航空科学技术
航空科學技術
항공과학기술
AERONAUTICAL SCIENCE AND TECHNOLOGY
2015年
3期
24-28
,共5页
气密载荷%机身%长桁%弯曲应力%有限元分析
氣密載荷%機身%長桁%彎麯應力%有限元分析
기밀재하%궤신%장항%만곡응력%유한원분석
pressurization%fuselage%stringer%bending stress%ifnite element analysis
针对机身结构,对气密载荷下机身长桁的弯曲应力进行了分析。在推导机身结构在承受气密载荷作用下的微分方程的基础上,通过施加特定边界条件,得到机身结构在承受气密载荷时局部弯矩的解析解,并应用MSC.Nastran大型有限元分析软件,建立有限元模型进行求解。分析结果表明:框与壁板由于变形不协调而产生了局部弯矩故对长桁产生了弯曲效应,即弯曲应力。
針對機身結構,對氣密載荷下機身長桁的彎麯應力進行瞭分析。在推導機身結構在承受氣密載荷作用下的微分方程的基礎上,通過施加特定邊界條件,得到機身結構在承受氣密載荷時跼部彎矩的解析解,併應用MSC.Nastran大型有限元分析軟件,建立有限元模型進行求解。分析結果錶明:框與壁闆由于變形不協調而產生瞭跼部彎矩故對長桁產生瞭彎麯效應,即彎麯應力。
침대궤신결구,대기밀재하하궤신장항적만곡응력진행료분석。재추도궤신결구재승수기밀재하작용하적미분방정적기출상,통과시가특정변계조건,득도궤신결구재승수기밀재하시국부만구적해석해,병응용MSC.Nastran대형유한원분석연건,건립유한원모형진행구해。분석결과표명:광여벽판유우변형불협조이산생료국부만구고대장항산생료만곡효응,즉만곡응력。
On the basis of deducing the differential equation of fuselage structure under pressurization, by imposing speciifc boundary conditions, the analytical solution of local bending moment of fuselage structure under pressurization was derived. For a given example, by utilizing finite element analytical software MSC. NASTRAN, finite element models of a typical fuselage structure were built and analyzed. The comparison between the analytical solution and results of ifnite element analysis manifests that the conventional method of idealization by which the stringers are idealized as CROD elements can not reflect the bending effects produced by the local bending moment created by the discordance of deformation between the skin and frames. After a series of analysis, a reasonable method of idealization for the fuselage structure under pressurization was put forward.