The basic information
First Prize for Science and Technology of Shaanxi Province in 2012.
- Multidisciplinary analysis and optimization design
- Structural analysis and optimization design
- Computer aided design
- Simulation analysis of cutting process
 Qiu KP, Wang Z, Zhang WH. The effective elastic properties of flexible hexagonal honeycomb cores with consideration for geometric nonlinearity. Aerospace Science and Technology, 2016, 58: 258-266.
 Qiu KP, Feng SQ. A novel metamaterial absorber with perfect wave absorption obtained by layout design. Journal of Electromagnetic Waves and Applications, 2016, 30(4): 523-535.
 Qiu KP, Feng SQ, Wu C, Zhang WH, Liu ZJ. Calculation of Effective Permittivity and Optimization of Absorption Property of Honeycomb Cores with Absorbing Coatings. Materials Science, 2016, 22(3): 317-322.
 Zhang FL, Liu ZJ, Qiu KP, Zhang WH, Wu C, Feng SQ. Conductive rubber based flexible metamaterial. APPLIED PHYSICS LETTERS, 2015,106(6): 061906.
 Zhang FL, Feng SQ, Qiu KP, Liu ZJ, Fan YC, Zhang WH, Zhao Q, Zhou J. Mechanically stretchable and tunable metamaterial absorber. APPLIED PHYSICS LETTERS, 2015, 106(9): 091907.
 Qiu KP, Wu C, Zhang WH. Numerical analysis of absorbing property for structural absorbing material (SAM) with honeycomb cores . SCIENTIA SINICA Physica, Mechanica & Astronomica, 2013, (009): 1057-1064.
 Tang XG, Zhang WH, Qiu KP. A new analysis of electromagnetic transmission characteristics of anisotropic honeycomb sandwiches. Acta Phys. Sin., 2013, 62(8):084102.
 Li XH, Zhang WH, Zhang FL, Qiu KP, Sun JF. S-type metamaterial operating under normal incidence. Physics Letters A, 2013, 377(12): 940-943.
 Qiu KP, Zhang FL, Zhang WH. Numerical computation of effective electromagnetic properties for dielectric honeycombs. SCIENTIA SINICA Physica, Mechanica & Astronomica, 2012, 42(8): 812-818.
 Qiu KP, Zhang WH. Improving Topological design of FGM ( Functionally Graded Material) structure. Journal of Northwestern Polytechnical University, 2010, 28(6): 851-857.
 Qiu KP, Zhang WH. Microstructure design with generalized shape optimization based on level set geometrical description and X-FEM. Applied Mechanics and Materials, 2010, Vols. 37-38: 662-666.
 Qiu KP, Zhang WH. Discussing SizeEffect on Topological design of periodic unit cells in sandwich core. Journal of Northwestern Polytechnical University, 2010, 28(3): 375-380.
 Qiu KP, Zhang WH, Domaszewski M, Chamoret D. Topology Optimization of Periodic Cellular Solids Based on Superelement Method. Engineering Optimization, 2009, 41(3):225-239.
 Qiu KP, Zhang WH, Zhu JH. Bending and dynamic analyses of sandwich panels considering the size effect of sandwich core. International Journal for Simulation and Multidisciplinary Design Optimization. 2009, vol. 3(3): 370-384.
 Qiu KP, Zhang WH , Duysinx P. Dynamic analysis of sandwich panels and topological design of cores considering the size effect. 8th. World Congress on Computational Mechanics (WCCM8), June 30–July 5, 2008 Venice, Italy.
 Sun SP，Zhang WH, Qiu KP, Guo ZZ, Bassir Hicham. Integrated toplogy optimization and scale effect analysis of cyclic symmetry sandwich structures. Chinese Journal of Theoretical and Applied Mechanics, 2007, 39(6):788-795.
 Zhu JH, Zhang WH, Qiu KP. Bi-directional evolutionary topology optimization using element replaceable method more options, Computational Mechanics, 2007, 40(1): 97-109.
 Qiu KP, Zhang WH, Sun SP, Zhu JH. Topological design of three-dimensional microstructure based on homogenization effective method. Materials Science Forum, 2006, Vols. 532-533:705-708.
 Zhu JH, Zhang WH, Qiu KP. Investigation of localized modes in topology optimization of dynamic structures. ACTA AERONAUTICA ET ASTRONAUTICA SINICA, 2005, 26(4):619-623.
 Qiu KP, Zhang WH, Sun SP. Numerical computation of effective elastic constants of the honeycomb sandwich panel with the 3-D multi-Step homogenization. Journal of Northwestern Polytechnical University, 2006, 24(4): 514- 518.
 Qiu KP, Zhang WH, Gao T, Wan M. Fast simulation and computation of workpiece deformation in milling process based on Super-Element Method ( SEM). MECHANICAL SCIENCE AND TECHNOLOGY，2004, 23(10): 1188-1190.