Articles

1. Phase transitions in hierarchical, multi-stable metamaterials
   Extreme Mech. Lett. (2023) [preprint]
   Wang, C. and Frazier, M. J.
   
2. Phase patterning in multi-stable metamaterials: transition wave stabilization and conversion
   Appl. Phys. Lett. (2023) [preprint]
   Wang, C. and Frazier, M. J.
   
3. Mechanical multi-level memory from multi-stable metamaterial on elastic foundation
   Appl. Phys. Lett. (2023) [preprint]
   Pechac, J. E. and Frazier, M. J.
   
4. Architected material with independently tunable mass, damping, and stiffness via mult-stability and kinematic amplification
   J. Acoust. Soc. Am. (2023) [preprint]
   Ramakrishnan, V. and Frazier, M. J.
   
5. Multi-stable metamaterials with tunable mass distribution
   J. Appl. Phys. (2022) [preprint]
   Frazier, M. J.
   
6. Metamaterial design strategy for mechanical energy absorption under general loading
   Extreme Mech. Lett. (2022) [preprint]
   Pechac, J. E. and Frazier, M. J.
   
7. Multistable pendula as mechanical analogs of ferroelectricity
   Extreme Mech. Lett. (2022) [preprint]
   Khajehtourian, R. and Frazier, M. J. and Kochmann, D. M.
   
8. Non-reciprocal supratransmission in mechanical lattices with non-local feedback control interactions
   Crystals (2021) [preprint]
   Pechac, J. E. and Frazier, M. J.
   
9. Transition waves in multi-stable metamaterials with space-time modulated potentials
   Appl. Phys. Lett. (2020) [preprint]
   Ramakrishnan, V. and Frazier, M. J.
   
10. Multistable metamaterial on elastic foundation enables tunable morphology for elastic wave control
    J. Appl. Phys. (2020) [preprint]
    Ramakrishnan, V. and Frazier, M. J.
    
11. Atomimetic mechanical structures with nonlinear topological domain evolution kinetics
    Adv. Mater. (2017) [preprint]
    Frazier, M. J. and Kochmann, D. M.
    
12. Band gap transmission in periodic, bistable mechanical systems
    J. Sound Vib. (2017) [preprint]
    Frazier, M. J. and Kochmann, D. M.
    
13. Generalized Bloch's theorem for viscous metamaterials: Dispersion and effective properties based on frequencies and wavenumbers that are simultaneously complex
    C. R. Phys. (2017) [preprint]
    Frazier, M. J. and Hussein, M. I.
    
14. Viscous-to-viscoelastic transition in phononic crystal and metamaterial band structures
    J. Acoust. Soc. Am. (2017) [preprint]
    Frazier, M. J. and Hussein, M. I.
    
15. Metadamping: An emergent phenomenon in dissipative metamaterials
    J. Sound Vib. (2013) [preprint]
    Hussein, M. I. and Frazier, M. J.
    
16. Band structures of phononic crystals with general damping
    J. Appl. Phys. (2010) [preprint]
    Hussein, M. I. and Frazier, M. J.
    

Chapters

1. "Chapter 2: Metadamping: dissipation emergence in elastic metamaterials"
   Advances in Crystals and Elastic Metamaterials, Part One (2018) [preprint]
   Bacquet, C. L. and Al Ba'ba'a, H. and Frazier, M. J. and Nouh, M. and Hussein, M. I.
   
2. "Chapter 1: Microdynamics of phononic materials"
   Handbook of Micromechanics and Nanomechanics (2013) [preprint]
   Hussein, M. I. and Frazier, M. J. and Abedinnasab, M. H.
   
3. "Chapter 6: Damped phononic crystals and acoustic metamaterials"
   Acoustic Metamaterials and Phononic Crystals (2013) [preprint]
   Hussein, M. I. and Frazier, M. J.