Grzybek Dariusz
Faculty of Mechanical Engineering and Robotics, AGH University of Krakow, al. A. Mickiewicza 30, 30-059 Krakow, Poland.
Materials (Basel). 2023 Dec 24;17(1):96. doi: 10.3390/ma17010096.
The subject of this article is an experimental analysis of the control system of a composite-based piezoelectric actuator and an aluminum-based piezoelectric actuator. Analysis was performed for both the unimorph and bimorph structures. To carry out laboratory research, two piezoelectric actuators with a cantilever sandwich beam structure were manufactured. In the first beam, the carrier layer was made of glass-reinforced epoxy composite (FR4), and in the second beam, it was made of 1050 aluminum. A linear mathematical model of both actuators was also developed. A modification of the method of selecting weights in the LQR control algorithm for a cantilever-type piezoelectric actuator was proposed. The weights in the R matrix for the actuator containing a carrier layer made of stiffer material should be smaller than those for the actuator containing a carrier layer made of less stiff material. Additionally, regardless of the carrier layer material, in the case of a bimorph, the weight in the R matrix that corresponds to the control voltage of the compressing MFC patch should be smaller than the weight corresponding to the control voltage of the stretching MFC patch.
本文的主题是对基于复合材料的压电致动器和基于铝的压电致动器的控制系统进行实验分析。对单压电晶片和双压电晶片结构都进行了分析。为了开展实验室研究,制造了两个具有悬臂夹层梁结构的压电致动器。在第一根梁中,承载层由玻璃纤维增强环氧树脂复合材料(FR4)制成,在第二根梁中,承载层由1050铝制成。还开发了这两种致动器的线性数学模型。提出了一种对悬臂式压电致动器的线性二次型调节器(LQR)控制算法中权重选择方法的改进。对于包含由刚度较大材料制成的承载层的致动器,R矩阵中的权重应小于包含由刚度较小材料制成的承载层的致动器的权重。此外,无论承载层材料如何,在双压电晶片的情况下,对应于压缩式微机电系统(MFC)贴片控制电压的R矩阵中的权重应小于对应于拉伸式MFC贴片控制电压的权重。