共查询到20条相似文献,搜索用时 125 毫秒
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Shen Zhang 《中国航空学报》1995,(3)
DESIGNOBJECTMODELANDDESIGNPROCESSMODELOFCOMPUTERAIDEDAIRCRAFTCONCEPTUALDESIGNSYSTEMShenZhang(AircraftCADResearchCenter,Beijin... 相似文献
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RELIABILITYANDDAMAGETOLERANCEANALYSISFORAIRCRAFTPROPELLERFeiBinjun,GaoZhentong(InstituteofSolidMechanics,BeijingUniversityofA... 相似文献
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EXPERIMENTALSTUDYONTHEINFRAREDRADIATIONCHARACTERISTICSFROMHOTJETShanQixiang;BuMan(CollegeofScience,NanjingUniversityofAeronau... 相似文献
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Huang Mingke 《中国航空学报》1996,(1)
COMPUTATIONOFCOMPRESSIBLEFLOWPASTSLENDERWING-BODYUSINGFULL-POTENTIALEQUATIONHuangMingke(DepartmentofAerodynamics,NanjingUnive... 相似文献
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SIMPLIFYINGANDCONDENSINGASETOFRANDOMSPECTRAFORTRANSPORTZhangBaofa;FuXiangjiong(InstituteofStrength,NorthwesternPolytechnicalU... 相似文献
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Bac Jinsong 《中国航空学报》1996,(4)
INVESTIGATION OF INFLUENCE OF DYNAMIC INFLOW ON ROTOR FLAP/LAG STABILITYBacJinsong(ResearchinstituteOfHeliopterTechnology,Nan... 相似文献
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Yuan Xiugan 《中国航空学报》1995,(3)
COMPUTERSIMULATIONINMAN-MACHINE-ENVIRONMENTSYSTEMENGINEERINGYuanXiugan(FifthDepartment,BeijingUniversityofAeronauticsandAstro... 相似文献
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ANALYSIS OF DYNAMIC FLOW BEHAVIOR IN PITCHING MANEUVERChenNanqian;LiuRizhi;MaZongjiang(InstituteOfFluidMechanics,BeijingUnive... 相似文献
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EFFECT OF THE RIBLETS SURFACE ON THE BOUNDARY LAYER DEVELOPMENT 总被引:3,自引:0,他引:3
EFFECT OF THE RIBLETS SURFACE ON THE BOUNDARY LAYER DEVELOPMENTWangJinjun;LanShilong;LianQixiang(InstituteofFluidMechanicsIBe... 相似文献
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桨尖间隙和双桨间距对涵道螺旋桨气动性能的影响 总被引:3,自引:3,他引:0
采用基于非结构网格的滑移网格技术,对悬停状态下涵道螺旋桨流场进行了非定常Euler方程数值模拟,分别考查了桨尖间隙和双桨间距对涵道螺旋桨气动性能的影响.桨尖间隙比的变化范围取为0~1.37%,双桨间距变化范围取为0.25~0.65倍的桨叶半径.研究发现:随着桨尖间隙增大,涵道螺旋桨拉力降低,功率载荷减小;桨尖间隙比存在一个临界值,约为1.10%,在该值附近,桨尖泄漏涡显著增强,引起涵道和螺旋桨的拉力分配关系剧烈变化,涵道拉力占总拉力的比值下降10.27%,系统气动性能迅速恶化;大间隙下桨尖泄漏流表现出较强的非定常现象.增大双桨间距可以提高共轴双桨涵道的气动效率,但是因为涵道对螺旋桨滑流的改善作用,这种影响并不显著,气动力的相对变化量在3%以内. 相似文献
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采用自由尾涡分析方法, 把螺旋桨的尾涡模型分为近涡区和远涡区两部分, 计算了在不同进距比情况下的螺旋桨性能。在小进距比的重载情况, 螺旋桨尾涡的收缩对螺旋桨的性能影响较大。根据升力线理论采用自由尾涡分析方法考虑尾涡收缩, 改进了小进距比情况下的计算结果, 使得在所有情况下螺旋桨性能的计算结果和实验结果符合很好。 相似文献
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In order to improve the analysis accuracy of the influence of shape parameters on the aerodynamic performance of cycloidal propeller, a set of CFD methods suitable for the simulation of the cycloidal propeller flow field based on the dynamic overset mesh and Unsteady Reynolds time average method equation were established. The characteristics of the spanwise lift distribution and surface pressure distribution in case of different negative twist were provided. The influence of the negative twist on the aerodynamic performance of cycloidal propeller was emphasized. The results showed that, the change of negative twist caused the change of azimuth for cycloidal propeller lift. The larger the absolute value of negative twist, the lower the figure of merit of the cycloidal propeller; the smaller the negative twist, the more gentle the instantaneous aerodynamic fluctuation; the influence mechanism of negative twist on the aerodynamic performance of cycloidal propeller was generated from changing the non-uniform distribution of the cycloidal propeller''s effective angle of 相似文献