**Publications of Cliff Lissenden**

- C. Hakoda, C.J. Lissenden, 2019, “Comparison of quasi-Rayleigh waves and Rayleigh waves, and clarifying the cut-off frequency of quasi-Rayleigh waves” Ultrasonics 92:50-56.
- M. Hasanian, C.J. Lissenden, 2018, “Second order ultrasonic guided wave mutual interactions in plate: Arbitrary angles, internal resonance, and finite interaction region,” J. Appl. Phys. 124:164904.
- C. Hakoda, C.J. Lissenden, 2018, “Using the partial wave method for wave-structure calculation and the conceptual interpretation of elastodynamic guided waves,” Applied Sciences 8:966.
- S. Choi, H. Cho, C.J. Lissenden, 2018, “Nondestructive inspection of spent nuclear fuel storage canisters using shear horizontal guided waves,” Nuclear Engineering Technology 50:890-898.
- S. Choi, H. Cho, M. Lindsey, C.J. Lissenden, 2018, “Electromagnetic acoustic transducers for robotic nondestructive inspection in harsh environments,” Sensors 18:193.
- B. Ren, C.J. Lissenden, 2018, “Toward optimal guided wave excitation in plates with surface mounted piezoelectric elements: coupled physics and normal mode expansion,” Smart Mat. Struct. 27:045014.
- M. Hasanian, C.J. Lissenden, 2017, “Second order harmonic guided wave mutual interactions in plate: vector analysis, numerical simulation, and experimental results,” J. Appl. Phys. 122:084901.
- M. Liu, K. Wang, C.J. Lissenden, Q. Wang, Q. Zhang, R. Long, Z. Su, S. Yuan, 2017, “Characterizating hypervelocity impact (HVI)-induced pitting damage using active guided waves: from linear to nonlinear,” Materials 10:547.
- B. Ren, H. Cho, C.J. Lissenden, 2017, “A guided wave sensor enabling simultaneous wavenumber-frequency analysis for both Lamb and shear-horizontal waves,” Sensors 17:488.
- C.J. Lissenden, S. Choi, H. Cho, I. Jovanovic, A. Motta, K. Hartig, X. Xiao, S. Le Berre, S. Brennan, K. Reichard, R. Leary, B. McNelly, 2017, “Toward robotic inspection of dry storage casks for spent nuclear fuel,” ASME J. Pressure Vessel Technology 139:031602.
- S. Choi, H. Cho, C.J. Lissenden, 2017, “Selection of shear horizontal wave transducers for robotic nondestructive inspection in harsh environments,” Sensors 17:5.
- B. Ren, C.J. Lissenden, 2016, “Modal content based damage indicators for disbonds in adhesively bonded composite structures,” Structural Health Monitoring Int. J. 15:491-504.
- J. Zhao, V.K. Chillara, B. Ren, H. Cho, J. Qiu, C.J. Lissenden, 2016, “Second harmonic generation in composites: theoretical and numerical analyses,” J. Appl. Phys. 119:064902.
- V.K. Chillara, C.J. Lissenden, 2016, “Constitutive model for third harmonic generation in elastic solids,” Int. J. Nonlinear Mechanics 82:69-74.
- B. Ren, C.J. Lissenden, 2016, “PVDF Multi-Element Lamb Wave Sensor for Structural Health Monitoring” IEEE UFFC 63(1):178-185.
- V.K. Chillara, C.J. Lissenden, 2016, “Review of nonlinear ultrasonic guided wave nondestructive evaluation: theory, numerics and experiments,” Optical Engineering 55(1):011002.
- V.K. Chillara, B. Ren, C.J. Lissenden, 2016, “Guided wave mode selection for inhomogeneous elastic waveguides using frequency domain finite element approach,” Ultrasonics 67:199-211.
- B. Ren, C.J. Lissenden, 2015, “Phased array transducers for ultrasonic guided wave mode control and identification for aircraft structural health monitoring,” Materials Evaluation 73(8):1089-1100.
- V.K. Chillara, C.J. Lissenden, 2015, “On some aspects of material behavior relating microstructure and ultrasonic higher harmonic generation,” Int. J. Engng. Sci. 94:59-70.
- C.J. Lissenden, Y. Liu, J.L. Rose, 2015, “Use of nonlinear ultrasonic guided waves for early damage detection,” Insight 57(4):206-211.
- V.K. Chillara, C.J. Lissenden, 2014, “Nonlinear guided waves in plates: a numerical perspective,” Ultrasonics 54:1553-1558.
- C.J. Lissenden, Y. Liu, G. Choi, X. Yao, 2014, “Effect of localized microstructure evolution on higher harmonic generation of guided waves,” J. NDE 33:178-186.
- Y. Liu, C.J. Lissenden, J.L. Rose, 2014, “Higher order interaction of elastic waves in weakly nonlinear circular cylinders. I. analytical foundation,” J. Appl. Phys. 115:214901.
- Y. Liu, E. Khajeh, C.J. Lissenden, J.L. Rose, 2014, “Higher order interaction of elastic waves in weakly nonlinear circular cylinders. II. physical interpretation and numerical simulation,” J. Appl. Phys. 115:214902.
- M.H. Soorgee, C.J. Lissenden, J.L. Rose, A.Yousefi-Koma, 2014, “Defect sensitivity of piezoelectric strip transducers based on planar Lamb waves,” J. Intell. Mat. Struct. Sys., 25(4):472-483.
- Y. Liu, V.K. Chillara, C.J. Lissenden, J.L. Rose, 2013, “Cubic nonlinear shear horizontal and Rayleigh Lamb waves in weakly nonlinear plates,” J. Appl. Phys. 114:114908.
- H. Kannajosyula, C.J. Lissenden, and J.L. Rose, 2013, “Analysis of annular phased array transducers for ultrasonic guided wave mode control,” Smart Materials and Structures 22, 085019.
- V.K. Chillara, C.J. Lissenden, 2013, “Analysis of second harmonic guided waves in pipes using a large radius asymptotic approximation for axis-symmetric longitudinal modes,” Ultrasonics 53:862-869.
- Y. Liu, E. Khajeh, C.J. Lissenden, J.L. Rose, 2013, “Interaction of torsional and longitudinal guided waves in weakly nonlinear circular cylinders,” J. Acoustic Soc. Am. 133(5):2541-2553.
- B. Ren, C.J. Lissenden, 2013, “Ultrasonic guided wave inspection of adhesive bonds between composite laminates,” Int. J. Adhesives and Adherends 45:59-68.
- Y. Liu, V. Chillara, C.J. Lissenden, 2013, “On selection of primary modes for generation of strong internally resonant second harmonics in plate,” J. Sound and Vibration 332(19):4517-4528.
- P. Puthillath, B. Ren, J.M. Galan, C.J. Lissenden, and J.L. Rose, 2013, “Ultrasonic guided wave propagation across waveguide transitions: energy transfer and mode conversion,” J. Acoustic Soc. Am. 133(5):2624-2633.
- V.K. Chillara, C.J. Lissenden, 2012, “Interaction of guided wave modes in isotropic nonlinear elastic plates: higher harmonic generation,” J. Appl. Phys. 111(12) 124909.
- H. Cho, C.J. Lissenden, 2012, “Structural health monitoring of fatigue crack growth in plate structures with ultrasonic guided waves,” Struct. Health Mon. Int. J. 11:393-404.