Journal Articles

1. Ramakrishnan, V. and Frazier, M. J. Acoustic metamaterials with independently tunable mass, damping, and stiffness. [preprint]
2. Frazier, M. J. (2022). Multi-stable metamaterials with tunable mass distribution. J. Appl. Phys., 131 (16), p. 165105. [preprint]
3. Pechac, J. E. and Frazier, M. J. (2022). Metamaterial design strategy for mechanical energy absorption under general loading. Extreme Mech. Lett., p. 101580. [preprint]
4. Khajehtourian, R. and Frazier, M. J. and Kochmann, D. M. (2022). Multistable pendula as mechanical analogs of ferroelectricity. Extreme Mech. Lett., 50, p. 101527. [preprint]
5. Pechac, J. E. and Frazier, M. J. (2021). Non-reciprocal supratransmission in mechanical lattices with non-local feedback control interactions. Crystals, 11 (2). [preprint]
6. Ramakrishnan, V. and Frazier, M. J. (2020). Transition waves in multi-stable metamaterials with space-time modulated potentials. Appl. Phys. Lett., 117 (15), p. 151901. [preprint]
7. Ramakrishnan, V. and Frazier, M. J. (2020). Multistable metamaterial on elastic foundation enables tunable morphology for elastic wave control. J. Appl. Phys., 127 (22), p. 225104. [preprint]
8. Frazier, M. J. and Kochmann, D. M. (2017). Atomimetic mechanical structures with nonlinear topological domain evolution kinetics. Adv. Mater., 29 (19), p. 1605800. [preprint]
9. Frazier, M. J. and Kochmann, D. M. (2017). Band gap transmission in periodic, bistable mechanical systems. J. Sound Vib., 388, pp. 315-326. [preprint]
10. Frazier, M. J. and Hussein, M. I. (2016). Generalized Bloch's theorem for viscous metamaterials: Dispersion and effective properties based on frequencies and wavenumbers that are simultaneously complex. C. R. Phys., 17 (5), pp. 565-577. [preprint]
11. Frazier, M. J. and Hussein, M. I. (2015). Viscous-to-viscoelastic transition in phononic crystal and metamaterial band structures. J. Acoust. Soc. Am., 138 (5), pp. 3169-3180. [preprint]
12. Hussein, M. I. and Frazier, M. J. (2013). Metadamping: An emergent phenomenon in dissipative metamaterials. J. Sound Vib., 332 (20), pp. 4767-4774. [preprint]
13. Hussein, M. I. and Frazier, M. J. (2010). Band structures of phononic crystals with general damping. J. Appl. Phys., 108 (9), p. 093506. [preprint]

Book Chapters

1. Bacquet, C. L. and Al Ba'ba'a, H. and Frazier, M. J. and Nouh, M. and Hussein, M. I., "Chapter 2: Metadamping: dissipation emergence in elastic metamaterials," Eds: Bordas, S. P. A. and Balint, D. S., Advances in Crystals and Elastic Metamaterials, Part 1, Elsevier (2018). [preprint]
2. Hussein, M. I. and Frazier, M. J. and Abedinnasab, M. H., "Chapter 1: Microdynamics of phononic materials," Eds: Li, S. and Gao, X.-L., Handbook of Micromechanics and Nanomechanics, Pan Stanford Publishing, Florida (2013). [preprint]
3. Hussein, M. I. and Frazier, M. J., "Chapter 6: Damped phononic crystals and acoustic metamaterials," Ed: Deymier, P. A., Acoustic Metamaterials and Phononic Crystals, Springer Physics, New York (2013). [preprint]

Conference Proceedings

1. Frazier, M. J. and Hussein, M. I. Damped Free Waves in Periodic Media: Dispersion Curves with Simultaneously Complex Frequencies and Wavenumbers. Proceedings of the 2016 ASME International Mechanical Engineering Conference & Exposition, Paper No.: IMECE2016-68065, Phoenix, Arizona, United States (November 2016).
2. Frazier, M. J. and Kochmann, D. M. Dynamics of Multistable Structures: From Domain Evolution and Switching to Phase Transitions. Proceedings of the 2016 ASME International Mechanical Engineering Conference & Exposition, Paper No.: IMECE2016-68443, Phoenix, Arizona, United States (November 2016).
3. Frazier, M. J. and Kochmann, D. M. Dynamics of Multistable Structures: from Domain Evolution and Switching to Phase Transitions (invited). Society of Engineering Science, Baltimore, Maryland, United States (October 2016).
4. Frazier, M. J. and Kochmann, D. M. Band gap transmission in periodic, bistable mechanical lattices. Society of Engineering Science, Baltimore, Maryland, United States (October 2016).
5. Frazier, M. J. and Hussein, M. I. Dynamic Effective Properties of Damped Periodic Materials. Proceedings of the 2015 International Conference on Phononic Crystals/Metamaterials Phonon Transport and Phonon Coupling, Paper No.: PHONONICS-2015-0497, pp. 1-2, Paris, France (June 2015).
6. Hussein, M. I. and Frazier, M. J. Emergent Dynamics of Dissipative Acoustic Metamaterials. Proceedings of the 2013 Society of Engineering Science/ASME-AMD Joint Conference, Providence, Rhode Island, United States (July 2013).
7. Frazier, M. J. and Hussein, M. I. Metadamping: An Emergent Phenomenon in Dissipative Metamaterials. Proceedings of the 2013 International Conference on Phononic Crystals, Metamaterials and Optomechanics, Paper No.: PHONONICS-2013-0174, pp. 1-2, Sharm El-Sheikh, Egypt (June 2013).
8. Frazier, M. J. and Hussein, M. I. Dissipation-triggered phenomena in periodic acoustic metamaterials. Proceedings of the 2012 Society of Photo-Optical Instrumentation Engineers, Paper No.: 83481W, San Diego, California, United States (April 2012).
9. Frazier, M. J. and Hussein, M. I. Bloch-theory-based Analysis of Damped Phononic Materials. Proceedings of the 2011 ASME International Mechanical Engineering Conference & Exposition, Paper No.: IMECE2010-65662, pp. 1-5, Denver, Colorado, United States (November 2011).
10. Frazier, M. J. and Hussein, M. I. Dissipative Eects in Acoustic Metamaterials. Proceedings of the 2011 International Conference on Phononic Crystals, Metamaterials and Optomechanics, Paper No.: PHONONICS-2011-0172, pp. 1-2, Santa Fe, NM, United States (May 2011).
11. Hussein, M. I. and Frazier, M. J. Dispersion relation for generally damped periodic materials. Proceedings of the 2010 ASME International Mechanical Engineering Conference & Exposition, Paper No.: IMECE2010-40648, pp. 1-6, Vancouver, B.C., Canada (November 2010).