机械强度
機械彊度
궤계강도
JOURNAL OF MECHANICAL STRENGTH
2009年
6期
896-899
,共4页
多层壳结构%复合载荷%随机振动%有限元
多層殼結構%複閤載荷%隨機振動%有限元
다층각결구%복합재하%수궤진동%유한원
Multilayer shell structure%Combined environment%Random vibration%Finite element
介绍受复合载荷作用结构动力分析的背景和意义.从工程应用的角度,探讨温度与随机振动载荷作用下结构动态响应的有限元分析技术,包括对流边界条件下温度场的求解、热应力计算、预应力刚度矩阵的建立、响应功率谱分析等.然后以一种典型多层壳结构为研究对象,根据其在温振复合试验中的受试状态建立有限元模型.在此基础上,采用模态迭加方法和等效黏滞性小阻尼条件,计算复合载荷作用下的振动加速度响应,并与单一振动载荷作用结果进行对比,结果发现,由于环境温度的升高,结构的振动模态频率降低,而振动响应增大.分析结果可作为多层壳结构可靠性试验方法选取的参考依据.
介紹受複閤載荷作用結構動力分析的揹景和意義.從工程應用的角度,探討溫度與隨機振動載荷作用下結構動態響應的有限元分析技術,包括對流邊界條件下溫度場的求解、熱應力計算、預應力剛度矩陣的建立、響應功率譜分析等.然後以一種典型多層殼結構為研究對象,根據其在溫振複閤試驗中的受試狀態建立有限元模型.在此基礎上,採用模態迭加方法和等效黏滯性小阻尼條件,計算複閤載荷作用下的振動加速度響應,併與單一振動載荷作用結果進行對比,結果髮現,由于環境溫度的升高,結構的振動模態頻率降低,而振動響應增大.分析結果可作為多層殼結構可靠性試驗方法選取的參攷依據.
개소수복합재하작용결구동력분석적배경화의의.종공정응용적각도,탐토온도여수궤진동재하작용하결구동태향응적유한원분석기술,포괄대류변계조건하온도장적구해、열응력계산、예응력강도구진적건립、향응공솔보분석등.연후이일충전형다층각결구위연구대상,근거기재온진복합시험중적수시상태건립유한원모형.재차기출상,채용모태질가방법화등효점체성소조니조건,계산복합재하작용하적진동가속도향응,병여단일진동재하작용결과진행대비,결과발현,유우배경온도적승고,결구적진동모태빈솔강저,이진동향응증대.분석결과가작위다층각결구가고성시험방법선취적삼고의거.
The background and significance of dynamic analysis were introduced for the structure suffering from combined environment. Focusing on practical application, finite element simulation technology was discussed for engineering structures applied with combined temperature and vibration environment, including solution of temperature field with convectional boundary condition, thermal stress computation, forming of prestress stiffness matrix, analysis of response power spectrum et al. Then taking a typical multilayer shell structure as object, the finite element model was set up, according to its testing status during the combined temperature and vibration environment tests. Based on the mentioned model, using modal superposition method and assuming equivalent viscidity damping, responses about vibration acceleration have been calculated and compared with that of results obtained from the instance with vibration environment only. The results show that the modal frequencies reduce and yet the vibration responses increase due to the ambient temperature increment. Analytic results may serve as reference for selection of reliability test method to multilayer shell structure.