第 41 卷 第 5 期                                                                       Vol. 41, No. 5
             2022 年 9 月                          Journal of Applied Acoustics                 September, 2022

             ⋄ 研究报告 ⋄



                  微穿孔介电弹性体薄膜的吸声性能试验分析                                                                ∗





                                        陈 杰 吴锦武            †   燕山林 兰晓乾


                                             (南昌航空大学飞行器工程学院        南昌   330063)

                摘要：针对普通薄膜型降噪结构的吸声性能较差和吸声带宽较窄的问题，该文设计了一种微穿孔的介电弹性
                体薄膜吸声结构。该结构由穿孔的介电弹性体薄膜与背腔组合而成，目的是拓宽介电弹性体薄膜低频率段的
                吸声带宽。针对微穿孔的介电弹性体薄膜吸声结构，从试验角度分析穿孔薄膜初始厚度、穿孔孔径及穿孔间距
                对结构吸声性能的影响。分析结果可知：通过适当增加薄膜的初始厚度，薄膜的整体吸声性能得到有效提升，
                最大可将 319 Hz 吸声频带的吸声系数从 0.2 提升至 0.7；减小薄膜的穿孔孔径能够有效拓宽穿孔薄膜的吸声频
                带，可使吸声系数 0.4 以上的吸声带宽由 304 Hz 拓宽至 432 Hz；适当控制穿孔间距能够达到更好的吸声效果。
                关键词：介电弹性体；微穿孔板；吸声性能；试验分析
                中图法分类号: TB53           文献标识码: A          文章编号: 1000-310X(2022)05-0830-07
                DOI: 10.11684/j.issn.1000-310X.2022.05.019




                 Experimental analysis of sound absorption performance of mic-perforated

                                              dielectric elastomer films


                                   CHEN Jie WU Jinwu YAN Shanlin LAN Xiaoqian

                           (School of Aircraft Engineering, Nanchang HangKong University, Nanchang 330063, China)

                 Abstract: In response to the problems of poor sound absorption performance and narrow sound absorption
                 bandwidth of general film-type noise reduction structures, a micro-perforated dielectric elastomer film sound
                 absorption structure is designed in this paper. The structure consists of a perforated dielectric elastomer
                 film and a back cavity, which aims to broaden the absorption bandwidth of the low frequency band of the
                 dielectric elastomer film. For the micro-perforated dielectric elastomer film acoustic absorber, the effects of the
                 initial thickness of the perforated film, the perforation aperture and the perforation spacing on the acoustic
                 performance of the structure are analyzed from the experimental point of view. The results show that by
                 appropriately increasing the initial thickness of the film, the overall absorption performance of the film can be
                 effectively improved, and the maximum absorption coefficient in the absorption band of 319 Hz can be increased
                 from 0.2 to 0.7; reducing the perforation diameter of the film can effectively broaden the absorption band of
                 the perforated film, and reducing the perforation diameter can broaden the absorption band of the absorption
                 coefficient above 0.4 from 304 Hz to 432 Hz; proper control of the perforation spacing can achieve better sound
                 absorption effect.
                 Keywords: Dielectric elastomer; Micro-perforated plate; Sound absorption performance; Experimental analysis


             2021-07-17 收稿; 2021-09-07 定稿
             国家自然科学基金项目 (51965041)
             ∗
             作者简介: 陈杰 (1997– ), 男, 江西南昌人, 硕士研究生, 研究方向: 噪声与振动控制。
             † 通信作者 E-mail: wujinwu@nchu.edu.cn