This paper describes the effects of a composite coupled blade spar on the performance of a slowed RPM helicopter rotor in high speed edgewise flight. This study expands upon previous work that showed that antisymmetric composite coupling in the spar of a UH-60A-like rotor can provide a significant increase in the lift to drag ratio of a rotor when the RPM is reduced. The current analysis was performed using a full 3-D FEA based aeroelastic computational structural dynamics (CSD) solver, X3D, now with the inclusion of a freewake aerodynamics model. This was validated using extant UH-60A test data for high advance ratios. The current analysis shows that a blade with composite coupling can provide a maximum increase of in the lift to drag ratio of approximately 1.5 at 85% of the nominal RPM (NR) of 27 rad/s. However, close study of the strain in the rotor showed that the coupled rotor would unlikely be feasible at 27 rad/s as the axial strains felt by the rotor around the azimuth often exceed the allowable tensile strain of 6000 με. The details of what can be done to reduce the axial strain at all rotational speeds is part of an ongoing investigation.
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机译:本文介绍了复合耦合叶片翼梁对高速边缘飞行中慢速RPM直升机转子的性能的影响。该研究在先前的作用下扩展,显示在UH-60A样转子的翼架的翼架中的防尿上复合耦合可以在转速减小时,在升力中可以提供显着的升力以阻止转子的比率。使用完整的3-D FEA的空气弹性计算结构动力学(CSD)求解器,X3D来执行当前分析,现在包含脲珠气球动力学模型。这是使用远程UH-60A测试数据进行验证,以获得高预先比率。目前的分析表明,具有复合耦合的叶片可以在升力中的最大增加,以27 rad / s的标称RPM(NR)的85%的牵引比率为约1.5。然而,在转子中的紧密研究表明,由于转子围绕方位角的转子毡的轴向菌株通常超过6000μL的允许拉伸应变,耦合转子在27 rad / s处不太可能是可行的。可以做些什么来减少所有转速的轴向应变是正在进行的调查的一部分。
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