Technical specification: Gansu provincial engineering construction standard. Technical specification for concrete filled steel tubular structures DB62/T25-304 1-2009. Lanzhou: Gansu Provincial Construction Department, Gansu Provincial Bureau of Quality and Technical Supervision, released in April 2009, and implemented in June 2009 1 (compilation leader).
Textbook: [1] edited by Wang Wenda, deputy editor-in-chief of Shi. Civil engineering CAD practice course (2 1 century national undergraduate colleges and universities civil engineering innovative and applied talents training planning textbook). Beijing: Peking University Publishing House, 20 12 1 month, ISBN 978-7-3065438+. 234pp [2] Zhu, Wang Wenda, et al. Course design guide for reinforced concrete structures (course design guide series for civil engineering majors). Beijing: China Building Industry Press, June 2065 438+00, ISBN 978-7-12-12076-. Zhou Donghua, deputy editor-in-chief of Wang Wenda. Design principles of steel and concrete composite structures. Beijing: Science Press, September 2005, ISBN 978-7-03-015742-3,374pp [4] Zhu, Wang Wenda, and others. Learning guide for design principles of concrete structures. Chongqing. ISBN 7-5624-2862-X, 165pp [5] Liu Qing, Akenjiang and Wang Wenda. Design principles of composite structures. Chongqing: Chongqing University Press, July 2002, ISBN 7-5624-2389-X, 17655. Wang lung. Study guide for reinforced concrete and masonry structures. Lanzhou: Gansu Science and Technology Press, February 2000, ISBN 7-5424-0741-4,301PP.
Representative papers:
Wang Jingxuan, Wang Wenda. Mechanical performance analysis of plane frame of concrete filled steel tubular column-composite beam considering the whole fire process. Vibration and impact, 2014,33 (11):124-129+65448. Wang wenda Whole fire process analysis of plane frame with steel beam and concrete filled steel tube columns under different fire conditions. Journal of Building Structure, 2014,35 (3):102-109 (correspondent, included in EI) [3] Wang Jingxuan, Wang Wenda, Zhou Xiaoyan. Concrete-filled steel tubular composite frame based on initial damage model. 34 (supp1):179-185 (correspondent, included in EI) [4] Shi, Wang Wenda. Study on mechanical properties of concrete filled steel tubular members with built-in steel. Journal of Building Structure, 2013,34 (included in Supp6544) ei) [5] Li Huawei, Wang Wenda. The application of. Secondary development of ABAQUS in finite element analysis of concrete filled steel tubular structures. Journal of Building Structure, 2013,34 (supp1): 353-358 (included by correspondent, EI) [6] package, Wang Wenda. Firefighting 2013,34 (supp1): 407-412 (correspondent, included in EI) [7] Xu Lei, Sun Zhanwei, Wang Wenda. Mechanical properties analysis of steel reinforced concrete short columns with circular steel tubes under axial compression. Journal of Natural Disasters, 20 13, 22 Wang Wenda. Numerical simulation of fire resistance of steel-concrete continuous composite floor slab. Journal of Natural Disasters, 2013,22 (2): 76-83 (correspondent) [9] Wang Wenda, Li Huawei. Hysteretic behavior analysis of concrete filled steel tube frame-reinforced concrete shear wall hybrid structure. Vibration and shock, 2013,32 (15): 45-50 (included in ei) [10] Wang Wenda, Shi, Wen. Moment-rotation relationship of steel frame composite joints with flat end plates. Vibration and shock, 2013,32 (10): 440. Qing Yu. Mechanical properties of concrete-filled steel tubular columns in China during concrete pouring. Journal of Tsinghua University (Natural Science Edition), 2013,53 (1): 6-1(included in EI) [12] Shi, Wang Wenda, 2012,29 (12):186-195 (correspondent, included in ei) [13] Wang Jingxuan, Wang Wenda, Zhou Xiaoyan. Numerical simulation of fire resistance of concrete filled steel tubular composite frame based on multi-scale modeling. Engineering mechanics, 2003. 29 (Sup2): 170- 175 (correspondent, included in EI) [14] Wang Wenda, Wang Jun. Seismic response analysis of concrete-filled steel tubular composite frame under far-field earthquake. Engineering mechanics, 2012,29 (sup1):124-129 (included in ei) [15] Wang Wenda, Qin Geng, Calculation method of flexural capacity of concrete filled steel tubular column-steel beam joints. Civil engineering and environmental engineering, 20 165438. 33 (4): 29-34 (included in EI) [16] Han Linhai, Wang Wenda,. Behavior of concrete filled circular steel tubular column-steel beam frame under horizontal cyclic loading. Journal of Building Steel Research, 20 1 1, 67 (5): 876-890 (included by SCI/EI) [17] Qu Hui, Wang Wenda. Study on practical calculation method of moment-rotation relationship of concrete-filled steel tubular beam-column joints. Engineering mechanics, 20 10/0,27 (5):106-65438. Han Linhai. Hysteretic relationship between concrete-filled steel tubular column and steel beam plane frame. Journal of Tsinghua University (Natural Science Edition), 2009,49 (12):1934-1938 (included in EI) [19] Wang Wenda, Han Linhai. Mechanical properties of concrete filled steel tubular frame. 49 (9): 1455- 1458 (included in ei) [20] Wang Wenda, Han Linhai,-Ling. Analysis performance of steel beam-concrete filled steel tubular column frame. Journal of Building Steel Research, 2009,65 (3): 497-508. (included in sci/ei) [21] Wang Wenda, Han Linhai. Nonlinear finite element analysis of mechanical properties of concrete filled steel tubular frame. Journal of Building Structure, 2008,29 (6): 75-83 (included in EI) [22] Wang Wenda, Han Linhai ... 25 (1 1): 62-69 (included in EI) [23] Wang Wenda, Han Linhai, Uy Brian. Journal of Building Steel Research, 2008,64 (5): 493-504 (included by SCI/EI) [24] Han Linhai, Wang Wenda, Ling. Behavior of Steel Beam-Concrete Filled Square Steel Tubular Column Frame: Finite Element Model and Verification. Engineering structure, 30, 2008 (6):1647-1658 (included by SCI/EI) [25] Wang Wenda, Han Linhai, sightseeing group. Experimental study on hysteretic behavior of concrete-filled square steel tubular columns and steel beams, Journal of Civil Engineering, 2006,39 (9): 65438+