Patents
Patent: Adaptive variable rate withdrawal method for single crystal turbine blade, ZL201110362376.3
Patent: Al-Ti-B-RE grain refiner and its manufacturing method, ZL200610011786.2
Computer software registration:Macro/micro-modeling of directional solidification of Ni-based superalloy turbine blade, 2009SRBJ5040
Selected Publications
1. Numerical Simulation Technology of Casting Process. Beijing: China Machine Press, 2004 (in Chinese) (book, 2nd author)
2. China Materials Dictionary Vol. 19: Casting Processing Engineering (2); Chapter 6—Casting CAD/CAE. Beijing: Chemical Industry Press, 2006 (in Chinese) (book, co-author)
Publication in English Journals:
3. Qingyan Xu, Hang Zhang, Xiang Qi, Baicheng Liu. Multiscale Modeling and Simulation of Directional Solidification Process of Turbine Blade Casting with MCA Method. Metallurgical and Materials Transactions B, 2013, 1-7 DOI 10.1007/s11663-013-9909-6
4. SHI Yu-feng, XU Qing-yan, LIU Bai-cheng. Simulation and experimental validation of three-dimensional dendrite growth. Trans. Nonferrous Met. Soc. China, 2012, 22(11): 2756−2761
5. Xu Qingyan, Liu Baicheng, Pan Dong, Yu Jing. Progress on modeling and simulation of directional solidification of superalloy turbine blade casting. China Foundry, 2012, 9(1): 68-77
6. ZHANG Hang, XU Qingyan, TANG Ning, PAN Dong, LIU Baicheng. Numerical Simulation of Microstructure Evolution during Directional Solidification Process in DS Turbine Blades. SCIENCE CHINA: Technological Sciences 2011, 54(12): 3191-3202
7. B.C. Liu, Q.Y. Xu. Microstructure modelling and simulation of shaped casting with MCA method. International Journal of Cast Metals Research, 2011, 24(3-4): 139-143
8. Baicheng Liu, Qingyan Xu, Tao Jing, et al. advances in Multi-scale Modeling of solidification and Casting processes. JOM, 2011, 63(4): 19-25
9. PAN Dong, XU QingYan & LIU BaiCheng. Three dimensional microstructure simulation of Ni-based superalloy investment castings. SCIENCE CHINA: Physics, Mechanics & Astronomy, 2011, 54 (5): 851-855
10. Dong Pan, Qingyan Xu, Baicheng Liu. Numerical Simulation of Grain Selection Behavior of Single Crystal Ni3Al Based Superalloy Casting Materials Science Forum Vols. 654-656 (2010) pp 1482-1485
11. Pan Dong, Xu Qingyan, Liu Baicheng. Modeling of Grain Selection during Directional Solidification of Superalloy Single Crystal Turbine Blade Casting. JOM, 2010, 62(5): 39-43
12. Dong Pan, Qingyan Xu, Baicheng Liu. Modeling of Microstructure Evolution in Directional Solidification of Ni-Based Superalloy Turbine Blade. Advanced Materials Research Vols. 97-101 (2010) pp 3207-3210
13. Qingyan Xu, Bin Li and Baicheng Liu. Application of Microstructure Simulation by Modified CA Method to Al Alloy Casting Production. Materials Science Forum Vols. 618-619 (2009) pp 199-202
14. D. Pan, Q.Y. Xu, J. Yu, B.C. et al. Numerical Simulation of Directional Solidification of Single Crystal Turbine Blade Casting. International Journal of Cast Metals Research, 2008, 21(1-3), 308-312
15. YU Jing, XU Qingyan, LIU Baicheng, et al. Experimental study and numerical simulation of directionally solidified turbine blade casting. Journal of Materials Science & Technology, 2008, 24(3): 369-373
16. Qingyan XU, Bin LI, Baicheng LIU. Numerical Modeling of Microstructure Evolution and Dendrite Growth in Alloy Solidification Process. Int. Journal of Materials and Product Technology., 2008, 33(1-2): 37-49
17. Z. Y. Liu, Q. Y. Xu, B. C. Liu. Dendrite Growth Modeling of Cast Mg Alloy. International Journal of Cast Metals Research, 2007, 20(3): 109-112
18. B. Li, Q. Y. Xu, B. C. Liu. Numerical Modeling of Microstructure Evolution and Dendrite Growth for Al-Si Alloy Casting during Low Pressure Die Casting. Materials Science Forum, Vols. 561-565 (2007) pp. 1787-1792
19. Jing Yu, Qingyan Xu, Baicheng Liu, Jiarong Li, Hailong Yuan. Numerical Simulation of Unidirectional Solidification Process of Turbine Blade Castings. Advanced Materials Research Vols. 26-28 (2007) pp. 947-952
20. Baicheng Liu, Shoumei Xiong, Qingyan Xu. Study on Macro and Micro-Modeling of Solidification Process of Aluminum Shape Casting. Metallurgical and Materials Transactions B, 2007, 38B: 525-532
21. Zhennan Fu, Qingyan Xu, Shoumei Xiong. Microstructure Simulation of Magnesium Alloy. Materials Science Forum, Vols. 546-549 (2007) pp. 133-137
22. Zhiyong LIU, Qingyan XU and Baicheng LIU. Microstructure Simulation of Die Casting AZ91D Alloy, Materials Science Forum, Vols. 546-549 (2007) pp. 109-112
23. Jing YU, Qingyan XU, Kai CUI, Baicheng LIU, Akihiko KIMATSUKA, Yasunori KUROKI, Atsushi HIRATA. Numerical Simulation of Solidification Process on Single Crystal Ni-Based Superalloy Investment Castings. Journal of Materials Science & Technology 2007, 23(1): 47-54
24. LIU Ying, XU Qingyan, LIU Baicheng. A Modified Cellular Automaton Method for the Modeling of the Dendritic Morphology of Binary Alloys. Tsinghua Science and Technology 2006, Volume 11, Number 5, pp495-500 June 2006
25. Li Bin, Xu Qingyan, Li Xudong et al. Numerical Simulation of Microstructure of Al-Si/SiCp Composites during Stir Casting Process with Particle Pushing Model. ISIJ Int, 2006, 46(2): 241-249
26. Zhang, XP; Xiong, SM; Xu, QY. 2006. Numerical methods to improve the computational efficiency of solidification simulation for the investment casting process. Journal of Materials Processing Technology, 2006, 173 (1): 70-74
27. Q.Y. Xu, B.C. Liu, Z.J. Liang, J.R. Li, S.Z. Liu, H.L. Yuan. Modeling of Unidirectional Growth in a Single Crystal Turbine Blade. Mater. Sci. Forum, 2006, 508: 111-116
28. Zhang XP, Chen G, Xiong SM, Xu QY. Computer simulation of the solidification of cast titanium dental prostheses Journal of Materials Science 40 (18): 4911-4916 2005
29. Qingyan Xu, Baicheng Liu. Modeling of Dendritic Structure during Solidification Process Based on Cellular Automaton Model. Materials Science Forum, Vol. 475-479 (2005) PRICM-5: 3137-3140
30. LIU Baicheng, XU Qingyan. Advances on Microstructure Modeling of Solidification Process of Shape Casting. Tsinghua Science and Technology, 2004, 9(5): 497-505
31. Xu Qingyan, Feng Weiming, Liu Baicheng. Coupled Macro-micro Modeling for Prediction of Grain Structure of Al Alloy. Transactions of Non-ferrous Metals Society of China, 2004, 14(1): 71-77
32. Zuojian Liang, Qingyan Xu and Baicheng Liu. 3D Modeling and Simulation of Dendritic Growth during Solidification. Journal of Materials Science and Technology, Volume 19 Suppl.1, 2003: 1-4
33. Qingyan Xu, Weiming Feng, Baicheng Liu. 3D Stochastic Modeling of Grain Structure for Aluminum Alloy Casting. Journal of Materials Science and Technology, 2003, 19(5): 391-394
34. Shuyong DONG, Zhuo ZHUANG, Qingyan XU, et al. Study on Numerical Simulation of Microporosity Evolution and Fatigue Life of Aluminum Alloy Casting. International Journal of Cast Metals Research, 2002, 15(4): 309-314
35. Q.Y. Xu, W.M. Feng, and B.C. Liu. A New Stochastic Modeling of the Dendritic Microstructure of Aluminum Alloy. International Journal of Cast Metals Research, 2002, 15(3):225-230
36. Weiming FENG, Qingyan XU, Baicheng LIU. Microstructure Simulation of Aluminum Alloy Using Parallel Computing Technique. ISIJ, 2002, 42(7): 702-707
37. Qingyan Xu, Baicheng Liu. Modeling of As-cast Microstructure of Al-Si Alloy with a Modified Cellular Automaton Method. Mater. Trans., Vol.42, No.11, 2001,2316-2321
38. Xu Q.Y., Chen Y.Y., Li Q.C. Fabricating of Open-Cell Porous Aluminum-Silicon Alloy with Pressure Casting. Journal of Materials Science and Technology, 1999, 15(1): 63-66