck options are selected.ipm Interprocess message file. It is written when an analysis is run from Abaqus/CAE, and it contains a log of all messages sent

36、 from Abaqus/Standard or Abaqus/Explicit to Abaqus/CAE.lck Lock file for the output database. This file is written whenever an output database file is opened with write access; it prevents you from having simultaneous write permission to the output database from multiple sources. It is deleted autom

37、atically when the output database file is closed or when the analysis that creates it ends. The ask_delete environment file parameter setting will not affect the lock file.lnz Lanczos vector file. This is a temporary scratch file that is used to store the Lanczos vectors and weighted Lanczos vectors

38、.log Log file, which contains start and end times for modules run by the current Abaqus execution procedure.mdl Model file. It is written by the datacheck option in Abaqus/Standard and Abaqus/Explicit. It is read and can be written by the analysis and continue options in Abaqus/Standard. It is read

39、by the analysis and continue options in Abaqus/Explicit. Multiple model files may exist if the element operations are executed in parallel in an Abaqus/Standard analysis. In such a case a process identifier is attached to the file name. This file is required for restart.msg Message file. It is writt

40、en by the analysis, datacheck, and continue options in Abaqus/Standard and Abaqus/Explicit. Multiple message files may exist if the element operations are executed in parallel in an Abaqus/Standard analysis. In such a case a process identifier is attached to the file name.nck Nickname file used by A

41、baqus/Standard. It stores a set of internal identifiers for the degrees of freedom in a model.odb Output database. It is written by the analysis and continue options in Abaqus/Standard and Abaqus/Explicit. It is read by the Visualization module in Abaqus/CAE (Abaqus/Viewer) and by the convert=odb op

42、tion. This file is required for restart.opr Sparse solver operator file, which is a temporary scratch file used by the sparse solver in Abaqus/Standard.pac Package file, which contains model information and is used by Abaqus/Explicit only. It is written by the analysis and datacheck options. It is r

43、ead by the analysis, continue, and recover options. This file is required for restart.par Modified version of original parametrized input file showing input parameters and their values.pes Modified version of original parametrized input file showing input free of parameter information (after input p

44、arameter evaluation and substitution has been performed).pmg Parameter evaluation and substitution message file. It is written when the input file is parametrized.prt Part file. This file is used to store part and assembly information and is created even if the input file does not contain an assembl

45、y definition. The part file is required for restart, import, sequentially coupled thermal-stress analysis, symmetric model generation, and underwater shock analysis, even if the model is not defined in terms of an assembly of part instances. This file may also be needed for submodeling analysis.psf

46、Python scripting file. You must create this type of file to define a parametric study.res Restart file, which contains information necessary to continue a previous analysis. The restart file is written by the analysis, datacheck, and continue options. It is read by any restarted analysis.scr Lanczos

47、 scratch file. This is a temporary scratch file that is used to hold temporary information required by the Lanczos solver.sct Perturbation results scratch file. This file temporarily holds element results needed for output in Abaqus/Standard perturbation steps.sdb Sparse solver database file. This i

48、s a temporary file that is used by the sparse solver.sel Selected results file, used by Abaqus/Explicit. It is written by the analysis, continue, and recover options and is read by the convert=select option. This file is required for restart.sim Linear dynamics data file. It is written during the fr

49、equency extraction procedure in SIM-based linear dynamics analyses (see “Using the SIM architecture for mode-based linear dynamic analyses” in “Dynamic analysis procedures: overview,” Section 6.3.1, for details) and is used to store eigenvectors, substructure matrices, and other modal system informa

50、tion. This file is required for restart.sol Sparse solver file used to store the solution vectors for a problem. This file is a temporary file used by the sparse solver in Abaqus/Standard.sst Sparse solver scratch file. This temporary scratch file is used by the sparse solver in Abaqus/Standard. sta

51、 Status file. Abaqus writes increment summaries to this file in the analysis, continue, and recover options.stt State file. It is written by the datacheck option in Abaqus/Standard and Abaqus/Explicit. It is read and can be written by the analysis and continue options in Abaqus/Standard. It is read

52、by the analysis and continue options in Abaqus/Explicit. Multiple state files may exist if the element operations are executed in parallel in an Abaqus/Standard analysis. In such a case a process identifier is attached to the file name. This file is required for restart.sup Substructure file, used b

53、y Abaqus/Standard.var File containing information about the input file variations generated by a parametric study.023 Communications file. It is written by the analysis and datacheck options and is read by the analysis and continue options.ABAQUS中的文件類型詳解2011-02-13 21:19:25|分類: ABAQUS |字號(hào)訂閱 ABAQUS產(chǎn)生幾

54、類文件:有些是在運(yùn)行是產(chǎn)生,運(yùn)行后自動(dòng)刪除;其它一些用于分析、重啟、后處理、結(jié)果轉(zhuǎn)換或其它軟件的文件則被保留,詳細(xì)如下:1. model_database_name.cae模型信息、分析任務(wù)等2. model_database_name.jnl日志文件:包含用于復(fù)制已存儲(chǔ)模型數(shù)據(jù)庫(kù)的ABAQUS/CAE命令*.cae和 *.jnl構(gòu)成支持CAE的兩個(gè)重要文件,要保證在CAE下打開一個(gè)項(xiàng)目,這兩個(gè)文件必須同時(shí)存在;3 job_name.inp輸入文件。由abaqus Command支持計(jì)算起始文件,它也可由CAE打開;4 job_name.dat數(shù)據(jù)文件:文本輸出信息,記錄分析、數(shù)據(jù)檢查、參數(shù)檢

55、查等信息。ABAQUS/Explicit 的分析結(jié)果不會(huì)寫入這個(gè)文件5. job_name.sta狀態(tài)文件:包含分析過程信息6. job_name.msg是計(jì)算過程的詳悉記錄,分析計(jì)算中的平衡迭代次數(shù),計(jì)算時(shí)間, 警告信息,等等可由此文件獲得。用STEP模塊定義7. job_name.res重啟動(dòng)文件,用STEP模塊定義8. job_name.odb輸出數(shù)據(jù)庫(kù)文件,即結(jié)果文件,需要由Visuliazation打開9. job_name.fil也為結(jié)果文件,可被其它應(yīng)用程序讀入的分析結(jié)果表示格式。ABAQUS/Standard記錄分析結(jié)果。ABAQUS/Explicit. 的分析結(jié)果要寫入此文件

56、中則需要轉(zhuǎn)換,convert=select 或convert=all10. abaqus.rpy記錄一次操作中幾乎所有的ABAQUS/CAE命令11. job_name.lck阻止并發(fā)寫入輸出數(shù)據(jù)庫(kù),關(guān)閉輸出數(shù)據(jù)庫(kù)則自行刪除12. model_database_name.rec包含用于恢復(fù)內(nèi)存中模型數(shù)據(jù)庫(kù)的ABAQUS/CAE命令13. job_name.ods場(chǎng)輸出變量的臨時(shí)操作運(yùn)算結(jié)果,自動(dòng)刪除14. job_name.ipm內(nèi)部過程信息文件:?jiǎn)?dòng)ABAQUS/CAE分析時(shí)開始寫入,記錄了從 ABAQUS/Standard或ABAQUS/Explicit 到 ABAQUS/CAE的過程日志

57、15job_name.log日志文件:包含了 ABAQUS執(zhí)行過程的起止時(shí)間等16job_name.abqABAQUS/Explicit模塊才有的狀態(tài)文件,記錄分析、繼續(xù)和恢復(fù)命令。為restart所需的文件。17job_name.mdl模型文件:在ABAQUS/Standard 和 ABAQUS/Explicit中運(yùn)行數(shù)據(jù)檢查后產(chǎn)生的文件,.在 analysis和continue 指令下被讀入并重寫,為restart所需的文件。18job_name.pac打包文件:包含了模型信息,僅用于ABAQUS/Explicit ,該文件在執(zhí)行 analysis、datacheck命令時(shí)寫入,執(zhí)行 analysis, continue, recover 指令時(shí)讀入,restart時(shí)需要的文件。19job_name.prt零件信息文件:包含了零件與裝配信息.。restart時(shí)需要20job_name.sel結(jié)果選擇文件:用于A

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