这里我按照不同的主题列出一些重要的参考文献。这些文献集中了前人研究的精华，可谓博大精深。加起来不到30篇，却可以说是该领域的重要“内功心法”。按图索骥，以它们为线索可以直达整个研究领域的大部分角落。

功率流三部曲

Goyder, H.G.D. & White, R.G., 1980. Vibrational power flow from machines into built-up structures, part I: Introduction and approximate analyses of beam and plate-like foundations. Journal of Sound and Vibration, 68(1), pp.59–75.

Goyder, H.G.D. & White, R.G., 1980. Vibrational power flow from machines into built-up structures, part II: Wave propagation and power flow in beam-stiffened plates. Journal of Sound and Vibration, 68(1), pp.77–96.

Goyder, H.G.D. & White, R.G., 1980. Vibrational power flow from machines into built-up structures, part III: Power flow through isolation systems. Journal of Sound and Vibration, 68(1), pp.97–117.

说明：综述中关于无界结构在工程中应用很有说服力;给出了无界梁、杆的稳态受迫响应、功率流;介绍了无界加筋板等复杂二维结构的建模。

波动方法的新旧两篇综述(以及Mace教授的评论)

Hussein, M.I., Leamy, M.J. & Ruzzene, M., 2014. Dynamics of Phononic Materials and Structures: Historical Origins, Recent Progress, and Future Outlook. Applied Mechanics Reviews, 66(4), p.040802.

Mace, B., 2014. Discussion: “Dynamics of Phononic Materials and Structures: Historical Origins, Recent Progress and Future Outlook,” (Hussein, M.I., Leamy, M.J. and Ruzzene, M.). Applied Mechanics Reviews, 66(July).

Mead, D.J., 1996. Wave Propagation in Continuous Periodic Structures: Research Contributions from Southampton, 1964–1995. Journal of Sound and Vibration, 190(3),pp.495–524.

Langley关于中高频分析方法综述

Langley, R. & Bardell, N., 1998. A review of current analysis capabilities applicable to the high frequency vibration prediction of aerospace structures. Aeronautical Journal, (102), pp.287–297.

三篇及其精彩的关于快衰波是否携带能量的Letter

Bobrovnitskii, Y.I., 1992. On the energy flow in evanescent waves. Journal of Sound and Vibration, 152(1), pp.175–176.

Kurze, U.J., 1993. Comments On “On The Energy Flow In Evanescent Waves” 1992. Journal of Sound and Vibration, 161(2), pp.355–356.

Bobrovnitskii, Y.I., 1993. Author’s Reply. Journal of Sound and Vibration, 161(2), p.357.

Mead教授经典作品：波和模态的关系

Mead, D.J., 1975. Wave propagation and natural modes in periodic systems: I. Mono-coupled systems. Journal of Sound and Vibration, 40(1), pp.1–18.

Mead, D.J., 1975. Wave propagation and natural modes in periodic systems: II. Multi-coupled systems, with and without damping. Journal of Sound and Vibration, 40(1), pp.19–39.

Mead教授经典作品：用波方法计算自由和强迫响应

Mead, D.J., 1973. A general theory of harmonic wave propagation in linear periodic systems with multiple coupling. Journal of Sound and Vibration, 27(2), pp.235–260.

Mead, D.J., 2009. The forced vibration of one-dimensional multi-coupled periodic structures: An application to finite element analysis. Journal of Sound and Vibration, 319(1-2), pp.282–304.

Langley教授经典作品：用波动方法预测有限结构的模态密度和“平均”响应

Langley, R.S., 1994. On the Modal Density and Energy Flow Characteristics of Periodic Structures. Journal of Sound and Vibration, 172(4), pp.491–511.

波-模态二象性

Langley, R., 1997. Some perspectives on wave-mode duality in SEA. In Proceedings of the IUTAM International Symposium on Statistical Energy Analysis. Kluwer Academic Publishers, pp. 1–12.

Mead, D.J., 1994. Waves and Modes in Finite Beams: Application of the Phase-Closure Principle. Journal of Sound and Vibration, 171(5), pp.695–702.

人工边界条件

赵密, 2004, 粘弹性人工边界及其与透射人工边界的比较研究, 北方工业大学, 硕士学位论文.

赵密, 2009, 近场波动有限元模拟的应力型时域人工边界条件及其应用, 北方工业大学, 博士 学位论文.

说明：读赵密老师的论文是一种享受，早在他的硕士论文中就能感受到那种对科学研究的严谨和热忱。他的博士论文后来获国家优秀百篇博士学位论文!

波有限元方法

Waki, Y., Mace, B.R. & Brennan, M.J., 2009a. Free and forced vibrations of a tyre using a wave/finite element approach. Journal of Sound and Vibration, 323(3-5), pp.737–756.

Waki, Y., Mace, B.R. & Brennan, M.J., 2009b. Numerical issues concerning the wave and finite element method for free and forced vibrations of waveguides. Journal of Sound and Vibration, 327(1-2), pp.92–108.

Duhamel, D., Mace, B.R. & Brennan, M.J., 2006. Finite element analysis of the vibrations of waveguides and periodic structures. Journal of Sound and Vibration, 294(1-2), pp.205–220.

Mead, D.J., 2009. The forced vibration of one-dimensional multi-coupled periodic structures: An application to finite element analysis. Journal of Sound and Vibration, 319(1-2), pp.282–304.

Houillon, L., Ichchou, M.N. & Jezequel, L., 2005. Wave motion in thin-walled structures. Journal of Sound and Vibration, 281(3-5), pp.483–507.

教材和专著

Fahy, F. & Gardonio, P., 2007. Sound and structural vibration: radiation, transmission and response.

Graff, K., 1975. Wave motion in elastic solids.

L.Cremer, 1987. Structure-Borne-Sound.

杜修力, 2009, 工程波动理论与方法, 科学出版社, 北京.

理解波动系列文章至此暂告一个段落，如果原作者后续有新的更新，我们将继续向大家发布！