第 40 卷 第 6 期                                                                       Vol. 40, No. 6
             2021 年 11 月                         Journal of Applied Acoustics                 November, 2021

             ⋄ 研究报告 ⋄



             阶梯圆环压电超声换能器径向振动性能的理论研究                                                                       ∗




                                                   许 龙     †   范秀梅

                                                (中国计量大学理学院      杭州   310018)

                摘要：提出了一种阶梯圆环径向振动压电超声换能器，根据力电类比原理建立了阶梯圆环及阶梯圆环换能器
                的径向振动等效电路，推导了阶梯圆环的径向共振频率方程和位移放大系数，在此基础上进一步推导了换能
                器的径向共振和反共振频率方程。通过理论推导和有限元仿真模拟分析了阶梯圆环压电超声换能器的径向振
                动性能。结果表明，增大阶梯圆环中内外环的径向厚度之比 K 1 或减小轴向厚度之比 K 2，阶梯圆环的一阶径
                向共振频率减小，二阶径向共振频率增大；在二阶径向共振模式下，K 1、K 2 值在一定范围内阶梯圆环可实现由
                内向外的径向位移振幅放大；随着压电陶瓷圆环的内半径增大，阶梯圆环压电超声换能器的一阶、二阶径向共
                振和反共振频率减小，二阶径向共振下的有效机电转换系数趋于零；增大阶梯圆环内环的外半径，换能器的一
                阶径向共振和反共振频率减小，二阶径向共振和反共振频率先增大后减小，理论推导与仿真模拟结果符合良
                好。该文研究结果为阶梯圆环压电超声换能器的工程应用提供理论参考。
                关键词：阶梯圆环；径向振动；压电超声换能器
                中图法分类号: TB552           文献标识码: A          文章编号: 1000-310X(2021)06-0878-11
                DOI: 10.11684/j.issn.1000-310X.2021.06.010


                  Theoretical research on the radial vibration performance of the stepped

                                    circular piezoelectric ultrasonic transducer


                                                 XU Long     FAN Xiumei

                                  (College of Science, China Jiliang University, Hangzhou 310018, China)

                 Abstract: A stepped circular piezoelectric ultrasonic transducer in radial vibration is proposed. Based on the
                 principle of force-electricity analogy, the equivalent circuits of the stepped ring and the radial vibration of the
                 stepped circular transducer are established, and the radial resonance frequency equation and the displacement
                 amplification factor of the stepped ring are derived, then the radial resonance and anti-resonance frequency
                 equations of the transducer are further derived. By the theoretical calculation and the finite element simulation,
                 the radial vibration performance of the stepped circular piezoelectric ultrasonic transducer is analyzed. The
                 results show that, increase the ratio of the radial thickness of inner ring to the radial thickness of outer ring
                 or reduce the ratio of the axial thickness of outer ring to the axial thickness of inner ring of the stepped ring,
                 the first-order radial resonance frequency decreases and the second-order radial resonance frequency increases.
                 In the second-order radial resonance mode, the stepped ring can achieve radial displacement amplitude
                 amplification from the inside to the outside while the value of K 1 or K 2 is within a certain range; with the
                 inner radius of the piezoelectric ceramic ring increasing, the first and second-order radial resonance and anti-
                 resonance frequencies of the piezoelectric ultrasonic transducer decrease, and the effective electromechanical


             2021-01-11 收稿; 2021-04-09 定稿
             国家自然科学基金项目 (12074354, 11574277)
             ∗
             作者简介: 许龙 (1981– ), 男, 陕西榆林人, 博士, 教授, 研究方向: 压电超声换能器及超声振动系统、超声空化等。
             † 通信作者 E-mail: xulong@cjlu.edu.cn