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Sound absorption characteristic of micro-helix metamaterial by 3D printing 被引量:1

Sound absorption characteristic of micro-helix metamaterial by 3D printing
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摘要 We present the design of micro-helix metamaterial supporting high sound absorption characteristic by 3D printing. The sample structure which is fabricated out of polylactide (PLA) material, many micro-helix are arranged by periodic arrays on XY plane. Experiment measurement results show that different geometrical dimensions of helix vestibule and cavity depth have a great effect on sound absorption coefficient. Physical mechanism depends on the friction and viscosity between the air and the helix vestibule. This work shows great potential of micro-structure metamaterial in noise control applications require light weight and large rigid of sound absorption. We present the design of micro-helix metamaterial supporting high sound absorption characteristic by 3D printing. The sample structure which is fabricated out of polylactide (PLA) material, many micro-helix are arranged by periodic arrays on XY plane. Experiment measurement results show that different geometrical dimensions of helix vestibule and cavity depth have a great effect on sound absorption coefficient. Physical mechanism depends on the friction and viscosity between the air and the helix vestibule. This work shows great potential of micro-structure metamaterial in noise control applications require light weight and large rigid of sound absorption.
作者 Nansha Gao Hong Hou
机构地区 School of Marine Science and Technology
出处 《Theoretical & Applied Mechanics Letters》 CAS CSCD 2018年第2期63-67,共5页 力学快报(英文版)
基金 supported by the National Natural Science Foundation of China (11704314 and 11474230) the Fundamental Research Funds for the Central Universities (3102016QD056) for financial support
关键词 Low frequency sound absorption Micro-helix metamaterial 3D printing Helix vestibule Cavity depth Low frequency sound absorption Micro-helix metamaterial 3D printing Helix vestibule Cavity depth
分类号 TB303 [一般工业技术—材料科学与工程]
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Theoretical & Applied Mechanics Letters
2018年 第2期

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