Hypersonic aerodynamic force balance using temperature compensated semiconductor strain gauges

IF 2.9 3区工程技术 Q2 ENGINEERING, MECHANICAL Advances in Aerodynamics Pub Date : 2023-12-01 DOI:10.1186/s42774-023-00160-2

Huacheng Qiu, Yanguang Yang, Peng Sun, Genming Chao, Yousheng Wu, Yingdong Chen

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Abstract

Metal foil strain gauges remain the state-of-the-art transducers for wind tunnel balances. While strain gauge technology is very mature, piezoresistive semiconductor sensors offer alternatives that are worth exploring to assess their unique benefits, such as better strain resolution and accuracy, which would enable balances to be designed with higher factors to safety and hence longer fatigue lifetimes. A new three-component balance, based on temperature compensated semiconductor strain gauges, is designed, calibrated and tested in a hypersonic low density wind tunnel. The static accuracy of the semiconductor balance is calibrated better than 0.3% FS, and the dynamic accuracy of the balance is established using a HB-2 standard model in a Mach 12 hypersonic flow. Good experimental repeatability is confirmed to be better than 2.5% FS, and the effectiveness of the balance is demonstrated by comparing the forces and moments of measured data with computational fluid dynamics simulations, as well as reference wind tunnel results under similar conditions.

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使用温度补偿半导体应变片的高超声速气动力平衡

金属箔应变计仍然是最先进的风洞平衡传感器。虽然应变计技术非常成熟，但压阻式半导体传感器提供了值得探索的替代方案，以评估其独特的优势，例如更好的应变分辨率和精度，这将使天平设计具有更高的安全系数，从而延长疲劳寿命。设计了一种基于温度补偿半导体应变计的新型三分量天平，并在高超声速低密度风洞中进行了标定和试验。在12马赫高超声速下，利用HB-2标准模型建立了半导体天平的动态精度，其静态精度优于0.3% FS。实验重复性优于2.5% FS，并将实测数据与计算流体力学模拟及参考风洞结果进行对比，验证了该平衡的有效性。

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