High-temperature acoustic properties of porous titanium fiber metal materials

Shi-feng Liu , An Li , Zhao-hui Zhang , Dong-feng Li

Journal of Central South University ›› 2017, Vol. 24 ›› Issue (8) : 1762 -1766.

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Journal of Central South University ›› 2017, Vol. 24 ›› Issue (8) : 1762 -1766. DOI: 10.1007/s11771-017-3584-8
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High-temperature acoustic properties of porous titanium fiber metal materials

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Abstract

The high-temperature acoustic absorption performance of porous titanium fiber material was investigated in terms of sample thickness, porosity, temperature, air-cavity thickness and double-layer structure arrangement. The effects on absorption coefficient were systematically assessed. The results show that the sound absorption performance is improved by increasing the sample porosity and/or thickness, and/or increasing the air-cavity thickness. Meanwhile, increasing the temperature gives better acoustic absorption performance in the low frequency range but also lowers the performance in the high frequency range, while double-layer structure enables better acoustic absorption performance.

Keywords

porous titanium fiber material / acoustic absorption / heat transfer / pool boiling

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Shi-feng Liu, An Li, Zhao-hui Zhang, Dong-feng Li. High-temperature acoustic properties of porous titanium fiber metal materials. Journal of Central South University, 2017, 24(8): 1762-1766 DOI:10.1007/s11771-017-3584-8

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References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

LIY-z, LiD-shengNoise control techniques [M], 2008, Beijing, China, Chemical Industry Press
[2]

SunP, GuoZ-cheng. Sintering preparation of porous sound-absorbing materials from steel slag [J]. Transactions of Nonferrous Metals Society of China, 2015, 25(7): 2230-2240

[3]

WangJ-z, XiZ-p, TangH-p, HuangW-d, ZhuJ-l, AoQ-bo. Research status of sound absorption property of porous materials by metal fiber [J]. Rare Metal Materials and Engineering, 2012, 41(2): 405-408
[4]

DuanC-y, CuiG, LiuP-sheng. Present research and prospect of porous absorption materials [J]. Metallic Functional Materials, 2011, 18(1): 60-65
[5]

LiuP S, QingH B, HouH L. Primary investigation on sound absorption performance of highly porous titanium foams [J]. Materials and Design, 2015, 85: 275-281

[6]

SunF-g, ChenH-l, WuJ-h, FengKai. Sound absorbing characteristics of fibrous metal materials at high temperatures [J]. Applied Acoustics, 2010, 71(3): 221-235

[7]

ZhangLing. Research status and prospect on sound absorption materials and structure [J]. Popular Science and Technology, 2012, 14(11): 55-56
[8]

RuJ-m, KongB, LiuY-g, WangX-l, FanT-x, ZhangDi. Microstructure and sound absorption of porous copper prepared by resin curing and foaming method [J]. Materials Letters, 2015, 139: 318-321

[9]

ZhangB, ChenT-ning. Calculation of sound absorption characteristics of porous sintered fiber metal [J]. Applied Acoustics, 2009, 70(2): 337-346

[10]

QinJ-h, ChenQ, YangC-y, HuangYong. Research process on property and application of metal porous materials [J]. Journal of Alloys and Compounds, 2016, 654: 39-44

[11]

LuT-j, HeD-p, ChenC-q, ZhaoC-y, FangD-n, WangX-lin. The multi-functionality of ultra-light porous metals and their applications [J]. Advances in Mechanics, 2006, 36(4): 517-534
[12]

HeD-l, GuoZ-c, LiaoH-q, YueC-s, YuG-wei. Research progress and development trend of porous absorption materials [J]. Materials Review, 2012, 26(19): 303-306
[13]

SunF-g, ChenH-l, WuJ-hui. High-temperature acoustic properties of porous metal materials measuring and research [J]. Journal of Vibration Engineering, 2010, 23(5): 502-507
[14]

ZhouH, WuJ-h, HuZ-ping. Sound absorbing property of porous metal material at high temperature and high sound pressure level [J]. Chinese Journal of Theoretical Applied Mechanics, 2013, 45(2): 229-234
[15]

SunF-g, ChenH-l, WuJ-hui. Coupled acousticstructure research of the fibrous metal materials at high temperatures [J]. Chinese Journal of Applied Mechanics, 2010, 27(2): 326-332
[16]

LiuS-f, XiZ-p, TangH-p, YangX, ZhangZ-hui. Compressive behavior of porous titanium fibers materials [J]. Journal of Iron and Steel Research, International, 2014, 21(8): 793-796

[17]

LiuS-f, XiZ-p, TangH-p, YangX, ZhangZ-hui. Sintering behavior of titanium fiber porous materials [J]. Journal of Iron and Steel Research, International, 2014, 21(9): 849-854

[18]

PanZ-l, ZhaiG-qingNoise control techniques [M], 2006, Beijing, China, Chemical Industry Press
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