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以复杂结构受击振动响应的时域计算为目的, 讨论了结构阻尼的计算方法, 给出一种用于冲击声合成的综合数值方法, 并进行了实验验证. 首先, 考虑到阻尼是影响瞬态振动时变特性的重要因素, 详细讨论了两种模态阻尼的计算方法; 其次, 对阻尼板的受击振动和声辐射进行了时域仿真, 并与时域有限差分法的计算结果进行对比, 显示出两种声音合成方法的计算结果具有高度的一致性; 最后, 针对有限长圆柱壳的受击振动, 将合成声与实验录音进行了对比研究. 结果表明, 合成声与实际录音的时域包络、频谱结构以及衰减趋势基本一致, 证明了采用数值方法进行冲击声合成的有效性.In order to simulate the structural vibration and acoustic field in time domain, we discuss the calculation method of the structural damping and provide an integrated numerical method for impact sound synthesis which is finally well verified experimentally. Firstly, since the damping is considered to be one of the factors influencing the time-varying characteristics of the transient vibration, the detailed information are obtained by both of modal damping calculating methods. Secondly, the vibration and sound radiation of damping impacted plates are simulated in the time domain, showing that they are highly consistent with the results from the finite-difference time-domain method. Finally, the comparison between the impact sound of the finite cylindrical shell and the experimental results is performed, indicating that the two sounds are much the same in the temporal envelope, spectral structure and decay trend. What is more, the results imply that it is quite effective to use the these numerical methods to synthesize impact sounds.
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Keywords:
- sound synthesis /
- modal damping /
- impact sound /
- numerical approach
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[12] He X S, Deng F Y 2010 Acta Phys. Sin. 59 25 (in Chinese) [和兴锁, 邓峰岩 2010 59 25]
[13] Pan X J, He X P 2010 Acta Phys. Sin. 59 7911 (in Chinese) [潘晓娟, 贺西平 2010 59 7911]
[14] Wang C, Zhou Y Q, Shen G W 2013 Chin. Phys. B 22 124601
[15] Li X G, Yang K D, Yang Y 2011 Chin. Phys. B 20 064302
[16] McIntyre M E 1988 Acta Mech. 36 1397
[17] Li L, Wen J H, Cai L 2013 Chin. Phys. B 22 14301
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[19] Cheng G L, Guan C B, Hu S L 2006 Noise and Vibration Control 4 105 (in Chinese) [程广利, 关成彬, 胡生亮 2006 噪声与振动控制 4 105]
[20] Aramaki M, Besson M 2011 IEEE Trans. Audio, Speech, and Language Process. 19 301
[21] Ma H P, He X P 2012 Acta Phys. Sin. 61 194302 (in Chinese) [马焕培, 贺西平 2012 61 194302]
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[1] Rocchesso D, Fontana F 2003 The Sounding Object (1st Ed.) (France: Mondo Estremo Publishing) p1
[2] Yost W A, Popper A N, Fay R R 2008 Auditory Perception of Sound Sources (1st Ed.) (New York: Springer) p13
[3] McAdams S, Chaigne A, Roussarie V 2004 J. Acoust. Soc. Am. 1 15 1306
[4] McAdams S, Roussarie V, Chaigne A, Giordano B L 2010 J. Acoust. Soc. Am. 128 14101
[5] Strasberg M 1948 J. Acoust. Soc. Am. 20 683
[6] Takahashi D 1992 J. Acoust. Soc. Am. 91 2708
[7] Chaigne A, Askenfelt A 1994 J. Acoust. Soc. Am. 95 1112
[8] Chaigne A, Doutaut V 1997 J. Acoust. Soc. Am. 101 540
[9] Chaigne A, Lambourg C 2001 J. Acoust. Soc. Am. 109 1422
[10] Lambourg C, Chaigne A, Matignon D 2001 J. Acoust. Soc. Am. 109 1443
[11] Zhang B R, Chen K A 2014 Acta Acustica 39 75 (in Chinese) [张冰瑞, 陈克安 2014 声学学报 39 75]
[12] He X S, Deng F Y 2010 Acta Phys. Sin. 59 25 (in Chinese) [和兴锁, 邓峰岩 2010 59 25]
[13] Pan X J, He X P 2010 Acta Phys. Sin. 59 7911 (in Chinese) [潘晓娟, 贺西平 2010 59 7911]
[14] Wang C, Zhou Y Q, Shen G W 2013 Chin. Phys. B 22 124601
[15] Li X G, Yang K D, Yang Y 2011 Chin. Phys. B 20 064302
[16] McIntyre M E 1988 Acta Mech. 36 1397
[17] Li L, Wen J H, Cai L 2013 Chin. Phys. B 22 14301
[18] Lei B, Yang K D, Ma Y L 2010 Chin. Phys. B 19 054301
[19] Cheng G L, Guan C B, Hu S L 2006 Noise and Vibration Control 4 105 (in Chinese) [程广利, 关成彬, 胡生亮 2006 噪声与振动控制 4 105]
[20] Aramaki M, Besson M 2011 IEEE Trans. Audio, Speech, and Language Process. 19 301
[21] Ma H P, He X P 2012 Acta Phys. Sin. 61 194302 (in Chinese) [马焕培, 贺西平 2012 61 194302]
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