Browse > Article
http://dx.doi.org/10.12989/sss.2017.19.6.633

Modeling techniques for active shape and vibration control of macro-fiber composite laminated structures  

Zhang, Shun-Qi (School of Mechatronic Engineering and Automation, Shanghai University)
Chen, Min (Department of Industrial Design, Xi'an Jiaotong - Liverpool University)
Zhao, Guo-Zhong (State Key Laboratory of Structural Analysis for Industrial Equipment, Dalian University of Technology)
Wang, Zhan-Xi (School of Mechanical Engineering, Northwestern Polytechnical University)
Schmidt, Rudiger (Institute of Structural Mechanics and Lightweight Design, RWTH Aachen University)
Qin, Xian-Sheng (School of Mechanical Engineering, Northwestern Polytechnical University)
Publication Information
Smart Structures and Systems / v.19, no.6, 2017 , pp. 633-641 More about this Journal
Abstract
The complexity of macro-fiber composite (MFC) materials increasing the difficulty in simulation and analysis of MFC integrated structures. To give an accurate prediction of MFC bonded smart structures for the simulation of shape and vibration control, the paper develops a linear electro-mechanically coupled static and dynamic finite element (FE) models based on the first-order shear deformation (FOSD) hypothesis. Two different types of MFCs are modeled and analyzed, namely MFC-d31 and MFC-d33, in which the former one is dominated by the $d_{31}$ effect, while the latter one by the $d_{33}$ effect. The present model is first applied to an MFC-d33 bonded composite plate, and then is used to analyze both active shape and vibration control for MFC-d31/-d33 bonded plate with various piezoelectric fiber orientations.
Keywords
macro-fiber composite; smart structures; dynamic analysis; piezoelectric; laminated structures;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Zhang. S.Q. and Schmidt. R. (2014a), "Large rotation theory for static analysis of composite and piezoelectric laminated thinwalled structures", Thin Wall. Struct., 78, 16-25.   DOI
2 Zhang, S.Q. and Schmidt, R. (2014b), "Static and dynamic FE analysis of piezoelectric integrated thin-walled composite structures with large rotations", Compos. Struct., 112, 345-357.   DOI
3 Zhang, S.Q., Schmidt, R., Muller, P.C. and Qin, X.S. (2015c), "Disturbance rejection control for vibration suppression of smart beams and plates under a high frequency excitation", J. Sound Vib., 353, 19-37.   DOI
4 Zhang, S.Q., Wang, Z.X., Qin, X.S., Zhao, G.Z. and Schmidt, R. (2016), "Geometrically nonlinear analysis of composite laminated structures with multiple macro-fiber composite (MFC) actuators", Compos. Struct., 150, 62-72.   DOI
5 Azzouz, M.S., Mei, C. Bevan, J.S. and Ro, J.J. (2001), "Finite element modeling of MFC/AFC actuators and performance of MFC", J. Intell. Mat. Syst. Str., 12, 601-612.   DOI
6 Azzouz, M.S. and Hall, C. (2010), "Nonlinear finite element analysis of a rotating MFC actuator", Proceedings of the 51st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Orlando, Florida, April.
7 Bent, A.A. and Hagood, N.W. (1997), "Piezoelectric fiber composite with integrated electrodes", J. Intel. Mat. Syst. Str., 8, 903-919.   DOI
8 Bowen, C.R., Giddings, P.F., Salo, A.I.T. and Kim, H.A. (2011), "Modeling and characterization of piezoelectrically actuated bistable composites", IEEE T. Ultrason. Ferr., 58(9), 1737-1750.   DOI
9 Bilgen, O., Erturk, A. and Inman, D.J. (2010), "Analytical and experimental characterization of macrofibercomposite actuated thin clamped-free unimorph benders", J. Vib. Acoust., 132(5), 051005.   DOI
10 Binette, P., Dano, M.L. and Gendron, G. (2009), "Active shape control of composite structures under thermal loading", Smart Mater. Struct., 18, 025007.   DOI
11 Irschik, H. (2002), "A review on static and dynamic shape control of structures by piezoelectric actuation", Eng. Struct., 24, 5-11.   DOI
12 Dano, M.L., Gakwaya, M. and Julliere, B. (2008), "Compensation of thermally induced distortion in composites structures using macro-fiber composites", J. Intel. Mat. Syst. Str., 19, 225-233.   DOI
13 Gao, J.X. and Shen, Y.P. (2003), "Active control of geometrically nonlinear transient vibration of composite plates with piezoelectric actuators", J. Sound Vib., 264(4), 911-928.   DOI
14 Hagood, N., Kindel, R., Ghandi, K. and Gaudenzi, P. (1993), "Improving transverse actuation of piezoceramics using interdigitated surface electrodes", Proceedings of the SPIE-Smart Structures and Materials 1993: Smart Structures and Intelligent Systems, SPIE: 1917, 341-352, Albuquerque, New Mexico.
15 Irschik, H., Krommer, M. and Pichler, U. (2003), "Dynamic shape control of beam-type structures by piezoelectric actuation and sensing", Int. J. Appl. Electromag. Mech., 17, 251-258.
16 Kim, H.S., Sohn, J.W. and Choi, S.B. (2011), "Vibration control of a cylindrical shell structure using macro fiber composite actuators", Mech. Based Des. Struc., 39, 491-506.   DOI
17 Kioua, H. and Mirza, S. (2000), "Piezoelectric induced bending and twisting of laminated composite shallow shells", Smart Mate. Struct., 9, 476-484.   DOI
18 Lin, X.J., Zhou, K.C., Zhang, X.Y. and Zhang, D. (2013), "Development, modeling and application of piezoelectric fiber composites", T. Nonferrous Metals Soc. China, 23, 98-107.   DOI
19 Konka, H.P., Wahab, M.A. and Lian, K. (2013), "Piezoelectric fiber composite transducers for health monitoring in composite structures", Sensor. Actuat. A-Phys., 194, 84-94.   DOI
20 Li, Y.X., Zhang, S.Q., Schmidt, R. and Qin, X.S. (2016), "Homogenization for macro-fiber composites using reissnermindlin plate theory", J. Intel. Mat. Syst. Str., 27(18), 2477-2488.   DOI
21 Nader, M., Gattringer, H., Krommer, M. and Irschik, H. (2003), "Shape control of flexural vibrations of circular plates by shaped piezoelectric actuation", J. Vib. Acoust., 125(1), 88-94.   DOI
22 Padoin, E., Fonseca, J.S.O., Perondi, E.A. and Menuzzi, O. (2015), "Optimal placement of piezoelectric macro fiber composite patches on composite plates for vibration suppression", Latin Am. J. Solids Struct., 12(5), 925-947.   DOI
23 Park, J.S. and Kim, J.H. (2005), "Analytical development of single crystal macro fiber composite actuators for active twist rotor blades", Smart Mater. Struct., 14, 745-753.   DOI
24 Ren, L. (2008), "A theoretical study on shape control of arbitrary lay-up laminates using piezoelectric actuators", Compos. Struct., 83, 110-118.   DOI
25 Schoeftner, J. and Irschik, H. (2011), "A comparative study of smart passive piezoelectric structures interacting with electric networks: Timoshenko beam theory versus finite element plane stress calculations", Smart Mater. Struct., 20, 025007.   DOI
26 Skinner, D.P., Newnham, R.E. and Cross, L.J.E. (1978), "Flexible composite transducers", Mater. Res. Bull., 13(6), 599-607.   DOI
27 Smart Material Corp (2016), http://www.smart-material.com.
28 Wang, Z., Cao, Y., Zhao, Y. and Wang, Z. (2016), "Modeling and optimal design for static shape control of smart reflector using simulated annealing algorithm", J. Intel. Mat. Syst. Str., 27(5), 705-720.   DOI
29 Sodano, H.A., Park, G. and Inman, D.J. (2004), "An investigation into the performance of macro-fiber composites for sensing and structural vibration applications", Mech. Syst. Signal Pr., 18(3), 683-697.   DOI
30 Song, H.J., Choi, Y.T., Wereley, N.M. and Purekar, A.S. (2010), "Energy harvesting devices using macro-fiber composite materials", J. Intel. Mat. Syst. Struct., 21, 647-658.   DOI
31 Wilkie, W.K., Bryant, R.G., High, J.W., Fox, R.L., Hellbaum, R.F., Jalink, A., Little, B.D. and Mirick, P.H. (2000), "Low-cost piezocomposite actuator for structural control applications", SPIE-Smart Structures and Materials 2000: Industrial and Commercial Applications of Smart Structures Technologies, 3991, 323-334.
32 Williams, R.B., Grimsley, B.W., Inman, D.J. and Wilkie, W.K. (2002a), "Manufacturing and mechanics-based characterization of macro fiber composite actuators", Proceedings of the ASME 2002 International Mechanical Engineering Congress and Exposition. New Orleans, Louisiana, USA, November.
33 Williams, R.B., Wilkie, W.K. and Inman, D.J. (2002b), "An overview of composite actuators with piezoceramic fibers", Proceedings of the IMAC-XX: Conference & Exposition on Structural Dynamics, 4753, 421-427. Los Angeles, CA, USA.
34 Zhang, S.Q., Li, Y.X. and Schmidt, R. (2015a), "Active shape and vibration control for piezoelectric bonded composite structures using various geometric nonlinearities", Compos. Struct., 122, 239-249.   DOI
35 Zhang, S.Q., Li, Y.X. and Schmidt, R. (2015b), "Modeling and simulation of macro-fiber composite layered smart structures", Compos. Struct., 126, 89-100.   DOI