用于纤维增强复合材料的弹性形状记忆合金应变传感器的温度校准和温度补偿

T. Mäder, B. Senf, M. Zoch, Welf-Guntram Drossel
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引用次数: 0

摘要

与传统应变片相比,用于纤维增强塑料的应变传感器需要更高的弹性和抗疲劳性。由形状记忆合金(SMA)制成的弹性应变传感器可满足这一要求。由于弹性较大,因此除了标准中推荐的校准程序外,还需要其他校准程序。本文介绍了形状记忆应变传感器随环境温度变化的校准方法,并对温度补偿方法进行了研究。SMA 应变传感器是由浸入环氧树脂的金属丝和玻璃纤维绒层制成的传感器贴片。这些贴片粘接在玻璃纤维塑料复合材料制成的弯曲试样上。SMA 传感器的校准是通过使用自制试验台进行 4 点弯曲试验来实现的。该试验台专为在气候箱中操作而设计。结果表明,温度补偿的可行性得到了成功验证。传感器信号在空载状态下的温度响应变化小于 0.4 mV/V。测量系数取决于温度,并通过与温度传感器数据的回归进行补偿。结合温度传感器,几乎可以完全补偿与温度有关的行为。实现了在较大应变下校准 SMA 传感器的程序。
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Temperature-dependent calibration and temperature compensation of elastic shape-memory alloy strain sensors for fiber-reinforced composite applications
Strain sensors for fibre-reinforced plastics require higher elasticity and fatigue resistance than conventional strain gauges. Elastic strain sensors made of shape-memory alloys (SMA) meet this requirement. Due to greater elasticity, other procedures are required for their calibration than those recommended in standards. This paper presents a calibration method for shape-memory strain sensors as a function of ambient temperature and methods for temperature compensation are investigated. SMA strain sensors are manufactured as sensor patches from wire and layers of glass fibre fleece infiltrated with epoxy resin. The patches are bonded to bending specimens made of glass-fibre plastic composites. The calibration of the SMA sensors is implemented by means of a 4-point bending test using a self-built test stand. This is designed for operation in a climate chamber. The results show successful proof of feasibility of temperature compensation. The variation of sensor signal in the unloaded state in the temperature response is less than 0.4 mV/V. The gauge factor depends on the temperature and is compensated by means of a regression with temperature sensor data. In combination with a temperature sensor, an almost complete compensation of the temperature-dependent behaviour is possible. A procedure is realised for calibrating SMA sensors at larger strains.
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