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Theoretical and Applied Mechanics

Journals and Books
Behavior of Materials
^ da Silviera, R., S. Chaïeb, and L. Mahadevan . Rippling instability of a collapsing bubble. Science, 287, 1468-1471 (2000).

^ Jonnalagadda, K. D., N. R. Sottos, M. A. Qidwai, and D. C. Lagoudas. In-situ displacement measurements and predictions of embedded SMA actuation. Smart Struct. Mater., 9, 701-710 (2000).

^ Lian, L. and N. R. Sottos . Effects of thickness on the piezoelectric and dielectric properties of lead zirconate titanate thin films. J. Appl. Phys., 87, 3941-3949 (2000).

^ Lufrano, J. and P. Sofronis. Micromechanics of hydride formation and cracking in zirconium alloys. Comput. Model. Eng. Sci. , 1:2, 119-131 (2000).

^ Stout, E. A., N. R. Sottos, and A. F. Skipor. Mechanical characterization of plastic ball grid array package flexure using moiré interferometry. IEEE Trans. Adv. Packag., 23, 637-645 (2000).

^ Wang, Y., G. Gioia, and A. M. Cuitino. The deformation habits of compressed open-cell solid foams. J. Eng. Mater. Technol., 122, 376 (2000).

Dynamics, Vibrations, and Waves
^ Holland, S., T. Kosel, R. L. Weaver, and W. Sachse. Determination of plate sourcedetector separation from one signal. Ultrasonics , 38, 620-623 (2000).

^ Lobkis, O. I. and R. L. Weaver. The statistics of complex modes of a reverberant dissipative elastic body. J. Acoust. Soc. Am., 108:44, 1480-1485 (2000).

^ Lobkis, O. I., R. L. Weaver, and I. Rozhkov. Power variances and decay curvature in a reverberant system. J. Sound Vibr., 237, 281-302 (2000).

^ Weaver, R. L. . Surface wave generation by buried forces in a half space. Chin. J. Mech., 16:2, 73-79 (2000).

^ Weaver, R. L. and J. Burkhardt. Transport in multi-coupled Anderson localizing systems. Chaos, Soliton and Fractals, 231, 491-494 (2000).

^ Weaver, R. L. and O. I. Lobkis. Anderson localization in coupled reverberation rooms. J. Sound Vibr., 231:4, 111-1134 (2000).

^ Weaver, R. L. and O. I. Lobkis. Enhanced backscattering and modal echo of reverberant elastic waves. Phys. Rev. Lett. , 84, 4942-4945 (2000).

^ Weaver, R. L. and O. I. Lobkis. Temperature dependence of diffuse field phase . Ultrasonics , 38, 491-494 (2000).

Mechanics of Fluids
^ Adrian, R. J. . Vortex packets and the structure of wall turbulence. In Science and Art (Gyr, ed.), Kluwer Academic Publishers, Dordrecht, Netherlands, 77-78 (2000).

^ Adrian, R. J. and S. Balachandar. Vortex packets and the structure of wall turbulence. Rev. Mex. Fis., 48, 1-7 (2000).

^ Adrian, R. J., C. D. Meinhart, and C. Tomkins . Vortex organization in the outer region of the turbulent boundary layer. J. Fluid Mech., 442, 1-53 (2000).

^ Adrian, R. J., K. T. Christensen, and Z. C. Liu. On the analysis and interpretation of turbulent velocity fields. Exp. Fluids , 29, 275-290 (2000).

^ Aref, H., T. A. Dunaeva, and V. V. Meleshko. Chaotic advection by a blinking rotlet in a circle. Appl. Hydromech. , 2:1, 3-8, (in Russian) (2000).

^ Aref, H. and D. L. Vainchtein. The equation of state of a foam. Phys. Fluids , 12, 23-28 (2000).

^ Boyland, P. L., H. Aref, and M. A. Stremler. Topological fluid mechanics of stirring. J. Fluid Mech., 403, 277-304 (2000).

^ Debnath, L. and D. N. Riahi, eds.. Nonlinear Instability, Chaos and Turbulence. WIT Press, Computational Mechanics Publications, Southampton, United Kingdom, 2, 45 (2000).

^ Fetterman, M. R., E. Tan, L. Ying, R. A. Stack, D. Marks, S. Feller, E. Cull, J. M. Sullivan, D. Munson, S. T. Thoroddsen, and D. J. Brady. Tomographic imaging of foam. Opt. Express, 7, 186-197 (2000).

^ Fried, E. and S. Sellers . Microforces and the theory of solute transport. Z. angew. Math. Phys., 51, 732-751 (2000).

^ Guarini, S. C., R. D. Moser, K. Shariff, and A. Wray. Direct numerical simulation of a supersonic turbulent boundary layer at Mach 2.5. J. Fluid Mech., 414, 1-33 (2000).

^ Hill, D. F., K. V. Sharp, and R. J. Adrian . Stereoscopic particle image velocimetry measurements of the flow around a Rushton turbine. Exp. Fluids , 29, 478-485 (2000).

^ Keane, R. D., N. Fujisawa, and R. J. Adrian. Unsteady non-penetrative thermal convection from non-uniform surfaces. In Geophysical and Astrophysical Convection (Fox and Kerr, eds.), Gordon and Breach, Amsterdam, Netherlands, 59-84 (2000).

^ Langford, J. A., S. Volker, P. Venugopal, and R. D. Moser. Application of optimal LES. In Advances in Turbulence VII (Dopazo, ed.), CIMNE, Barcelona, Italy, 551 (2000).

^ Liu, R. H., K. V. Sharp, M. G. Olsen, M. A. Stremler, J. G. Santiago, R. J. Adrian, H. Aref, and D. J. Beebe . A passive three-dimensional C-shape helical micromixer. J. Microelectromech. Syst., 9, 190-197 (2000).

^ Riahi, D. N. . Boundary mode-vortex generation in turbulent channel flow over a non-wavy roughwall. Proc. Royal Soc. London, Ser. A , 457, 2643-2666 (2000).

^ Riahi, D. N. . Buoyancy driven flow in a rotating low Prandtl number melt during alloy solidification. Curr. Top. Cryst. Growth Res., 5, 151-161 (2000).

^ Riahi, D. N. . Effects of a vertical magnetic field on chimney convection in a mushy layer. J. Cryst. Growth, 216, 501-511 (2000).

^ Riahi, D. N., ed. . Flow Instability. WIT Press, United Kingdom, 256 (2000).

^ Riahi, D. N. . High Rayleigh number convection in a rotating melt during alloy solidification. Recent Dev. Cryst. Growth Res., 2, 211-222 (2000).

^ Riahi, D. N. . Nonlinear thermal instability in spherical shells. In Nonlinear Instability, Chaos and Turbulence (Debnath and Riahi, eds.), WIT Press, Computational Mechanics Publications, Southampton, United Kingdom, 2, 377-402 (2000).

^ Riahi, D. N. . On the effects of boundary corrugations on convective flow. J. Theor. Appl. Mech., 29, 22-36 (2000).

^ Sharp, K. V., K. C. Kim, and R. J. Adrian. Dissipation estimation around a Rushton turbine using particle image velocimetry. In Laser Techniques Applied to Fluid Mechanics (Adrian et al., eds.), Springer, Berlin, Germany, 337-354 (2000).

^ Thoroddsen, S. T. and K. Takehara. The coalescence-cascade of a drop. Phys. Fluids, 12, 1257-1265 (2000).

Mechanics of Solids
^ Anderson, D. R., D. E. Carlson, and E. Fried. A continuum-mechanical theory for nematic elastomers. J. Elastic., 56, 33-58 (1999, printed 2000).

^ Chaïeb, S. and F. Melo. From creases in buckled cylindrical panels to conical deflections in a buckled circular plate: stress focusing versus singularities in strong deformations of a thin elastic sheet. J. Mech. Phys. Solids, 48:3, 565-579 (2000).


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