Damping Ratio in Micro-Beam Resonators Based on Magneto-Thermo-Elasticity
Subject Areas : EngineeringA Khanchehgardan 1 , G Rezazadeh 2 , A Amiri 3
1 - Mechanical Engineering Department, Urmia University, Urmia, Iran
2 - Mechanical Engineering Department, Urmia University, Urmia, Iran
3 - Mechanical Engineering Department, Urmia University, Urmia, Iran
Keywords:
Abstract :
[1] Ghaffari S., Ahn C.H., Ng E.J., Wang S., Kenny T.W., 2013, Crystallographic effects in modeling fundamental behavior of MEMS silicon resonators, Microelectronics Journal 44: 586-591.
[2] Kim B., Candler R.N., Hopcroft M.A., Agarwal M., Park W.T., Kenny T.W., 2007, Frequency stability of wafer-scale film encapsulated silicon based MEMS resonators, Sensors and Actuators A 136: 125-131.
[3] Saeedi-Vahdat A., Rezazadeh G., 2011, Effects of axial and residual stresses on thermo-elastic damping in capacitive micro-beam resonators, Journal of The Franklin Institute 348: 622-639.
[4] Khanchehgardan A., Rezazadeh G., Shabani R., 2014, Effect of mass diffusion on the damping ratio in micro-beam resonators, International Journal of Solids and Structures 51: 3147-3155.
[5] Zener C., 1937, Internal friction in solids. I. Theory of internal friction in reeds, Search Results Physical Review 52: 230-235.
[6] Nowacki W., 1974, Dynamical problems of thermos diffusion in solids I, Bulletin of the Polish Academy of Sciences Technical Sciences 22: 55-64.
[7] Sherief H., Hamza F., Saleh H., 2004, The theory of generalized thermo-elastic diffusion, International Journal of Engineering Science 42: 591-608.
[8] Ezzat M.A., Awad E.S., 2009, Micropolar generalized magneto-thermoelasticity with modified Ohm’s and Fourier’s laws, Journal of Mathematical Analysis and Applications 353: 99-113.
[9] Abd-Alla A.N., Yahia A.A., Abo-Dahab S.M., 2003, On the reflection of the generalized magneto-thermoviscoelastic plane waves, Chaos Solitons & Fractals 16: 211-231.
[10] Othman M.I.A., 2004, Generalized electro magneto-thermo viscoelastic in case of 2-D thermal shock problem in a finite conducting half-space with one relaxation time, Acta Mechanica 169: 37-51.
[11] Singh B., Kumar R., 1998, Reflection and refraction of micropolar elastic waves at a loosely bonded interface between viscoelastic solid and micropolar elastic solid, International Journal of Engineering Science 36: 101-117.
[12] Aouadi M., 2007, A problem for an infinite elastic body with a spherical cavity in the theory of generalized thermoelastic diffusion, International Journal of Solids and Structures 44: 5711-5722.
[13] Sharma J.N., Sharma Y.D., Sharma P.K., 2008, On the propagation of elasto-thermo diffusive surface waves in heat-conducting materials, Journal of Sound and Vibration 351(4): 927-938.
[14] Kumar R., Deswal S., 2002, Surface wave propagation in a micropolar thermo-elastic medium without energy dissipation, Journal of Sound and Vibration 256: 173-178.
[15] Moon F.C., Pao Y.H., 1968, Magneto-elastic buckling of a thin plate, Journal of Applied Mechanics 37: 53-58.
[16] Shih Y.S., Wu G.Y., Chen E.J.S., 1998, Transient vibrations of a simply-supported beam with axial loads and transverse magnetic fields, Mechanics of Structures and Machines 26(2): 115-130.
[17] Sharma K., 2010, Boundary value problems in generalized thermodiffusive elastic medium, Journal of Solid Mechanics 2(4): 348-362.
[18] Liu M.F., Chang T.P., 2005, Vibration analysis of a magneto-elastic beam with general boundary conditions subjected to axial load and external force, Journal of Sound and Vibration 288(1-2): 399-411.
[19] Kong S., Zhou S., Nie Z., Wang K., 2008, The size-dependent natural frequency of Bernoulli–Euler micro-beams, International Journal of Engineering Science 46: 427-437.
[20] Sun Y., Fang D., Soh A.K., 2006, Thermo-elastic damping in micro-beam resonators, International Journal of Solids and Structures 43: 3213-3229.
[21] Alizada A.N., Sofiyev A.H., Kuruoglu N., 2012, Stress analysis of a substrate coated by nanomaterials with vacancies subjected to uniform extension load, Acta Mechanica 223: 1371-1383.
[22] Alizada A.N., Sofiyev A.H., 2011, On the mechanics of deformation and stability of the beam with a nanocoating, Journal of Reinforced Plastics and Composites 30(18): 1583-1595.
