为了探讨整体中空复合材料结构与隔声性能之间的关系,设计并制备了不同高度、不同面板厚度以及不同芯材的玻璃纤维整体中空织物/环氧树脂复合材料。采用混响室-消声室法对其隔声性能进行了测试分析。研究表明:整体中空复合材料的结构对其隔声性能有明显的影响。复合材料的隔声性能随着结构高度的增加逐渐提高,面板厚度对材料的隔声效果影响较大,芯材排列形式对其隔声性能影响相对较小;8形整体中空复合材料的隔声性能略高于88形和X形。
In order to study the relationship between the composite structure and sound insulation property of integrated hollow core sandwich composites,the glass fabric/epoxy resin composites with different heights,panel thicknesses and core structures were fabricated.The experiments for sound insulation property were carried out in a reverberation-anechoic chambers measuring system.The results show that the structure of glass fabric has an obvious influence on the sound insulation property of integrated hollow core sandwich composites.The sound properties of the composites increase gradually with the increase in height.The panel thickness has a greater impact on the sound insulation properties of the composites,and the effect of core structure is relatively weak.The sound insulation property of the composites with 8 shaped core structure is slightly higher than that of the composites with 88 shaped and X shaped core structure.
参考文献
| [1] | Thiruchelvam M, Kumar S, Visvanathan C. Policy options to promote energy efficient and environmentally sound technologies in small and medium-scale industries[J]. Energy Policy, 2003, 31(10): 977-987. |
| [2] | 刘韬韬,刘月兰.噪声危害分析[J].兵团教育学院学报,2005,15(6):32-34. |
| [3] | 德研制耐气候隔音材料[N/OL].中国纺织报,2003-10-16.http://www.texindex.com.cn/Article/2003-10-16/19132.html. |
| [4] | Narang P P. Material parameter selection in polyester fiber insulation for sound transmission and absorption [J]. Applied Acoustics, 1995, 45(4): 33-358. |
| [5] | 木子.ORV生产新式纤维型隔音材料[N].中国纺织报,2003-09-23(4). |
| [6] | 高磊,姚跃飞,罗勇波,等.WTRP/GF/PVC复合材料隔声性能研究[J].浙江理工大学学报,2008,25(5):506-510. |
| [7] | 傅雅琴,倪庆清,姚跃飞.等.玻璃纤维织物/聚氯乙烯复合材料隔声性能[J].复合材料学报,2005,22(5):94-99. |
| [8] | 蒋兴华,李锋华.聚合物基泡体复合材料的隔声原理与加工性能[J].合成材料老化与应用,2002,31(3):32-35. |
| [9] | 匡宁,周光明,张立泉,等.整体中空夹层复合材料的开发与应用[J].玻璃纤维,2007(5):15-21. |
| [10] | Corigliano A, Rizzi E. Experimental characterization and numerical simulations of a synactic - foam/glass - fibre composites sandwich[ J ]. Composites Science and Technology, 2000, 60(11): 2169-2180. |
| [11] | Van Vuure A W, Ivens J A, Verpoest I. Mechanical properties of composite panels based on woven sandwich fabric performs [J]. Composites Part A, 2000, 31(7): 671-680. |
| [12] | Hosur M V, Abdullah M, Jeelani S. Manufacturing and low-velocity impact characterization of foam filled 3 - D integrated core sandwich composites with hybrid face sheets [J]. Composite Structures, 2005, 69(2): 167-181. |
| [13] | 曹海建,钱坤,魏取福,等.三维整体中空复合材料低速冲击性能[J].纺织学报,2009,30(10):70-74. |
| [14] | 傅雅琴,朱春燕,俞来明,等.增强材料的排列形式对复合材料隔声性能影响的实验研究[J].复合材料学报,2008,25(2):68-72. |
| [15] | 潘仲麟,金进生,黄有兴.隔声室的低频特性及实例验证[J].浙江大学学报:理学版,1993,20(1):34-38. |
| [16] | 张树燕.轻质墙体隔声性能研究[D].西安:西安建筑科技大学,2009. |
| [17] | Tadeu A, Antonio J, Mateus D. Sound insulation provided by single and double panel walls: A comparison of analytical solutions versus experimental results [J]. Applied Acoustics, 2004, 65(1): 15-29. |
| [18] | Antnio J, Godinho L, Tadeu A. Acoustic insulation provided by circular and infinite plane walls [J]. Journal of Sound and Vibration, 2004, 273(3): 681-691. |
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