哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
JOURNAL OF HARBIN ENGINEERING UNIVERSITY
2014年
8期
993-996
,共4页
微分方程法%稳定性分析%箱形伸缩臂%弹性约束%二阶效应%阶梯柱%侧向位移
微分方程法%穩定性分析%箱形伸縮臂%彈性約束%二階效應%階梯柱%側嚮位移
미분방정법%은정성분석%상형신축비%탄성약속%이계효응%계제주%측향위이
differential equation method%stability analysis%box telescopic boom%elastically restrained%second or-der effect%stepped column%lateral displacement
为了得到平面内弹性支撑阶梯柱刚度与稳定性问题的精确解,对箱形阶梯柱平面内受力模型进行了合理等效。基于纵横弯曲理论,建立了弹性支撑条件下变截面阶梯柱挠曲微分平衡方程,结合边界条件,得到了任意阶变截面阶梯柱端部挠度及结构失稳特征方程的精确递推表达式,从而给出工程中起重机常用节数箱形伸缩臂平面内失稳特征方程的显式表达。将所得的计算结果与ANSYS软件细分单元后的计算结果进行比较分析,验证了推导公式的正确性,从而为工程设计提供了简单、快捷、精确的变截面阶梯柱变形与屈曲临界力确定方法。
為瞭得到平麵內彈性支撐階梯柱剛度與穩定性問題的精確解,對箱形階梯柱平麵內受力模型進行瞭閤理等效。基于縱橫彎麯理論,建立瞭彈性支撐條件下變截麵階梯柱撓麯微分平衡方程,結閤邊界條件,得到瞭任意階變截麵階梯柱耑部撓度及結構失穩特徵方程的精確遞推錶達式,從而給齣工程中起重機常用節數箱形伸縮臂平麵內失穩特徵方程的顯式錶達。將所得的計算結果與ANSYS軟件細分單元後的計算結果進行比較分析,驗證瞭推導公式的正確性,從而為工程設計提供瞭簡單、快捷、精確的變截麵階梯柱變形與屈麯臨界力確定方法。
위료득도평면내탄성지탱계제주강도여은정성문제적정학해,대상형계제주평면내수력모형진행료합리등효。기우종횡만곡이론,건립료탄성지탱조건하변절면계제주뇨곡미분평형방정,결합변계조건,득도료임의계변절면계제주단부뇨도급결구실은특정방정적정학체추표체식,종이급출공정중기중궤상용절수상형신축비평면내실은특정방정적현식표체。장소득적계산결과여ANSYS연건세분단원후적계산결과진행비교분석,험증료추도공식적정학성,종이위공정설계제공료간단、쾌첩、정학적변절면계제주변형여굴곡림계력학정방법。
In order to get the precise solution for the stiffness and stability problems of the stepped column that is e-lastically restrained in a plane, a reasonable equivalence of the in-plane force model for the box stepped column was given. Based on the vertical and horizontal bending theory, this paper establishes the deflection differential e-quations of the variable cross-section stepped columns elastically restrained. Combining the proper boundary condi-tions, the precise recurrence expression of the flexibility and structural buckling characteristic equations of the arbi-trary sectioned stepped column on the top are represented, and as a result the explicit expression of the commonly used box telescopic boom in practice was given. The stability analysis results obtained in this paper were compared with ANSYS. The comparison shows that the results obtained through ANSYS and the buckling characteristic equa-tions are consistent with each other, which also verifies the correctness of this method. This method offers a simple, convenient and precise way to determine the deflection and buckling critical force of the variable cross-section stepped column.