[1.]	Adams R A. Sobolev Spaces, 1975, New York: Academic Press 6

[2.]	Bae H-Ohk. Existence, regularity and decay rate of solutions of non-Newtonian flow. J Math Appl Anal, 1999, 231: 467-491 CrossRef Google scholar

[3.]	Bellout H, Bloom F, Nečas J. Young measure-valued solutions for non-Newtonian incompressible viscous fluids. Comm Partial Differential Equations, 1994, 19: 1763-1803 CrossRef Google scholar

[4.]	Bloom F, Hao W. Regularization of a non-Newtonian system in an unbounded channel: Existence and uniqueness of solutions. Nonlinear Anal, 2000, 19: 1763-1803

[5.]	Bloom F, Hao W. Regularization of a non-Newtonian system in an unbounded channel: Existence of a maximal compact attractor. Nonlinear Anal, 2001, 43: 743-766 CrossRef Google scholar

[6.]	Dong B, Chen Z. Time decay rates of non-Newtonian flows in ℝ+ n. J Math Anal Appl, 2006, 324: 820-833 CrossRef Google scholar

[7.]	Dong B, Jiang W. On the decay of higher order derivatives of solutions to Ladyzhenskaya model for incompressible viscous flows. Sci China Ser A: Math, 2008, 51: 925-934 CrossRef Google scholar

[8.]	Dong B, Li Y. Large time behavior to the system of incompressible non-Newtonian fluids in ℝ2. J Math Anal Appl, 2004, 298: 667-676 CrossRef Google scholar

[9.]	Friedman A. Partial Differential Equations, 1969, New York: Holt Reinhart and Winston

[10.]

García-Luengo J, Marín-Rubio P, Real J. H2-boundedness of the pullback attractors for non-autonomous 2D Navier-Stokes equations in bounded domains. Nonlinear Anal, 2011, 74: 4882-4887 CrossRef Google scholar

[11.]

García-Luengo J, Marín-Rubio P, Real J. Pullback attractors in V for non-autonomous 2D Navier-Stokes equations and their tempered behavior. J Differential Equations, 2012, 252: 4333-4356 CrossRef Google scholar

[12.]

Guo B, Guo C. The convergence of non-Newtonian fluids to Navier-Stokes equations. J Math Anal Appl, 2009, 357: 468-478 CrossRef Google scholar

[13.]

Guo B, Guo C. The convergence for non-Newtonian fluids to Navier-Stokes equations in 3D domain. Int J Dyn Syst Differ Equ, 2009, 2: 129-138

[14.]

Guo B, Lin G, Shang Y. Dynamics of Non-Newtonian Fluid, 2006, Beijing: National Defence Industry Press

[15.]

Guo B, Zhu P. Partial regularity of suitable weak solution to the system of the incompressible non-Newtonian fluids. J Differential Equations, 2002, 178: 281-297 CrossRef Google scholar

[16.]

Ladyzhenskaya O. The Mathematical Theory of Viscous Incompressible Flow, 1987, New York: Gordon and Breach Science Press

[17.]

Málek J, Nečas J, Rokyta M, Ružička M. Weak and Measure-valued Solutions to Evolutionary PDEs, 1996, New York: Champman-Hall

[18.]

Pokorný M. Cauchy problem for the non-Newtonian viscous incompressible fluids. Appl Math, 1996, 41: 169-201

[19.]

Robinson J C. Infinite-Dimensional Dynamical System, 2001, Cambridge: Cambridge University Press CrossRef Google scholar

[20.]

Temam R. Infinite Dimensional Dynamical Systems in Mechanics and Physics, 1997 2nd ed. Berlin: Springer CrossRef Google scholar

[21.]

Zhao C, Li Y. H2-compact attractor for a non-Newtonian system in two-dimensional unbound domains. Nonlinear Anal, 2004, 56: 1091-1103 CrossRef Google scholar

[22.]

Zhao C, Li Y. A note on the asymptotic smoothing effect of solutions to a non-Newtonian system in 2-D unbounded domains. Nonlinear Anal, 2005, 60: 475-483

[23.]

Zhao C, Li Y, Zhou S. Regularity of trajectory attractor and upper semicontinuity of global attractor for a 2D non-Newtonian fluid. J Differential Equations, 2009, 247: 2331-2363 CrossRef Google scholar

[24.]

Zhao C, Liu G, Wang W. Smooth pullback attractors for a non-autonomous 2D non-Newtonian fluid and their tempered behaviors. J Math Fluid Mech (to appear), DOI: 10.1007/s00021-013-0153-2

[25.]

Zhao C, Zhou S. L2-compact uniform attractors for a nonautonomous incompressible non-Newtonian fluid with locally uniform integrable external forces in distribution space. J Math Phys, 2007, 48: 032702-1-12 CrossRef Google scholar

[26.]

Zhao C, Zhou S. Pullback attractors for a non-autonomous incompressible non-Newtonian fluid. J Differential Equations, 2007, 238: 394-425 CrossRef Google scholar