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Publications

Book

F. Pai and G. L. Huang Theory and Design of Metamaterials, SPIE Press, November, 2015, ISBN: 9781628418354.

Book Chapters

Huang G. L., Sun C.T. and Song F. “Wave Propagation in Elastic Media with Micro/Nano-Structures” Wave propagation in materials in modern applications, 202-226, In-Tech press, 2010, ISBN: 978-953-7619-65-7.

Zhou XM, Liu XN, Hu GK and Huang GL, "Micromechanics of Elastic Metamaterials" Handbook of Micromechanics and Nanomechanics, 29-72, Pan Stanford Publishing, 2013, ISBN 978-981-4411-23-3.

2017

Q.J. Du, Y. Zeng, G.L. Huang, and H.W. Yang (2017) “Elastic metamaterial-based seismic shield for both Lamb and surface waves.”, AIP ADVANCES, 7: 075015.

H. Nassar, H. Chen, A.N. Norris, G.L. Huang (2017) “Non-reciprocal flexural wave propagation in a modulated metabeam.”, Extreme Mechanics Letters, 15: 97-102.

H. Nassar, H. Chen, A.N. Norris, M.R. Haberman, G.L. Huang (2017) “Non-reciprocal wave propagation in modulated elastic metamaterials.”, Proc. R. Soc. A, 473: 20170188.

L.X. Xie, B.Z. Xia, G.L. Huang, J.R. Lei, J Liu. (2017) “Topology optimization of phononic crystals with uncertainties.”, Structural and Multidisciplinary Optimization, DOI: 10.1007/s00158-017-1723-3.

Y.Y. Chen, G.K. Hu, G.L. Huang. (2017) “A hybrid elastic metamaterial with negative mass density and tunable bending stiffness”, Journal of the Mechanics and Physics of Solids, 105: 179–198.

H. Nassar, X.C. Xu, A.N. Norris, G.L. Huang. (2017) “Modulated phononic crystals: Non-reciprocal wave propagation and Willis materials”, Journal of the Mechanics and Physics of Solids, 101: 10-29.

L.X. Xie, B.Z. Xia, J. Liu, G.L. Huang, J.R. Lei. (2017) “An improved fast plane wave expansion method for topology optimization of phononic crystals”, International Journal of Mechanical Sciences, 120: 171-181.

H. Chen, X.P. Li, Y.Y. Chen, and G.L. Huang. (2017) “Wave propagation and absorption of sandwich beams containinginterior dissipative multi-resonators”, Ultrasonics, 76: 99-108.

2016

Y. Y. Chen, G. K. Hu and G. L. Huang (2016) “An adaptive metamaterial beam with hybrid shunting circuits for extremely broadband control of flexural waves”, Smart Materials and Structures, 25: 105036.

Y. Y. Chen, R. Zhu, M. V. Barnhart and G. L. Huang (2016) “Enhanced flexural wave sensing by adaptive gradient-index metamaterials”, Scientific Reports, 6: 35048.

R. Zhu, Y.Y. Chen, Y.S. Wang, G.K. Hu, and G.L. Huang (2016) “A single-phase elastic hyperbolic metamaterial with anisotropic mass density”, The Journal of the Acoustical Society of America , 139: 3003.

J. Li, X.M. Zhou, G.L. Huang and G.K. Hu ( 2016) “Acoustic Metamaterials capable of both sound insulation and energy harvesting”, Smart Materials and Structures ,25: 045013.

R. Zhu, Y. Chen, M.V. Barnhart, G.K. Hu, C.T. Sun and G.L. Huang ( 2016) “Experimental Study of an Adaptive Elastic Metamaterial Controlled by Electric Circuits”, Applied Physics Letters ,108: 011905.

Y. Chen, M.V. Barnhart, J.K. Chen, G.K. Hu, C.T Sun and G.L. Huang ( 2016) “Dissipative elastic metamaterials for broadband wave mitigation at subwavelength scale”, Composite Structures ,136: 358-371.

2015

J. Zhou, Y. Cheng, H. Zhang, G.L. Huang, G.K. Hu ( 2015) “Experimental study on interaction between a positive mass and a negative effective mass through a mass-spring system”, Theoretical and Applied Mechanics Letters ,5: 196.

Q. Liu, E. Sandgren, M. Barnhart, R. Zhu and G. L. Huang (2015) “Photonic Nanostructures Design and Optimization for Solar Cell Application”, Photonics,2: 893-905.

Y. Chen, J. Hu and G. L. Huang (2015) “A design of active elastic metamaterials for control of flexural waves using the transformation method”, Journal of Intelligent Material Systems and Structures, in press.

R. Zhu, X. N. Liu and G. L. Huang (2015) “Study of anomalous wave propagation and reflection in semi-infinite elastic metamaterials”, Wave Motion, 55: 73-83.

Y. Chen and G. L. Huang (2015) “Active elastic metamaterials for subwavelength wave propagation control”, Acta Mechanica Sinica, 31: 349.

R. Zhu, X. N. Liu, G.K. Hu, F.G. Yuan and G. L. Huang (2015) “Microstructural designs of plate-type metamaterial and their potential appliations: a review”, International Journal of Smart and Nano Materials, 10: 1025249.

2014

Y. Chen, G. L. Huang and C. T. Sun (2014) “Band gap control in an active elastic metamaterial with negative capacitance piezoelectric shunting”, ASME Journal of Vibration and Acoustics, 136: 061008.

Y.Chen , G. L. Huang, X. M. Zhou , G. K. Hu and C. T. Sun (2014) “The coupled vibroacoustic model of acoustic metamaterials: membrance model”, Journal of the Acoustical Society of American, 136: 969.

Y.Chen , G. L. Huang, X. M. Zhou , G. K. Hu and C. T. Sun (2014) “The coupled vibroacoustic model of acoustic metamaterials: plate model”, Journal of the Acoustical Society of American, 136: 2926.

P. Li , S. Yao, X. M. Zhou, G. L. Huang, and G. K. Hu (2014) “Effective medium theory of thin-plate acoustic metamaterials”, Journal of the Acoustical Society of American, 135: 1844-1852.

R. Zhu, X. N. Liu, G. K. Hu, C. T. Sun and G. L. Huang (2014)“Negative refraction of elastic waves at the deep-subwavelength scale in a single-phase metamaterial”, Nature Communications, 5:5510.

R. Zhu, X. N. Liu, G. K. Hu, C. T. Sun and G. L. Huang (2014)“A chiral elastic metamaterial beam for broadband vibration suppression”, Journal of Sound and Vibration, 333:2759 – 2773.

2013

X. Yan, R. Zhu, G. L. Huang and F. G. Yuan (2013)“Focusing guided waves using surface bonded elastic metamaterials”, Applied Physics Letters, 103: 121901.

R. Zhu, G.L. Huang and F. G. Yuan (2013) “Fast damage imaging using the time-reversal technique in the frequency–wavenumber domain”, Smart Materials and Structures, 22:075028.

F. Song, G.L. Huang and G. K. Hu (2013) “Coupled piezo-elastodynamic modeling of guided wave excitation and propagation in plates with applied prestresses”, Journal of Intelligent Material Systems and Structures, 24:598-611.

2012

R. Zhu, X. N. Liu, G.L. Huang, H. H. Huang and C. T. Sun (2012) “Microstructural design and experimental validation of elastic metamaterial plates with anisotropic mass density”, Physical Review B, 86:144307.

A. P. Liu, X. M Zhou, G. L. Huang and G. K. Hu (2012) “Super-resolution imaging by resonant tunneling in anisotropic acoustic metamaterials”, Journal of the Acoustical Society of America, 132: 2800-2806.

X. N. Liu, G. L. Huang and G. K. Hu (2012) “Chiral effect in plane isotropic micropolar elasticity and its application to chiral lattices”, Journal of the Mechanics and Physics of Solids, 60: 1907-1921.

R. Zhu, G.L. Huang and G. K. Hu (2012) “Effective Dynamic Properties and Multi-Resonant Design of Acoustic Metamaterials”, ASME Journal of Vibration and Acoustics, 134:031006.[Top 10 Most Downloaded Articles -- May 2012]

F. Song, G.L. Huang and G. K. Hu (2012) “On-Line Guided Wave-Based Debonding Detection in Honeycomb Sandwich Structures”, AIAA, 50:284.

A. P. Liu, R. Zhu, X. N. Liu, G. K. Hu and G. L. Huang (2012) “Multi-displacement microstructure continuum modeling of anisotropic elastic metamaterials”, Wave Motion, 49:411-426.[Most Downloaded Wave Motion Articles]

2011

X. N. Liu, G. K. Hu, G. L. Huang and C. T. Sun (2011) “An elastic metamaterial with simultaneously negative mass density and bulk modulus”, Applied Physics Letters, 98: 251907.

R. Zhu, G. L. Huang, Hargsoon Yoon, Courtney S. Smith and Vijay K. Varadan (2011) “Biomechanical strain analysis at the interface of brain and nanowire electrodes on a neural probe”, ASME Journal of Nanotechnology in Engineering and Medicine, 2:031001.

R. Zhu, G. L. Huang, H. H. Huang and C. T. Sun (2011) “Experimental and Numerical Study of Guided Wave Propagation in a Thin Metamaterial Plate”, Physics Letters A, 375:2863-2867.

R. Zhu, H. H. Huang, G. L. Huang and C. T. Sun (2011) “Microstructure Continuum Modeling of an Elastic Metamaterial”, International Journal of Engineering Science, 49:1477-1485.

Liu X. N., Hu G. K., Sun C. T. and Huang G. L. (2011) “Wave propagation characterization and design of two-dimensional elastic chiral metacomposite”, Journal of Vibration and Sound, 330: 2536-2553.

F. Song, G.L. Huang, H.S. Park and X.N. Liu, “A Continuum Model for the Mechanical Behavior of Nanowires Including Surface and Surface-Induced Initial Stresses”, International Journal of Solids and Structures, 48:2154-2163.

2010

Huang, G.L. and Sun, C.T., (2010) “Band gaps in a multiresonator acoustic metamaterial”, ASME Journal of Vibration and Acoustics, 132: 031003.

Huang G. L., Song F., and Wang X.D. (2010) “Quantitative modeling of couple piezo-elastodynamic behavior of piezoelectric actuators bonded to an elastic medium for structural health monitoring: A review.”, Sensors, 10: 3681-3702.

2009

Song F., Huang G. L. and Varadan V.K. (2009) “Study of wave propagation in nanowires with surface effects by using a high-order continuum theory.”, Acta Mechanica, 209: 129-139.

Huang H. H., Sun C. T. and Huang G. L., (2009) “On the negative effective mass density in acoustic metamaterials.”, International Journal of Engineering Science, 47 (4): 610-617.

Huang G. L. and Sun C.T., (2009) “Multiscale continuum modeling of a crack in elastic media with microstructures.”, International Journal of Fracture, 160, 109-118.

Song F. and Huang G. L. (2009) “Modeling of Surface Stress Effects on Bending Behavior of Nanowires: Incremental Deformation Theory.”, Physics Letter A, 373: 3969-3973.

Song F., Huang G. L., and Hudson K. (2009) “Guided wave propagation in honeycomb sandwich composites using a piezoelectric actuator/sensor system.”, Journal of Smart Materials and Structures, 18: 125007.

Before 2009

Song F., Huang G. L., Kim J. H. and Haran S. (2008)“On the study of surface wave propagation in concrete structures using a piezoelectric actuator/sensor system.”, Journal of Smart Materials and Structures, 17: 055024.

Huang G. L. and Song F. (2008)“High-frequency antiplane wave propagation in ultra-thin films with nanostructures.”, International Journal of Solids and Structures, 45: 5368-5380.

Huang G. L. and Sun C. T. (2008)“A Higher-Order Continuum Model for Elastic Media with Multiphased Microstructure.”, Mechanics of Advanced Materials and Structures, 15: 550-557.

Zhang H.X., Huang G.L. and Yang J. (2008)“Thermal design and analysis of a hard X-ray modulation telescope.”,AIAA Journal of Thermophysics and Heat Transfer, 22: 528-530.

Wang X. D. and Huang G. L. (2008)"On the dynamic behavior of piezoelectric sensors and actuators embedded in elastic media.”,Acta Mechanica, 197: 1-17.

Huang G. L. and Sun C. T. (2007)"Continuum modelling of solids with micro/nanostructures.”,Phil. Mag, 87: 3689-3707.

Sun C. T. and Huang G. L. (2007)"Modeling heterogeneous media with microstructures of different scales.”,ASME Transactions Journal of Applied Mechanics, 74(2): 203-209.

Huang H.Z., Huang G.L., Miao Q., Ling D. and Ma Q. (2007)"A New model of stochastic crack growth under random loading and reliability analysis of fatigue life.”,Key Engineering Materials, 353-358: 81-84.

Huang G. L. and Sun C. T. (2006)"Modeling heterostructures of nano-phononic crystals by continuum model with microstructures.”,Applied Physics Letters, 88: 261908.

Huang G. L. and Sun C. T. (2006)"A continuum model with microstructures for wave propagation in ultra-thin films.”,International Journal of Solids and Structures, 43: 7014-7027.

Wang X. D. and Huang G. L. (2006)"The coupled dynamic behavior of piezoelectric sensors bonded to elastic media.”,Journal of Intelligent Material Systems and Structures, 17: 883-894.

Wang X. D. and Huang G. L. (2006)"Wave propagation generated by piezoelectric actuators attached to elastic substrates.”,Acta Mechanica, 183: 155-176.

Huang G. L. and Wang X. D. (2006)"On the dynamic behavior of interfacial cracks between a piezoelectric layer and an elastic substrate.”,International Journal of Fracture. 141: 63-73.

Huang G. L. and Sun C. T. (2006)"The dynamic behavior of a piezoelectric actuator bonded to an anisotropic elastic medium.”,International Journal of Solids and Structures, 43(5): 1291-1370.

Wang X. D. and Huang G. L. (2005)"Evaluation of damages in elastic media using surface signals from piezoelectric sensors.”,International Journal of Mechanics and Materials in Design, 1(4): 383-398.

Wang X. D. and Huang G. L. (2004)"Identification of embedded cracks using reverse elastic waves.”,Inverse Problems. 20: 1393-1409.

Wang X. D. and Huang G. L. (2004)"Study of elastic wave propagation induced by piezo¬electric actuators for crack identification.”,International Journal of Fracture, 126(3): 287-306.

Wang X. D. and Huang G. L. (2003)"On the elastic wave propagation induced by a network of piezoelectric actuators.”,Acta Mechanica, 160(1-2): 1-18.

Wang X. D. and Huang G. L. (2002)"Wave propagation induced by multiple piezoelectric actuators in electromechanical structures.”,ASME Journal of Pressure Vessel Technology, 124: 311-318.

Wang X. D. and Huang G. L. (2001)"Wave propagation in electromechanical structures: induced by surface-bonded piezoelectric actuators.”,Journal of Intelligent Material Systems and Structures, 12: 105-115.

Wang X. D. and Huang G. L. (2001)"Wave propagation in electromechanical structures: in¬duced by embedded piezoelectric actuators.”,Journal of Intelligent Material Systems and Struc¬tures, 12: 117-125.

Wang X. D. and Huang G. L. (2001)"Modelling and analysis of piezoelectric actuators in anisotropic structures.”,Acta Mechanica, 15: 45-63.

Wang X. D. and Huang G. L. (2001)"The electromechanical behavior of a piezoelectric ac¬tuator bonded to an anisotropic elastic medium.”,International Journal of Solids and Structures, 38: 4721-4740.

Hu G. K. and Huang G. L. (2000)"Influence of thermal residual stress on the composite plastic behavior.”,Acta Compositea Sinic, 17: 60-65.

Hu G. K. and Huang G. L. (2000)"The influence of thermal residual stress on mechanical properties for composites with 2-or 3-dimensionally random oriented inclusions.”,Acta Mechanica, 141: 193-200.

Huang G. L., Hu G. K. and Bai J. B. (1998)"Influence of free surface on thermal residual stress for a fiber composite.”,Acta Compositea Sinic, 15: 108-112.

Conference Papers

Mohan S, Al-Rizzo H, Babiceanu R, Elwi T, Ghimire R, Huang G L Khalil H, Rucker D, Singh C, Varadan V, Yoshigoe K, Zhu R, “A systems engineering approach to wireless integration, design, modeling, and analysis of nanosensors, networks, and systems (Proceedings Paper)”, Nanosensors, Biosensors, and Info-Tech Sensors and Systems 2010. Edited by Varadan, Vijay K. Proceedings of the SPIE, Volume 7646, pp. 76460A-76460A-15 (2010).

Huang G. L., Song F, “On the Study of the Mechanical Behavior of Nanowires Including Surface and Surface-Induced Initial Stresses”, 16th US National Congress of Theoretical and Applied Mechanics, State College, PA, June 27-July 2, 2010. (invited paper)

Huang G. L., Song F, “A Continuum Model for the Mechanical Behavior of Nanowires Including Surface and Surface-Induced Initial Stresses”, International Conference on Mechanical Properties of Materials, Hangzhou, China, May 24-May 28, 2010.(invited paper)

Huang G L, Song F, Reddy R, “Quantitative Modeling of Dynamic Behavior of a Piezoelectric Wafer Actuator bonded to an Elastic Plate for Guided Wave Propagation ”, Proceedings of SPIE Smart Structures/NDE, 2010.

Song F, Huang G L, Kim J and Haran S, “Multiple Debondings Detection in Honeycomb Sandwich Structures Using Multi-Frequency Elastic Guided Waves”, Proceedings of SPIE Smart Structures/NDE, 2010.

Huang G. L., Song F, Hudson K, “Damage Detection in Hexagonal Honeycomb Sandwich Composite Using Guided Wave Propagation”, 2nd International Conference on Smart materials and Nanotechnology in Engineering, Weihai, China, Jul. 8-Jul. 11, 2009.(invited paper)

Huang G L, Song F, Kim J, “Elastic Wave Propagation in Hexagonal Honeycomb Sandwich Composite by Using Piezoelectric Actuators/Sensors”, Proceedings of SPIE Smart Structures/NDE, 7295-109, 2009.

Al-Rizzo H, Babiceanu R, Elwi T, Ghimire R, Huang G L, Mohan S, Rucker D, Seker R, Song F, Varadan V, Vimalathithan S, Yoshigoe K, “Wireless integration, design, modeling, and analysis of nanosensors, networks, and systems: a systems engineering approach,” Nano-, Bio-, and Info-Tech Sensors and Systems”, Proceedings of SPIE Smart Structures/NDE, 7291, 2009.

Huang, G. L. and Song F. (2008) Multiscale continuum ehavior of wave propagation in the nanowires, The fourth international conference on multiscale materials ehavior, Tallhassee, FL, Oct 27-31, 2008.

Huang, G. L. and Sun C. T. (2008) Wave propagation in elastic media with nanostructures, The 2nd international conference on heterogeneous materials mechanics, Huangshen, China, June 3-8, 2008.

Song F., Huang G. L., Kim J., and Haran S. (2008) Surface wave propagation in concrete structures by using piezoelectric actuators/sensors, SPIE Smart Structures and Materials & Nondestructive Evaluation and Health Monitoring, March 9-13, 2008, San Diego.

Huang G. L. (2007) Continuum modeling of mode I crack in media with nanostructures. 2007 International Mechanical Engineering Congress and Exposition, November 11-15, 2007, Seattle, Washtington.

Sun C. T. and Huang G. L. (2007) Continuum modeling of mode I crack in media with microstructures. 2007 ASME Applied Mechanics and Materials Conference (McMat 2007), June 5-9 2007, Austin, Texas.

Huang G. L. and Wang X. D. (2007) The coupled dynamic ehavior of piezoelectric sensors bonded to elastic media. World Forum on Smart Materials and Smart Structure Technology, June 22-25 2007, Chongqing, China.

Huang G. L. and Sun C. T. (2006) Continuum modeling with mi¬crostructures for wave propagation in ultra thin films. 15th U.S. National Congress on Theoretical and Applied Mechanics, June 25-30 2006, Boulder, Colorado.

Huang G. L. and Sun C. T. (2005) Continuum modeling of heterogeneous media with mi¬crostructures and nanostructures. ASME/ASCE/SES Conference on Mechanics and Materials, June 1-3 2005.

C. T. Sun and G. L. Huang, (2005) A Method for Modeling Heterogeneous Media with Microstructures of Different Scales. Computational Methods for Coupled Problems in Science and Engineering, May 25-27, Santorini, Greece.

Wang X. D. and Huang G. L. (2003) Identification of embedded cracks using reverse elastic waves. 19th Canadian Congress of Applied Mechanics, CANCAM 2003.

Wang X. D. and Huang G. L. (2002) Ultrasonic imaging of structural damages using inte¬grated sensor signals. Symposium on Electro-Magneto-Mechanics. 14th US National Congress of Theoretical and Applied Mechanics (USNCTAM14), Blacksburg, VA, June 23-28.

Wang X. D. and Huang G. L. (2001) Wave propagation induced by multiple piezoelectric ac¬tuators in electromechanical structures. The 7th NDE Topical Conference, ASME, San Antonio, Texas, April 23-25.

Wang X. D. and Huang G. L. (2001) Elastic wave propagation induced by piezoelectric actuators for health monitoring of structures. The Thirteenth International Conference on Composite Materials, Beijing, China, June 25-29.

Wang X. D. (Keynote lecture) and Huang G. L. (2000) Electromechanical ehavior of anisotropic elastic media with surface bonded piezoelectric actuators. The Third International Conference on Mechanics and Materials in Design, May 29-31, Orlando, Florida.

Hu G. K. and Huang G. L. (1998) Influence of thermal residual stress on yielding and deformation of composite. International Symposium on Strength theories: Applications and Developments, 319-324, October.

Huang G. L., Hu G. K. and Bai J. B. (2000) Influence of free surface on thermal residual stress for a fiber composite. 6th International Conference on Residual Stress, Oxford, ICRS6, Volume 1, 438-443, Chameleon Press LtD, July.

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