Details

Title

Active Transient Sound Radiation Control from a Smart Piezocomposite Hollow Cylinder

Journal title

Archives of Acoustics

Yearbook

2015

Volume

vol. 40

Issue

No 3

Authors

Keywords

active structural acoustic control (ASAC) thick cylindrical shells ; exact elasto-acoustic analysis ; time-domain solution ; intelligent system ; sound field attenuation

Divisions of PAS

Nauki Techniczne

Coverage

359-381

Publisher

Polish Academy of Sciences, Institute of Fundamental Technological Research, Committee on Acoustics

Date

2015[2015.01.01 AD - 2015.12.31 AD]

Type

Artykuły / Articles

Identifier

DOI: 10.1515/aoa-2015-0039

Source

Archives of Acoustics; 2015; vol. 40; No 3; 359-381

References

LeblondC (2010), A versatile approach to the study of the transient response of a submerged thin shell of and, Journal Sound Vibration, 329. ; SarangiS (2011), Active damping of geometrically nonlinear vibrations of laminated composite shallow shells using vertically / obliquely reinforced piezoelectric composites of Mechanics and Materials in Design, International Journal, 7, 1. ; SuY (2012), Transient wave analysis of a cantilever Timoshenko beam subjected to impact loading by Laplace transform and normal mode methods of Solids and Structures, International Journal, 49, 1158. ; JinG (2011), Active control of structurally radiated sound from an elastic cylindrical shell of Marine Science and Application, Journal, 10, 88. ; HasheminejadS (2008), Dynamic Viscoelastic Effects on Free Vibrations of a Submerged Fluid - filled Thin Cylindrical Shell of and, Journal Vibration Control, 14, 849, doi.org/10.1177/1077546307084442 ; NiezreckiC (2001), Feasibility to control launch vehicle internal acoustic using piezoelectric actuators of Intelligent Material Systems and Structures, Journal, 12, 647. ; WangC (1998), Active control of vibrations and noise of double wall cylindrical shells of and, Journal Sound Vibration, 216. ; HasheminejadS (2011), Modelling and simulation of acoustic pulse interaction with a fluid - filled hollow elastic sphere through numerical Laplace inversion Mathematical Modelling, Applied, 35, 22. ; HasheminejadS (2008), Dynamic viscoelastic effects on sound wave scattering by an eccentric compound circular cylinder of and, Journal Sound Vibration, 318. ; HasheminejadS (2008), Scattering and active acoustic control from a submerged piezoelectric - coupled orthotropic hollow cylinder of and, Journal Sound Vibration, 318. ; IakovlevS (2013), Submerged circular cylindrical shell subjected to two consecutive shock waves : Resonance - like phenomena of Fluids and Structures, Journal, 24, 70. ; VovkI (1996), Sound radiation by a cylindrical piezoelastic shell with an asymmetric insertion of the Acoustical of, Journal Society America, 99, 133. ; HasheminejadS (2013), akbarzadehH Three dimensional non - axisymmetric transient acoustic radiation from an eccentric hollow cylinder, Wave Motion, 50, 723, doi.org/10.1016/j.wavemoti.2013.01.005 ; KwakM (2013), Active vibration control of a ring - stiffened cylindrical shell in contact with unbounded external fluid and subjected to harmonic disturbance by piezoelectric sensor and actuator of and, Journal Sound Vibration, 332. ; ZhangY (2006), Finite element modeling of a fluid - filled cylindrical shell with piezoelectric damping of Vibration Engineering, Journal, 19, 24. ; DingH (1997), Free vibrations of piezoelectric cylindrical shells filled with compressible fluid of Solids and Structures, International Journal, 34, 2025. ; HasheminejadS (2012), Vibroacoustic response and active control of a fluid - filled functionally graded piezoelectric material composite cylinder of Intelligent Material Systems and Structures, Journal, 23, 775. ; HasheminejadS (2013), Acoustic radiation and active control from a smart functionally graded submerged hollow cylinder of and Control, Journal Vibration, doi.org/10.1177/1077546313483787 ; IakovlevS (2012), Non - stationary radiation by a cylindrical shell : Numerical modeling using the Reissner - Mindlin theory of Fluids and Structures, Journal, 36, 50. ; KwakM (2012), Active vibration control of a submerged cylindrical shell by piezoelectric sensors and actuators Proceedings of SPIE The International Society for Optical, Engineering, 8341. ; HasheminejadS (2015), akbarzadehH Transient acoustic radiation from an eccentric sphere Mathematical Modelling in press, Applied, doi.org/10.1016/j.apm.2015.04.010 ; ClarkR (1994), Active control of structurally radiated sound from an enclosed finite cylinder of Intelligent Material Systems and Structures, Journal, 5, 379. ; XiangY (2011), A novel matrix method for coupled vibration and damping effect analyses of liquid - filled circular cylindrical shells with partially constrained layer damping under harmonic excitation Mathematical Modeling, Applied, 35, 2209. ; HasheminejadS (2013), Active sound radiation control of a thick piezolaminated smart rectangular plate of and, Journal Sound Vibration, 332. ; KumarS (2013), Active control of geometrically nonlinear vibrations of doubly curved smart sandwich shells using piezoelectric composites, Composite Structures, 105, 1. ; ShenH (2013), Control of sound and vibration of fluid - filled cylindrical shells via periodic design and active control of and, Journal Sound Vibration, 332. ; DingH (2001), Three Dimensional Problems of Piezoelectricity Science Publishers New York, Nova. ; KimH (2013), Reduction of the radiating sound of a submerged finite cylindrical shell structure by active vibration control, Sensors, 13, 2131, doi.org/10.3390/s130202131 ; CaoX (2013), Active control of acoustic radiation from laminated cylindrical shells integrated with a piezoelectric layer Materials and Structures, Smart, 22, 964. ; SongK (2000), Active structural acoustic control of a thick - walled cylindrical shell SPIE Smart Structures and Materials and Control in Smart Structures, Mathematics, 19, 3984, doi.org/10.1117/12.388756 ; SuD (2010), Attenuation of Structurally Radiated Sound from an Elastic Cylindrical Shell by Local Vibration Control Engineering, Key Materials, 450. ; MaillardJ (1999), Active control of sound radiation from cylinders with piezoelectric actuators and structural acoustic sensing of and, Journal Sound Vibration, 222. ; ÜberallH (2001), Acoustics of shells, Acoustical Physics, 47, 115, doi.org/10.1134/1.1355796 ; PanX (2008), Active control of low - frequency hull - radiated noise of and, Journal Sound Vibration, 313. ; LesterH (1993), Piezoelectric actuator models for active sound and vibration control of cylinders of Intelligent Material Systems and Structures, Journal, 4, 295. ; BruchJ (2000), Optimal piezo - actuator locations / lengths and applied voltage for shape control of beams Materials and Structures, Smart, 9, 205. ; CaoY (2012), Active control of low - frequency sound radiation by cylindrical shell with piezoelectric stack force actuators of and, Journal Sound Vibration, 331. ; HasheminejadS (2012), Vibro - acoustic response of an elliptical plate - cavity coupled system to external shock loads, Applied Acoustics, 73, 757, doi.org/10.1016/j.apacoust.2012.02.009 ; ChenW (2004), D Free vibration analysis of a functionally graded piezoelectric hollow cylinder filled with compressible fluid of Solids and Structures, International Journal, 41, 947. ; BalabaevS (1999), Acoustic radiation of a cylindrical piezoceramic transducer with solid internal filling, Acoustical Physics, 45, 398. ; HasheminejadS (2012), akbarzadehH Vibroacoustic response of an eccentric hollow cylinder of and, Journal Sound Vibration, 331, 3791, doi.org/10.1016/j.jsv.2012.04.002 ; ChenW (2004), Three dimensional vibration analysis of fluid filled orthotropic FGM cylindrical shells of Mechanical, International Journal Science, 46, 159. ; CarestaM (2011), Active control of sound radiated by a submarine in bending vibration of and, Journal Sound Vibration, 330. ; HonarvarF (2011), Correlation between helical surface waves and guided modes of an infinite immersed elastic cylinder, Ultrasonics, 51, 238, doi.org/10.1016/j.ultras.2010.08.008 ; BabaevA (2005), Generation of nonstationary waves by a thick - walled piezoceramic cylinder excited by electric signals on Ultrasonics Ferroelectrics and Frequency Control, IEEE Transactions, 52, 518. ; ChopraI (2002), Review of state of art of smart structures and integrated systems, AIAA Journal, 11, 2145, doi.org/10.2514/2.1561 ; LaplanteW (2002), Active control of vibration and noise radiation from fluid - loaded cylinder using active constrained layer damping of and, Journal Vibration Control, 8, 877, doi.org/10.1177/1077546029206 ; FanS (2005), Dynamic fluid - structure interaction analysis using boundary finite element method - finite element method of, Journal Applied Mechanics, 72, 591, doi.org/10.1115/1.1940664 ; RayM (2013), Active damping of laminated cylindrical shells conveying ? uid using piezoelectric composites, Composite Structures, 98, 1. ; BabaevA (2010), Influence of an oscillating circuit on the radiation of transient acoustic waves by an electroelastic cylinder of the Acoustical of, Journal Society America, 127, 2282. ; WangY (1971), Dynamic interaction between an elastic cylindrical shell subjected to point loadings and an acoustic medium of the Acoustical of, The Journal Society America, 49, 293. ; HasheminejadS (2013), Liquid sloshing in partly - filled laterally - excited circular tanks equipped with baffles of Fluids and Structures in press, Journal. ; YuJ (2009), Wave characteristics in functionally graded piezoelectric hollow cylinders of, Archive Applied Mechanics, 79, 807, doi.org/10.1007/s00419-008-0255-0 ; DurbinF (1973), Numerical inversion of Laplace transforms : an effective improvement of Dubner and Abate s method, Computer Journal, 17, 371, doi.org/10.1093/comjnl/17.4.371 ; VelS (2005), Analysis of static deformation vibration and active damping of cylindrical composite shells with piezoelectric shear actuators of Vibration and Acoustics, Journal, 127, 395.
×