基于超微孔吸声体的钢结构教室声环境优化研究  

Research on Optimisation of the Acoustic Environment of Steel Classrooms Based on Ultra-microporous Acoustic Absorbers

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作  者:陈韬 常明媛 纪月 余佳亮 米琼 韦可军 王超 CHEN Tao;CHANG Mingyuan;JI Yue;YU Jialiang;MI Qiong;WEI Kejun;WANG Chao(China Construction Science and Industry Corporation Ltd.,Shanghai,201114,China;Jiangsu Pivot New Decorative New Materials Co.,Ltd.,Wuxi 214421,China)

机构地区:[1]中建科工集团有限公司,上海201114 [2]江苏标榜装饰新材料股份有限公司,江苏无锡214421

出  处:《绿色建筑》2024年第1期58-63,82,共7页Green Building

摘  要:依托H型钢梁侧面空腔构造,提出了融合装饰与声学设计的超微孔吸声体,将超微孔吸声体置于钢结构教室内部,通过声学仿真和现场实验测量改善前后的声环境状况,探究了超微孔吸声结构的吸声性能。结果表明,空腔深度150mm、内填50mm吸音棉的超微孔吸声结构吸声性能较好,综合式布置方案能在实现钢梁装饰效果的同时,显著改善钢结构教室的混响时间及语言清晰度,提高声环境品质。本研究可为相关工程提供参考。Relying on the cavity structure on the side of the H-beam,a super-microporous acoustic absorber integrating decorative and acoustic design is proposed.The super-microporous acoustic absorber is placed in the interior of the steel classroom,and the acoustic performance of the super-microporous acoustic absorber is investigated through the acoustic simulation and field experiments by measuring the acoustic environment conditions before and after the improvement.The results show that the super-microporous acoustic structure with a cavity depth of 150 mm and filled with 50 mm sound-absorbing cotton has better sound absorption performance,and the integrated arrangement scheme can significantly improve the reverberation time and speech intelligibility of the steel-structured classroom and improve the quality of the acoustic environment while achieving the decorative effect of the steel beams.

关 键 词:教室声环境 钢结构 超微孔吸声体 混响时间 语言清晰度 

分 类 号:TU112.4[建筑科学—建筑理论]

 

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