International Journal

 

  1. D. Xu, J.L.Xu, G.N. Xie, Revisiting Blasius Flow by Fixed Point Method, Abstract and Applied Analysis,  Vol.2014, Article ID 953151 (2014) (doi:10.1155/2014/953151). (SCI)
  2. D. Xu, X. Wang, G.N. Xie, Spectral Fixed Point Method for Nonlinear Oscillation Equation with Periodic Solution, Mathematical Problems in Engineering, Vol.2013, Article ID 538716 (2013)  (doi:10.1155/2013/538716). (SCI)
  3. D. Xu, X. Guo, Application of Fixed Point Method to Obtain Semi-Analytical Solution to Blasius Flow and Its Variation, Applied Mathematics and Computation, Vol.224 (2013) 791-802  (doi:10.1016/j.amc.2013.08.066). (SCI)
  4. D. Xu, X. Guo, Fixed Point Analytical Method for Nonlinear Differential Equations, Journal of Computational and Nonlinear Dynamics, Vol.8  Article ID 011005 (2013) (doi:10.1115/1.4006337). (SCI)
  5. X. Wang, H. Hirano, G.N. Xie, D. Xu, VOF Modeling and Analysis of the Segmented Flow in Y-Shaped Microchannels for Microreactor Systems, Advances in High Energy Physics, Vol.2013 Article ID 732682 (2013) (doi:10.1155/2013/732682). (SCI)

 

Chinese Journal

  1. D. Xu, A uniformly valid series solution to Sakiadis flow, Applied Mathematics and Mechanics (in Chinese), 36 (2015) 178-189.
  2. D. Xu, G.-N. Xie, Application of fixed point method to solve nonlinear Falkner-Skan flow equation, Applied Mathematics and Mechanics (in Chinese), 36 (2015) 78-86. 
  3. D. Xu, G. Chen, X. Wang, Y.M. Li, Direct Numerical Simulation of the Wall-Bounded Turbulent Flow by Lattice Boltzmann Method Based on Multi-GPU, Applied Mathematics and Mechanics (in Chinese), 34 (2013) 956-964
  4. X. Guo, X. Wang, D. Xu, G.-N. Xie, A Legendre series solution to Rayleigh stability equation of mixing layer, Applied Mathematics And Mechanics (in Chinese), 34 (2013) 782-794.
  5. Y.M. Li, G. Chen, D. Xu, Opportunity and Challenge of CAE Technology for High-End Equipment Manufacturing, Computer Aided Engineering, 21 (2012) 1-7.
  6. D. Xu, H.Y. Ma, Engineering Transition Models for Hypersonic Boundary layer, Journal of the Graduate School of the Chinese Academy of Sciences (in Chinese), 26 (2009) 43-49.
  7. D. Xu, C. Wang, H.Y. Ma, Numerical Simulation of the Turbulent Flow field in Supersonic Combustion, Acta Aerodynamic Sinica (in Chinese), 26 (2008) 73-78.
  8. D. Xu, H.Y. Ma, Numerical Simulation of Hypersonic Turbulent Boundary Layer around a Sharp Cone, Gas Physics - Theory and Applications (in Chinese), 2 (2007) 337-341.

 

Report

 

  1. D. Xu, H.Y. Ma. Study on Engineering Transition Model for Hypersonic Turbulent Boundary Layer Flow. China Science and Technology Reports. 2008.
  2. D. Xu, H.Y. Ma. Study on Compressible Turbulence Model for Hypersonic Turbulent Boundary Layer Flow. China Science and Technology Reports. 2007.
  3. D. Xu, H.Y. Ma. Application and Assessment of Compressible Turbulence Model. China Science and Technology Reports. 2005.
  4. D. Xu, H.Y. Ma. Study on Compressible Turbulent Flow in Supersonic Combustion. China Science and Technology Reports. 2005.

 

Conference

  1. D. Xu, A Dynamic Adaptive Scale DES Modle, in:Proceedings of the Chinese Congress of Theoretical and Applied Mechanics (CCTAM 2013), China, 2013.
  2. X. Guo, D. Xu, Application of fixed point method to obtain a semi-analytical solution of stagnation flow, in: Z.W. Zhou (Ed.) Proceedings of the Sixth International Conference on Nonlinear Mechanics (ICNM-VI), China, 2013, pp. 249-252.
  3. D. Xu, H.Y. Ma, The Investigation of Compressible Turbulence Model for Hypersonic Boundary Layer Flow, in:Proceedings of China 13th Computational Fluid Dynamics Conference, China, 2007.
  4. D. Xu, H.Y. Ma, The Investigation of Compressible Turbulence Model for Compressible Mixing Layer, in:Proceedings of China 1st Modern Aerodynamics & Aerothermodynamics Conference, China., 2006.