Wind tunnel measurements of the rotor trim, blade airloads, and structural loads of a full-scale UH-60A Black Hawk main rotor are compared with calculations obtained using the comprehensive rotorcraft analysis CAMRAD II and a coupled CAMRAD II/OVERFLOW 2 analysis. A speed sweep at constant lift up to an advance ratio of 0.4 and a thrust sweep at constant speed into deep stall are investigated. The coupled analysis shows significant improvement over comprehensive analysis. Normal force phase is better captured and pitching moment magnitudes are better predicted including the magnitude and phase of the two stall events in the fourth quadrant at the deeply stalled condition. Structural loads are, in general, improved with the coupled analysis, but the magnitude of chord bending moment is still significantly underpredicted. As there are three modes around 4 and 5/rev frequencies, the structural responses to the 5/rev airloads due to dynamic stall are magnified and thus care must be taken in the analysis of the deeply stalled condition.
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机译:将全尺寸UH-60A Black Hawk主旋翼的风道测量,旋翼修整,叶片空气载荷和结构载荷与使用综合旋翼飞机分析CAMRAD II和CAMRAD II / OVERFLOW 2耦合分析获得的计算结果进行比较。研究了恒升至0.4前进比的恒升速度扫描和恒速进入深档的推力扫描。耦合分析显示出比综合分析显着改进。可以更好地捕获法向力相位,并且可以更好地预测俯仰力矩的大小,包括在深度失速条件下第四象限中两个失速事件的大小和相位。通常,通过耦合分析可以改善结构载荷,但是弦弯矩的大小仍大大低于预期。由于在4和5 / rev频率附近存在三种模式,因动态失速引起的对5 / rev空载的结构响应会放大,因此在分析深度失速条件时必须格外小心。
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