Prof. Dr. ZHOU Ding周叮
周叮�����,男,1957年5月20日生����,江蘇阜寧人����。必贏3003no1線路檢測中心必贏3003no1線路檢測中心特聘教授����,教授二級,必贏3003no1線路檢測中心土木工程學(xué)科博士生導(dǎo)師��、南京理工大學(xué)力學(xué)學(xué)科博士生導(dǎo)師����。
擔任國際著名期刊Applied Mathematical Modelling編委。學(xué)術(shù)期刊發(fā)表論文300多篇�����,論文他引3400余次����,SCI檢索h-index=32��,2003年入選世界名人錄Who's Who��,系Springer熱應(yīng)力大百科全書條目撰寫人�,54個SCI期刊固定審稿人�,與香港大學(xué)、英國曼切斯特大學(xué)��、加拿大湖首大學(xué)和麥吉爾大學(xué)����、美國霍華德大學(xué)、丹麥奧胡斯大學(xué)�����、澳大利亞國立大學(xué)和莫納什大學(xué)�����、韓國延世大學(xué)�、臺灣大學(xué)等有科研合作關(guān)系。研究成果獲國防科學(xué)技術(shù)三等獎(1999,5)����、江蘇省科學(xué)技術(shù)一等獎(2014�����,5)�、教育部科技進步二等獎(2016����,4)、江蘇省科學(xué)技術(shù)獎三等獎(2016�,3)����、中國公路學(xué)會科學(xué)技術(shù)獎二等獎(2016,5)���、中國公路學(xué)會科學(xué)技術(shù)獎一等獎(2018���,11)、江蘇省復(fù)合材料科技進步一等獎(2016����,4)��。
? 受教育經(jīng)歷
1978/03 – 1982/07�,清華大學(xué)���,工程力學(xué)系固體力學(xué)專業(yè)���,工學(xué)學(xué)士。
1982/07 – 1985/03�����,清華大學(xué)���,工程力學(xué)系一般力學(xué)專業(yè)�,工學(xué)碩士�。
2002/01 – 2003/06,香港大學(xué)�����,土木工程系�,哲學(xué)博士。
? 國內(nèi)工作經(jīng)歷
1974/07 – 1975/11�, 江蘇省阜寧縣吳灘公社大溝大隊�,務(wù)農(nóng)���。
1975/11 – 1976/11���, 江蘇省阜寧縣吳灘公社雙港大隊,工作隊隊員���。
1976/11 – 1977/02�����, 江蘇省阜寧縣陳集中學(xué)��,代課教師。
1977/02 – 1978/03���, 江蘇省阜寧縣大劉農(nóng)中�����,民辦教師�����。
1985/03 – 1992/04�, 華東工學(xué)院一系105教研室,講師��。
1992/04 – 1995/05����, 南京理工大學(xué)機械學(xué)院105教研室,副教授�����。
1995/05 – 1999/11�, 南京理工大學(xué)機械學(xué)院105教研室,教授�����。
1999/11 – 2006/04��, 南京理工大學(xué)理學(xué)院力學(xué)與工程科學(xué)系����,教授。
2006/04 至今��, 必贏3003no1線路檢測中心必贏3003no1線路檢測中心建筑工程系,特聘教授�。
? 境外工作經(jīng)歷
1996/06 – 2003/07, 香港大學(xué)土木工程系��,副研究員��、高級研究員����。
2004/07 – 2006/07, 英國曼切斯特大學(xué)航空�����、機械與土木學(xué)院��,博士后����。
2011/06 – 2011/09���, 香港大學(xué)土木工程系���,客座教授����。
2013/02 – 2013/05�, 香港大學(xué)土木工程系,客座教授�����。
? 代表性科研項目
項目名稱�、編號 |
項目來源 |
起止年月 |
基于流體子域法的復(fù)雜柱形儲液系統(tǒng)動力學(xué)特性研究(11172123) |
國家自然科學(xué)基金 |
2012.01– 2015.12 |
人與結(jié)構(gòu)動力相互作用建模研究(11372127) |
國家自然科學(xué)基金 |
2014.01– 2017.12 |
考慮SSI效應(yīng)的大型儲罐動力學(xué)特性及其隔板減晃研究(51978336) |
國家自然科學(xué)基金 |
2020.01– 2023.12 |
大跨徑混凝土梁橋FRP綜合加固技術(shù)研究(2012CB026205-2) |
國家重點基礎(chǔ)研究發(fā)展計劃(973計劃) |
2012.02– 2017.01 |
船-橋碰撞動力學(xué)建模及復(fù)合材料防撞裝置應(yīng)用研究(12KJA580002) |
江蘇省屬高校自然科學(xué)研究重大項目 |
2012.08– 2016.07 |
土-建筑群動力相互作用機理及其地震響應(yīng)特征研究(BK20131410) |
江蘇省自然科學(xué)基金 |
2013.07– 2016.06 |
快速拼裝鋼-混凝土組合梁橋設(shè)計施工技術(shù)研究(2014Y01) |
江蘇省交通廳重大專項課題 |
2014.09– 2016.12 |
? 代表性著作
1.周叮、王玨著�����,土與結(jié)構(gòu)動力相互作用半解析方法��,科學(xué)出版社����,2019。
2.周叮����、王佳棟著,隔板防晃理論及其應(yīng)用,科學(xué)出版社�,2020。
3.周叮著���,靜力梁函數(shù)在結(jié)構(gòu)振動分析中的應(yīng)用���,科學(xué)出版社,2013���。
4.周叮著��,基于切比雪夫-李茲法的結(jié)構(gòu)元三維振動分析����,科學(xué)出版社�����,2007����。
5.靳天佑,高乃同��,魏傳禮����,周叮編著,計算機輔助自動武器設(shè)計����,北京理工大學(xué)出版社,1995���。
? 代表性論文
國際期刊論文(JCR一區(qū)91篇):
1. Yu Wang, Yuxian Zhou, Chuang Feng, Jie Yang, Ding Zhou & Shuguang Wang, Numerical analysis on stability of functionally graded grapheme platelets (GPLs) reinforced dielectric composite plate, Applied Mathematical Modelling 101, 239-258, 2022.
2. Xun Meng, Ding Zhou & Jiadong Wang, Effect of vertical elastic baffle on liquid sloshing in rectangular rigid container, International Journal of Structural Stability and Dynamics 21(12), 2150167-1-23, 2021.
3. Zhong Zhang, Ding Zhou, Jiandong Zhang, Hai Fang & Huixuan Han, Transient analysis of layered beams subjected to steady heat supply and mechanical load, Steel and Composite Structures 40(1), 87-100, 2021.
4. Zhong Zhang, Ding Zhou, Hai Fang & Ruili Huo, Analysis of temperature-dependent layered shells subjected to thermomechanical loading, Mechanics of Advanced Materials and Structures, doi: 10.1080/15376494.2021.1941449, 2021.
5. Zhong Zhang, Ding Zhou, Hai Fang, Jiandong Zhang & Xuehong Li, Analysis of layered rectangular plates under thermo-mechanical loads considering temperature-dependent material properties, Applied Mathematical Modelling 92, 244-260, 2021.
6. Yu Wang, Chuang Feng, Jie Yang, Ding Zhou & Shuguang Wang, Nonlinear vibration of FG-GPLRC dielectric plate with active tuning using differential quadrature method, Computer Methods in Applied Mechanics and Engineering 379, 113761-1-24, 2021.
7. Huixuan Han, Ding Zhou, Tianjian Ji & Jiandong Zhang, Modelling of lateral forces generated by pedestrians walking across footbridges, Applied Mathematical Modelling 89, 1775-1791, 2021.
8. Ying Sun, Ding Zhou, Jiadong Wang & Huixuan Han, Lumped parameter model for liquid sloshing in a cylindrical tank equipped with multiple annular baffles, Journal of Structural Engineering 147(5), 04021042-1-13, 2021.
9. Xun Meng, Ding Zhou, Moon Kyum Kim & Yun Mook Lim, Free vibration and dynamic response analysis of liquid in a rectangular rigid container with an elastic baffle, Ocean Engineering 216, 108119-1-19, 2020.
10. Ying Sun, Ding Zhou, Jiadong Wang & Huixuan Han, Liquid sloshing in a cylindrical tank with multiple baffles under horizontal and pitching motions, International Journal of Applied Mechanics 12(7), 2050080-1-29, 2020.
11. Yu Wang, Chuang Feng, Jie Yang, Ding Zhou & Weiqing Liu, Static response of functionally graded graphene platelet-reinforced composite plate with dielectric property, Journal of Intelligent Material Systems and Structures 31(19), 2211-2228, 2020.
12. Raad Hashim, Tianjian Ji, Parthasarathi Mandal, Qingwen Zhang & Ding Zhou, Human-structure interaction experiments to determine the dynamic properties of the standing human body in vertical vibration, Structures 26, 934-946, 2020.
13. Ruili Huo, Yichen Liu, Peng Wu, Hai Fang, Weiqing Liu & Ding Zhou, Elasticity solutions for sandwich arches considering permeation effect of adhesive, Advances in Polymer Technology, 7358930-1-11, 2020.
14. Hai Qian, Ding Zhou, Jie Yin & Yuexiang Qiu, A theoretical investigation on the thermal response of laminated cylindrical panel, Archive of Applied Mechanics 90(3), 475-493, 2020.
15. Ying Sun, Ding Zhou, Marco Amabili, Jiadong Wang & Huixuan Han, Liquid sloshing in a rigid cylindrical tank equipped with a rigid annular baffle and on soil foundation, International Journal of Structural Stability and Dynamics 20(3), 2050030-1-34, 2020.
16. Zhong Zhang, Ding Zhou, Xiuli Xu & Xuehong Li, Analysis of thick beams with temperature-dependent material properties under thermomechanical loads, Advances in Structural Engineering 23(9), 1838-1850, 2020.
17. Zhong Zhang, Ding Zhou, Hai Fang, Jiandong Zhang & Xuehong Li, Analysis of laminated beams with temperature-dependent material properties subjected to thermal and mechanical loads, Composite Structures 227, 11304, 2019.
18. Hai Qian, Sai-Huen Lo, Ding Zhou & Yang Yang, 3-D Thermo-Stress Field in Laminated Cylindrical Shells, Computer Modeling in Engineering and Sciences 121(1), 215-247, 2019.
19. Xun Meng, Xuehong Li, Xiuli Xu, Jiandong Zhang, Wenling Zhou & Ding Zhou, Earthquake Response of Cylindrical Storage Tanks on an Elastic Soil, Journal of Vibration Engineering and Technologies 7(5), 433-444, 2019.
20. Zhong Zhang, Ding Zhou, Xiuli Xu & Xuehong Li, Stresses of orthotropic laminated beams subjected to high temperature and mechanical load, Theoretical & Applied Mechanics Letters 9(5), 279-284, 2019.
21. L. Ying, X. Meng, D. Zhou, X. Xu, J. Zhang & X. Li, Sloshing of fluid in a baffled rectangular aqueduct considering soil-structure interaction, Soil Dynamics and Earthquake Engineering 122, 132-147, 2019.
22. Y. Sun, D. Zhou & J. Wang, An equivalent mechanical model for fluid sloshing in a rigid cylindrical tank equipped with a rigid annular baffle, Applied Mathematical modelling 72, 569-587, 2019.
23. Ding Zhou, Jianshi Fan, Hongwei Wang & Xiaopeng Zhang, Three-Dimensional Dynamics Analysis of Rotating Functionally Gradient Beams Based on Timoshenko Beam Theory, International Journal of Applied Mechanics 11(4), 1950040, 2019.
24. Jue Wang, Ding Zhou, Yuquan Zhang & Wei Cai, Vertical impedance of a tapered pile in inhomogeneous saturated soil described by fractional viscoelastic model, Applied Mathematical Modelling 75, 88-100, 2019.
25. Z.Y. Pei, L. Wang, P. Wu, J.D. Zhang & D. Zhou, Analytical solution of deformations for two-layer Timoshenko beams glued by a viscoelastic interlayer, Mathematical Problems in Engineering, 7620816-1-15, 2019.
26. J.D. Wang, S.H. Lo, D. Zhou & Y. Dong, Nonlinear sloshing of liquid in a rigid cylindrical container with a rigid annular baffle under lateral excitation, Shock and Vibration, 5398038, 2019.
27. Z. Zhang, W.L. Zhou, D. Zhou, R.L. Huo & X.L. Xu, Elasticity solution of laminated beams with temperature-dependent material properties under a combination of uniform thermo-load and mechanical loads, Journal of South Central University 25(10), 2537-2549, 2018.
28. Jiadong Wang & Ding Zhou, Coupled responses of partially liquid-filled container with multi elastic annular baffles under lateral excitations, ASCE Journal of Aerospace Engineering 31(6), 04018102, 2018.
29. Jue Wang & Ding Zhou, A simple model for vertical dynamic interactions among a group of strip footings rested on homogeneous half-space, Shock and Vibration, 7382392, 2018.
30. Q. Liu, D. Zhou, J. Wang & W. Liu, Mechanical behavior of FRP confined steel tubular columns under impact load, Steel and Composite Structures 27: 691-702, 2018.
31. Peng Wu, Ding Zhou, Weiqing Liu & Hai Fang, Time-dependent behavior of layered arches with viscoelastic interlayers, Mechanics of Time-Dependent Materials 22(3), 315-330, 2018.
32. Jianshi Fang, Ding Zhou & Yun Dong, Three-dimensional vibration of rotating functionally graded beams, Journal of Vibration and Control 24(15), 3292-3306, 2018.
33. Ruili, Huo, Weiqing Liu, Peng Wu & Ding Zhou, Analytical solutions for sandwich plates considering permeation effect by 3-D elasticity theory, Steel and Composite Structures 25, 127-139, 2017.
34. Peng Wu, Ding Zhou, Weiqing Liu, Weidong Lu & Li Wan, Three-dimensional elasticity solution of layered plates with viscoelastic interlayers, Mechanics of Time-Dependent Materials 21(3), 307-329, 2017.
35. Huixuan Han, Ding Zhou & Tianjian Ji, Mechanical Parameters of standing body and applications in human-structure interaction, International Journal of Applied Mechanics 9(2), 1750021, 2017.
36. Ying Sun & Ding Zhou, Natural frequency of bridge pier considering soil shear effect in layer foundation, International Journal of Engineering and Technology 9, 474-479, 2017.
37. Ze-jun Liu, Yong Huang, Ding Zhou & Hong Ge, Analysis of external water pressure for a tunnel in fractured rocks, Geofluids 2017, 8618613, 2017.
38. Hai Qian, Ding Zhou, Weiqing Liu, Weidong Lu & Hai Fang, Thermal stresses in layered thick cylindrical shells of infinite length, Journal of Thermal Stresses 40(3), 322-343, 2017.
39. Peng Wu, Ding Zhou, Weiqing Liu, Weidong Lu & Hai Fang, 3-D exact solution of two-layer plate bonded by a viscoelastic interlayer with memory effect, Composite Structures 164, 291-303, 2017.
40. J. Wang, D. Zhou, T. Ji & S. G. Wang, Horizontal dynamic stiffness and interaction factors of inclined piles, ASCE International Journal of Geomechanics 17(9), 04017075, 2017.
41. J.S. Fang & D. Zhou, Free vibration analysis of rotating Mindlin plates with variable thickness, International Journal of Structural Stability and Dynamics 17, 1750046, 2017.
42. J.S. Fang & D. Zhou, In-plane vibration analysis of rotating tapered Timoshenko beams, International Journal of Applied Mechanics 8, 1650064, 2016.
43. Peng Wu, Ding Zhou, Weiqing Liu, Li Wan & Duo Liu, Elasticity solution of two-layer beam with a viscoelastic interlayer considering memory effect, International Journal of Solids and Structures 94-95, 76-86, 2016.
44. J. Wang, D. Zhou, W.Q. Liu & S.G. Wang, Nested lumped-parameter model for foundation with strongly frequency-dependent impedance, Journal of Earthquake Engineering 20, 975-991, 2016.
45. J.D. Wang, D. Zhou & W.Q. Liu, Coupled response of liquid in a rigid cylindrical container equipped with an elastic annular baffle, Meccanica 51, 2045-2058, 2016.
46. P. Wu, D. Zhou & W.Q. Liu, 2-D elasticity solutions of two-layer composite beams with an arbitrarily shaped interface, Applied Mathematical Modelling 40, 1477-1493, 2016.
47. P. Wu, D. Zhou & W.Q. Liu, 2-D elasticity solution of layered composite beams with viscoelastic interlayers, Mechanics of Time-Dependent Materials 20, 65-84, 2016.
48. D. Zhou, H. Han, T. Ji, X. Xu, Comparison of two models for human-structure interaction, Applied Mathematical Modelling 40, 3738-3748, 2016.
49. J.S. Fang & D. Zhou, Free vibration analysis of rotating axially functionally graded tapered Timoshenko beams, International Journal of Structural Stability and Dynamics 16, 1550007 (19pages), 2016.
50. Xiuli Xu, Xiang Xu, Weiqing Liu & Ding Zhou, A New Formula of Impact Stiffness in Linear Viscoelastic Model for Pounding Simulation, Shock and Vibration, 2016 (2016), Article ID 5861739, 7 pages.
51. J. Wang, H. GangaRao, R. Liang, D. Zhou, W. Liu & Y. Fang, Durability of glass fiber-reinforced polymer composites under the combined effects of moisture and sustained loads, Journal of Reinforced Plastics and Composites 34, 1739-1754, 2015.
52. D. Zhou & S.H. Lo, 3-D free vibration analysis of doubly-curved shells, Journal of Vibration and Control 21, 2306-2324, 2015.
53. H. Qian, D. Zhou, W.Q. Liu & H. Fang, Elasticity Solution of laminated beams subjected to thermo-loads, Journal of Central South University 22, 2297-2305, 2015.
54. J. Fang & D. Zhou, Free vibration analysis of rotating axially functionally graded-tapered beams using Chebyshev–Ritz method, Materials Research Innovations 19, S5-1255-S5-1262, 2015.
55. H. Qian, D. Zhou, W.Q. Liu, H. Fang & W.D. Lu, Elasticity solutions of simply supported laminated cylindrical arches subjected to thermo-loads, Composite Structures 131, 273-281, 2015.
56. J. Wang, S.H. Lo & D. Zhou, Frequency-dependent impedance of a strip foundation group and its representation in time domain, Applied Mathematical Modelling 39, 2861-2881, 2015.
57. H. Qian, D. Zhou, W.Q. Liu, H. Fang & W.D. Lu, 3-D elasticity solutions of layered rectangular plates subjected to thermo-loads, Journal of Thermal Stresses 38, 377-398, 2015.
58. F. Zhang, W. Liu, L.Wang, Y. Qi, D. Zhou & H. Fang, Flexural behavior of hybrid composite beams with a bamboo layer and lattice ribs, Journal of Reinforced Plastics and Composites 34, 521-533, 2015.
59. D. Zhou, J.D. Wang & W.Q. Liu, Nonlinear free sloshing of liquid in rigid cylindrical container with a rigid annular baffle, Nonlinear Dynamics 78, 2557-2576, 2014.
60. J. Wang, W. Liu & D. Zhou, Mechanical behaviour of CFDST stub columns confined by FRP under axial compression, Steel and Composite Structures 17, 431-452, 2014.
61. J. Wang, S.H. Lo & D. Zhou, Effect of a forced harmonic vibration pile to its adjacent pile in layered elastic soil with double shear model, Soil Dynamics and Earthquake Engineering 67, 54-65, 2014.
62. J. Wang, D. Zhou & W.Q. Liu, Horizontal impedance of pile groups considering shear behavior of multilayered soils, Soils and Foundations 54, 927-937, 2014.
63. Y.P. Xu, T. Yu & D. Zhou, Two-dimensional elasticity solution for bending of functionally graded beams with variable thickness, Meccanica 49, 2479-2489, 2014.
64. Zhibin Ling, Huifeng Yang, Weiqing Liu, Weidong Lu, Ding Zhou & Lu Wang, Pull-out strength and bond behaviour of axially loaded rebar glued-in glulam, Construction & Building Materials 65, 440-449, 2014.
65. H. Qian, D. Zhou, W.Q. Liu & H. Fang, 3-D elasticity solutions of simply supported laminated rectangular plates in uniform temperature field, Journal of Thermal Stresses 37, 661-677, 2014.
66. J.D. Wang, S.H. Lo & D. Zhou, Sloshing of liquid in rigid cylindrical container with multiple rigid annular baffles: Lateral excitations, Journal of Fluids and Structures 42, 421-436, 2013.
67. D. Zhou & S.H. Lo, Three-dimensional vibration analysis of twisted cylinder with sectorial cross-section, ASME Journal of Applied Mechanics 80, 021016-1-021016-10, 2013.
68. T. Ji, D. Zhou & Q. Zhang, Models of a standing human body in vertical vibration, Proceedings of the Institution of Civil Engineers-Structures and Buildings 166, 367-378, 2013.
69. H. Wang, W. Liu, D. Zhou, S. Wang & D. Du, Lumped-parameter model of foundations based on complex Chebyshev polynomial fraction, Soil Dynamics and Earthquake Engineering 50, 192-203, 2013.
70. D. Zhou & O.G. McGee, On the three-dimensional vibrations of elastic prisms with skew cross-section, Meccanica 48, 993-1016, 2013.
71. J.D. Wang, D. Zhou & W.Q. Liu, Study on coupled vibration characteristics of a cylindrical tank with multiple flexible annual baffles, Science in China (Technological Sciences) 55, 3292-3301, 2012.
72. J.D. Wang, D. Zhou & W.Q. Liu, Sloshing of liquid in rigid cylindrical container with a rigid annular baffle. Part I: free vibration, Shock and Vibration 19, 1185-1203, 2012.
73. J.D. Wang, D. Zhou & W.Q. Liu, Sloshing of liquid in rigid cylindrical container with a rigid annular baffle. Part II: lateral excitation, Shock and Vibration 19, 1205-1222, 2012.
74. J.D. Wang, S.H. Lo & D. Zhou, Liquid sloshing in rigid cylindrical container with multiple rigid annular baffles: free vibration, Journal of Fluids and Structures 34, 138-156, 2012.
75. Y. Xu & D. Zhou, Two-dimensional thermoelastic analysis of beams with variable thickness subjected to thermomechanical loads, Applied Mathematical Modelling 36, 5818-5829, 2012.
76. D. Zhou & S.H. Lo, Three-dimensional vibrations of annular thick plates with linearly varying thickness, Archive of Applied Mechanics 82, 111-135, 2012.
77. D. Zhou & T. Ji, Free vibration of rectangular plates with attached discrete sprung masses, Shock & Vibration 19, 101-112, 2012.
78. D. Zhou, T. Ji & W. Liu, Dynamic characteristics of a standing human on a SDOF structure, Advances in Vibration Engineering 11, 85-98, 2012.
79. Jue Wang, Ding Zhou, Weiqing Liu & Shuguang Wang, Rocking response of a surface-supported strip foundation under a harmonic swaying force, Applied Mechanics and Materials 226-228, 1453-1457, 2012.
80. H. Qian, D. Zhou & W. Liu, Temperature field in simply supported laminated beam, Advanced Materials Research 430-432, 181-184, 2012.
81. Xu Xiang, Liu Weiqing, Xu Xiuli, Zhou Ding, Li Xuehong & Li Zhijun, Parameter effect of side retainers on seismic response of bridges with flexible rubber bearings, Advanced Materials Research 255-260, 1280-1284, 2011.
82. D. Xu, W. Liu , D. Zhou, J. Ding, Y. Lei & W. Lu, The study on mechanical properties of single-bolted steel-glulam-steel joints, Advanced Materials Research 255-260, 204-208, 2011.
83. Z. Sun, W. Liu, S. Wang, D. Zhou & D. Du, A direct displacement-based design method based on Chinese code of base isolated structures, Advanced Materials Research 255-260, 2555-2559, 2011.
84. J. Wang, D. Zhou & W. Liu, Response of liquid in cylindrical tank with rigid annual baffle considering damping effect, Advanced Materials Research 255-260, 3687-3691, 2011.
85. H. Wang, W. Liu, S. Wang, D. Du & D. Zhou, Study on lumped-parameter model of surface circular foundation, Advanced Materials Research 261-263, 980-984, 2011.
86. Y. Xu & D. Zhou, Two-dimensional analysis of simply supported piezoelectric beams with variable thickness, Applied Mathematical Modelling 35, 4458-4472, 2011.
87. D. Zhou, W.Q. Liu & O.G. McGee, On the three-dimensional vibrations of a hollow elastic torus of annular cross-section, Archive of Applied Mechanics 81, 473-487, 2011.
88. D. Zhou, Y.K. Cheung & S.H. Lo, Three-dimensional vibration analysis of toroidal sectors with solid cross-section, ASME Journal of Applied Mechanics 77, 555-562, 2010.
89. Y. Xu, D. Zhou & K. Liu, Three-dimensional thermoelastic analysis of rectangular plates with variable thickness subjected to thermo-mechanical loads, Journal of Thermal Stresses 33, 1136-1155, 2010.
90. D. Zhou, Y.K. Cheung & S.H. Lo, 3-D vibration analysis of circular rings with sectorial cross-sections, Journal of Sound and Vibration 329, 1523-1535, 2010.
91. D. Zhou, Y.K. Cheung, S.H. Lo & F.T.K. Au, Three-dimensional vibration analysis of prisms with isosceles triangular cross-section, Archive of Applied Mechanics 80, 699-710,2010.
92. Y.P. Xu & D. Zhou, Three-dimensional elasticity solution of transversely isotropic rectangular plates with variable thickness, Iranian Journal of Science and Technology-B 34, 353-369, 2010.
93. D. Zhou, S.H. Lo & Y.K. Cheung, 3-D vibration analysis of annular sector plates using the Chebyshev–Ritz method, Journal of Sound and Vibration 320, 421-437, 2009.
94. Y.P. Xu & D. Zhou, Three-dimensional elasticity solution of functionally graded rectangular plates with variable thickness, Composite Structures 91, 56-65, 2009.
95. Y.P. Xu & D. Zhou, Three-dimensional elasticity solution of simply supported functionally graded rectangular plates with internal elastic line supports, Journal of Strain Analysis for Engineering Design 44, 249-261, 2009.
96. Y.P. Xu & D. Zhou, Elasticity solution of multi-span beams with variable thickness under static loads, Applied Mathematical Modelling 33, 2951-2966, 2009.
97. Y. P. Xu & D. Zhou, Three-dimensional elasticity solution of simple-supported rectangular plate on point supports, line supports and elastic foundation, Science in China (series E) 52, 584-589, 2009.
98. D. Zhou, W.Q. Liu & Q.L. Yang, Three-dimensional vibration analysis of cantilevered skew plates, Journal of Sound and Vibration 313, 134-148, 2008.
99. Y.P. Xu & D. Zhou, Three-dimensional elasticity solution for simply supported rectangular plates with variable thickness, Journal of Strain Analysis for Engineering Design 43, 165-176, 2008.
100. Y. P. Xu, D. Zhou & Y.K. Cheung, Elasticity solution of clamped-simply supported beams with variable thickness, Applied Mathematics and Mechanics 29, 279-290, 2008.
101. D. Zhou & T. Ji, Dynamic characteristics of a generalised suspension system, International Journal of Mechanical Sciences 50, 30-42, 2008.
102. D. Zhou & W.Q. Liu, Hydroelastic vibrations of flexible rectangular tanks partially filled with liquid, International Journal for Numerical Methods in Engineering 71, 149-174, 2007.
103. D. Zhou & W.Q. Liu, Bending-torsion vibration of a partially submerged cylinder with an arbitrary cross-section, Applied Mathematical Modelling 31, 2249-2265, 2007.
104. D. Zhou & T. Ji, Estimation of dynamic characteristics of a spring-mass-beam system, Shock and Vibration 14, 271-282, 2007.
105. D. Zhou, F.T.K. Au, Y.K. Cheung & S.H. Lo, Effect of built-in edges on 3-D vibrational characteristics of thick circular plates, International Journal of Solids and Structures 43, 1960-1978, 2006.
106. D. Zhou & T. Ji, Dynamic characteristics of a beam and distributed-spring-mass system, International Journal of Solids and Structures 43, 5555-5569, 2006.
107. D. Zhou, S.H. Lo, F.T.K. Au & Y.K. Cheung, Three-dimensional free vibration of thick circular plates on Pasternak foundation, Journal of Sound and Vibration 292, 726-741, 2006.
108. D. Zhou & T. Ji, Free vibration of rectangular plates with internal column supports, Journal of Sound and Vibration 297, 146-166, 2006.
109. D. Zhou, S.H. Lo, F.T.K. Au, Y.K. Cheung & W.Q. Liu, 3-D vibration analysis of skew thick plates using Chebyshev-Ritz method, International Journal of Mechanical Sciences 48, 1481-1493, 2006.
110. D. Zhou & T. Ji, Free vibration of rectangular plates with continuously distributed spring-mass, International Journal of Solids and Structures 43, 6502-6520, 2006.
111. D. Zhou & T. Ji, Hydroelastic vibration of circular bottom plate of a sealed circular cylindrical tank, Advances in Vibration Engineering 4, 297-314, 2005.
112. D. Zhou, Y.K. Cheung, S.H. Lo & F.T.K. Au, 3D vibration analysis of rectangular plates with mixed boundary conditions, ASME Journal of Applied Mechanics 72, 227-236, 2005.
113. D. Zhou, Y.K. Cheung, S.H. Lo & F.T.K. Au, Three-dimensional vibration analysis of rectangular thick plates on Pasternak foundation, International Journal for Numerical Methods in Engineering 59, 1313-1334, 2004.
114. D. Zhou, S.H. Lo, Y.K. Cheung & F.T.K. Au, 3-D vibration analysis of generalized supper elliptical plates using Chebyshev-Ritz method, International Journal of Solids and Structures 41, 4697-4712, 2004.
115. D. Zhou, F.T.K. Au, Y.K. Cheung & S.H. Lo, Three-dimensional vibration analysis of circular and annular plates via the Chebyshev–Ritz method, International Journal of Solids and Structures 40, 3089-3105, 2003.
116. D. Zhou, Y.K. Cheung, S.H. Lo & F.T.K. Au, 3-D vibration analysis of solid and hollow circular cylinders via Chebyshev-Ritz method, Computer Methods in Applied Mechanics and Engineering 192, 1575-1589, 2003.
117. Y.K. Cheung & D. Zhou, Vibrations of tapered Mindlin plates in terms of static Timoshenko beam functions, Journal of Sound and Vibration 260, 693-709, 2003.
118. D. Zhou, Vibrations of point-supported rectangular plates with variable thickness using a set of static tapered beam functions, International Journal of Mechanical Sciences 44, 149-164, 2002.
119. D. Zhou, F.T.K. Au, S.H. Lo & Y.K. Cheung, Three-dimensional vibration analysis of a torus with circular cross-section, Journal of the Acoustical Society of America 112, 2831-2840, 2002.
120. D. Zhou, Y.K. Cheung, F.T.K. Au & S.H. Lo, Three-dimensional vibration analysis of thick rectangular plates using Chebyshev polynomial and Ritz method, International Journal of Solids and Structures 39, 6339-6353, 2002.
121. Y.K. Cheung & D. Zhou, Three-dimensional vibration analysis of cantilevered and completely free isosceles triangular plates, International Journal of Solids and Structures 39, 673-687, 2002.
122. Y.K. Cheung & D. Zhou, Hydroelastic vibration of a circular container bottom plate using the Galerkin method, Journal of Fluids and Structures 16, 561-580, 2002.
123. D. Zhou, S.H. Lo, F.T.K. Au & Y.K. Cheung, Vibration analysis of rectangular Mindlin plates with internal line supports using static Timoshenko beam functions, International Journal of Mechanical Sciences 44, 2503-2522, 2002.
124. D. Zhou, Discussion on “Free vibrations of beams with general boundary conditions”, Journal of Sound and Vibration 257, 589-592, 2002.
125. D. Zhou, Vibrations of Mindlin rectangular plates with elastically restrained edges using static Timoshenko beam functions with the Rayleigh-Ritz method, International Journal of Solids and Structures 38, 5565-5580, 2001.
126. D. Zhou, Free vibration of multi-span Timoshenko beams using static Timoshenko beam functions, Journal of Sound and Vibration 241, 725-734, 2001.
127. D. Zhou & Y.K. Cheung, Vibrations of tapered Timoshenko beams in terms of static Timoshenko beam functions, ASME Journal of Applied Mechanics 68, 596-602, 2001.
128. Y.K. Cheung & D. Zhou, Free vibrations of rectangular unsymmetrically laminated composite plates with internal line-supports, Computers and Structures 79, 1923-1932, 2001.
129. Y.K. Cheung & D. Zhou, Vibration analysis of symmetrically laminated rectangular plates with intermediate line-supports, Computers and Structures 79, 33-41, 2001.
130. D. Zhou & Y.K. Cheung, Vibrations of elastic bottom plate of a sealed rectangular container fully filled with liquid, International Journal of Structural Stability and Dynamics 1, 145-162, 2001.
131. D. Zhou & Y.K. Cheung, Vibration of vertical rectangular plates in contact with water on one side, Earthquake Engineering and Structural Dynamics 29, 693-710, 2000.
132. D. Zhou, Y.K. Cheung & J. Kong, Free vibration of thick, layered rectangular plates with point supports by finite layer method, International Journal of Solids and Structures 37, 1483-1499, 2000.
133. D. Zhou & Y.K. Cheung, The free vibration of a type of tapered beams, Computer Methods in Applied Mechanics and Engineering 188, 203-216, 2000.
134. Y.K. Cheung & D. Zhou, Vibrations of moderately thick rectangular plates in terms of a set of static Timoshenko beam functions, Computers and Structures 78, 757-768, 2000.
135. Y.K. Cheung & D. Zhou, Coupled vibratory characteristics of a rectangular container bottom plate, Journal of Fluids and Structures 14, 339-357, 2000.
136. Y.K. Cheung & D. Zhou, Vibrations of rectangular plates with elastic intermediate line-supports and edge constraints, Thin-walled Structures 37, 305-331, 2000.
137. Y.K. Cheung & D Zhou, Eigenfrequencies of tapered rectangular plates with intermediate line supports, International Journal of Solids and Structures 36, 143-166, 1999.
138. Y.K. Cheung & D. Zhou, The free vibrations of rectangular composite plates with point-supports using static beam functions, Composite Structures 44, 145-154, 1999.
139. D. Zhou & Y.K. Cheung, The free vibration of line supported rectangular plates using a set of static beam functions, Journal of Sound and Vibration 223, 231-245, 1999.
140. Y.K. Cheung & D. Zhou, Free vibrations of tapered rectangular plates using a new set of beam functions in Rayleigh-Ritz method, Journal of Sound and Vibration 223, 703-722, 1999.
141. Zhou Ding & Y.K. Cheung, Eigenfrequencies of tapered beams with intermediate point supports, International Journal of Space Structures 13, 87-95, 1998.
142. Zhou Ding, The vibrations of a cantilever beam carrying a heavy tip mass with elastic supports, Journal of Sound and Vibration 206, 275-279, 1997.
143. Zhou Ding, Natural frequencies of rectangular plates using a set of static beam functions in Rayleigh-Ritz method – Reply, Journal of Sound and Vibration 200, 541-542, 1997.
144. Zhou Ding, Natural frequencies of rectangular plates using a set of static beam functions in the Rayleigh-Ritz method, Journal of Sound and Vibration 189, 81-87, 1996.
145. Zhou Ding, An exact method of bending of elastic thin plates with arbitrary shape, Applied Mathematics and Mechanics 17, 1189-1192, 1996.
146. Zhou Ding, An analytical solution of transverse vibration of rectangular plates simply supported at two opposite edges with arbitrary number of elastic line supports in one way, Applied Mathematics and Mechanics 17, 773-780, 1996.
147. Zhou Ding, An approximate solution of eigen-frequencies of transverse vibration of rectangular plates with elastical restraints, Applied Mathematics and Mechanics 17, 451-456, 1996.
148. Zhou Ding, Natural frequencies of elastically restrained rectangular plates using a set of static beam functions in the Rayleigh-Ritz method, Computers and Structures 57, 731-735, 1995.
149. Zhou Ding, Eigenfrequencies of line supported rectangular plates, International Journal of Solids and Structures 31, 347-358, 1994.
150. Zhou Ding, Torsional vibration of uniform columns with arbitrarily shaped cross-section partially submerged in water, Computers and Structures 53, 35-41, 1994.
151. Zhou Ding, Free vibration of arbitrarily shaped plates with elastic or/and rigid concentric ring supports, Computers and Structures 50, 685-692, 1994.
152. Zhou Ding, The application of a type of new admissible functions to the vibration of rectangular plates, Computers and Structures 52, 199-203, 1994.
153. Zhou Ding, Free bending vibration of annular cylindrical tank partially filled with liquid in the consideration of surface wave, Applied Mathematics and Mechanics 15, 831-840, 1994.
154. Zhou Ding, A general solution to vibrations of beams on variable Winkler elastic foundation, Computers and Structures 47, 83-90, 1993.
155. Zhou Ding, Vibration of uniform columns with arbitrarily shaped cross-sections partially submerged in water considering the effect of surface wave and compressibility of water, Computers and Structures 46, 1049-1054, 1993.
156. Zhou Ding, An approximate solution with high accuracy of transverse bending of thin rectangular plates under arbitrarily distributed loads, Applied Mathematics and Mechanics 14, 241-246, 1993.
157. Zhou Ding, Vibration of an arbitrarily shaped membrane carrying elastically mounted masses, Computers and Structures 42, 389-394, 1992.
158. Zhou Ding, The free bending vibration of cylindrical tank partially filled with liquid and submerged in water, Applied Mathematics and Mechanics 11, 469-478, 1990.
159. Zhou Ding, Vibration of arbitrarily shaped membranes with elastical supports at points, Applied Mathematics and Mechanics 10, 1171-1177, 1989.
160. Zhou Ding, Transverse vibration of rectangular plates elastically supported at points on edges, Applied Mathematics and Mechanics 10, 979-987, 1989.
國內(nèi)期刊論文:
1. 李國榮,周叮,李雪紅����,霍瑞麗,任意面內(nèi)荷載作用下薄圓盤的自由振動與屈曲分析�,振動工程學(xué)報,34(5)��,1001-1008���,2021��。
2. 裴智毅��,吳鵬�����,周叮����,徐秀麗,基于彈性力學(xué)的鋪橋面鋪裝層應(yīng)力分析����,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版),43(4)�����,497-502+522���,2021��。
3. 周文鑫���,周叮,張建東���,劉朵����,多跨高墩變截面梁橋的動力學(xué)特性研究�,振動與沖擊,40(16)�,114-121,2021�����。
4. 張姍��,周叮��,韓慧璇�����,張建東�,胡朝斌,T型裂紋梁的自振特性分析���,振動與沖擊��,40(9)��,30-36�����,2021�����。
5. 杭子豪����,劉朵,張建東�����,周叮�����,鋼桁腹-混凝土組合梁橋受彎性能分析��,應(yīng)用力學(xué)學(xué)報��,37(4),1564-1572�,2020。
6. 李國榮�����,王磊�����,胡朝斌����,周叮�,典型邊界條件下加筋矩形板的橫向振動特性分析,振動與沖擊����,39(16),261-266����,274,2020���。
7. 趙佳雷����,周叮,張建東����,胡朝斌,基于彈性力學(xué)的裂縫梁自由振動分析�,振動與沖擊,39(12)�,78-84,102�,2020。
8. 王磊���,安景峰���,徐秀麗,周叮���,胡朝斌���,單向加勁矩形板面內(nèi)振動特性分析���,結(jié)構(gòu)工程師,32(2)�����,28-34���,2020�����。
9. 趙佳雷,周叮����,張建東,胡朝斌�,基于Chebyshev-Ritz法分析多裂紋梁自振特性,浙江大學(xué)學(xué)報(工學(xué)版)���,54(4)��,778-786�,2020。
10. 王玨��,周叮����,基于子結(jié)構(gòu)方法的土-結(jié)構(gòu)動力相互作用半解析方法研究現(xiàn)狀綜述,世界地震工程����,35(2),96-106�����,2019�����。
11. 徐秀麗�����,尹東亞�,李枝軍,唐雨生,周叮�����,新型組合結(jié)構(gòu)高墩的靜力學(xué)分析方法���,中國公路學(xué)報�����,32(2)�����,77-86�,2019��。
12. 蔣杰����,周叮��,胡朝斌�����,基于彈性力學(xué)的端部有裂縫懸臂梁的自由振動分析,振動與沖擊 38(15)���,196-201��,2019��。
13. 蔣杰�����,周叮����,兩端有裂紋固支深梁的振動特性分析�,建筑結(jié)構(gòu)學(xué)報,39(S2)�����,183-190����,2018��。
14. 陳祺�����,周叮��,劉朵��,張建東�����,集簇式彈性連接組合梁橋的力學(xué)性能分析�����,應(yīng)用力學(xué)學(xué)報���,35(1),211-217�����, 2018����。
15. 王玨,周叮���,基于阻抗函數(shù)的土?基礎(chǔ)?風機支撐結(jié)構(gòu)地震響應(yīng)建模方法����,應(yīng)用數(shù)學(xué)和力學(xué)�����,39(11)�,1246-1257,2018��。
16. 丁馴�����,周叮��,張建東���,劉朵�����,預(yù)張拉CFRP布增強加筋矩形板的動力特性分析,振動與沖擊��,36(6)�,124-129�,2018。
17. 應(yīng)磊��,周叮����,房忠杰�,帶隔板矩形貯箱俯仰晃動研究,振動與沖擊�����,37(8)�,54-59,2018�。
18. 薛宗濤,周叮�����,劉朵���,張建東����,集簇式組合梁橋振動特性的彈性力學(xué)解�����,應(yīng)用力學(xué)學(xué)報��,35(3)���,538-543����, 2018����。
19. 王章進��,周叮��,陸偉東���,四邊簡支CLT板的動力特性分析,結(jié)構(gòu)工程師�,34(4),21-30��,2018���。
20. 徐秀麗�,唐雨生�,周叮,李雪紅��,尹東亞��,新型自耗能高墩抗震性能研究���,中國公路學(xué)報����,30(12)���,81-88,2017����。
21. 應(yīng)磊�����,周叮���,王玨,房忠杰���,周文領(lǐng),考慮SSI效應(yīng)的帶隔板渡槽動力特性及其地震響應(yīng),振動工程學(xué)報�����,30(6)��,1001-1011����,2017。
22. 楊瀟然����,周叮,王玨���,考慮SSI效應(yīng)的矩形渡槽動力響應(yīng)分析�,地震工程與工程振動����, 37(4), 146-157��,2017���。
23. 陳峰���,周叮�,張建東��,劉朵�,預(yù)張拉CFRP加固簡支梁的動力特性分析,玻璃鋼/復(fù)合材料��,(5)�,5-10�,2017。
24. 陳祺�,周叮,劉朵��,張建東��,集簇式剛性連接組合梁橋的力學(xué)性能分析�,力學(xué)季刊,38(3)��,487-495����,2017����。
25. 王林��,吳鵬����,周叮,張建東����,黏彈性膠合鐵木辛柯梁的力學(xué)性能分析,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)�����,39(5)���,85-114�,2017���。
26. 王玨����,周叮,劉偉慶�����,相鄰明置剛性條形基礎(chǔ)的水平-搖擺耦合阻抗研究����,振動工程學(xué)報,29(2)��,253-260����,2016��。
27. 韓慧璇�,周叮,靜立人群與板聯(lián)合系統(tǒng)動力學(xué)特性研究�,振動與沖擊,35 (13)�����,186-193, 2016。
28. 陳超��,周叮�����,劉朵�����,張建東�,預(yù)應(yīng)力CFRP加固簡支梁的彈性力學(xué)解析解,玻璃鋼/復(fù)合材料��,(1)��,17-22���,2016���。
29. 孫昊,周叮�,劉偉慶,李枝軍���,人群簡化模型與人行橋TMD參數(shù)設(shè)計研究����,振動與沖擊,35(4)����,217-223,2016�����。
30. 房忠潔�,周叮,王佳棟�����,劉偉慶��,帶隔板的矩形截面渡槽內(nèi)液體的晃動特性�,振動與沖擊�����,35(3),169-175�����,2016����。
31. 張富賓,劉偉慶����,齊玉軍,周叮���,方海��,芯材密度對復(fù)合材料夾層梁彎曲力學(xué)性能影響��,玻璃鋼/復(fù)合材料�����,(3)����,13-17,2016����。
32. 陸建,周叮���,李枝軍����,劉偉慶�����,直立人體-結(jié)構(gòu)側(cè)向相互作用動力學(xué)特性分析�����,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)����,37(6),61-68�,2015�。
33. 祝露�����,劉偉慶�,方海����,周叮,內(nèi)河橋梁用新型復(fù)合材料防船撞護舷的結(jié)構(gòu)設(shè)計與工程應(yīng)用�����,玻璃鋼/復(fù)合材料��,(7)����,63-68,2015�����。
34. 余洋����,周叮��,劉偉慶��,彈性地基上含格構(gòu)復(fù)合材料夾層梁的能量法靜力分析�,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)��,37(5)����,79-85+107,2015����。
35. 冒一鋒,劉偉慶�����,周叮���,方海�����,莊勇�,船橋碰撞時船艏的剛度簡化模型�,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版),37(5)���,67-72��,2015����。
36. 冒一鋒�����,劉偉慶����,方海,周叮���,韓娟����,烏龍江大橋船撞力及復(fù)合材料防撞系統(tǒng)研究,公路工程���,(4)�,28-32�����,2015��。
37. 趙倧����,周叮,王俊���,劉偉慶�����,局部受壓混凝土圓柱及其FRP增強的彈塑性分析,材料科學(xué)與工程學(xué)報�����,33(2)���,420-424�����,2015�����。
38. 周叮,孫昊�,劉偉慶,李枝軍�����,廣義人體-結(jié)構(gòu)-TMD耦合系統(tǒng)���,東南大學(xué)學(xué)報(自然科學(xué)版)��,45(2)���,348-353,2015�����。
39. 柳偉,周叮��,劉偉慶���,王佳棟��,基于概率密度演化的帶有環(huán)形隔板圓柱形罐體中流體的晃動研究���,振動與沖擊,34(11)�,110-115,2015�����。
40. 秦念�����,周叮��,劉偉慶,王佳棟�,水平激勵下任意截面柱形儲液罐內(nèi)液體的晃動響應(yīng)��,工程力學(xué)�,32(2)��,178-182,2015����。
41. 王玨,周叮��,劉偉慶,王曙光�,基于格林函數(shù)的相鄰條形基礎(chǔ)搖擺動力相互作用,巖土力學(xué),36(1)�����,97-103��,2015���。
42. 趙倧,周叮��,王俊�����,劉偉慶���,承壓疊層圓柱彈性分析���,江蘇大學(xué)學(xué)報�,36(1)���,103-107�����,2015�。
43. 劉偉慶��,方海�����,祝露��,莊勇�,周叮�����,潤揚長江公路大橋船撞數(shù)值模擬與復(fù)合材料防撞系統(tǒng)設(shè)計����,玻璃鋼/復(fù)合材料�,(12)���,5-12���,2014�����。
44. 錢長根,劉偉慶,方海����,祝露,周叮����,吳淞江大橋橋墩抗船撞能力評估研究,公路工程���,(6)�����,61-65���,2014。
45. 張富賓����,劉偉慶�,齊玉軍�,周叮,方海�,彈性支承上四邊簡支復(fù)合材料層合板屈曲性能分析�����,科學(xué)技術(shù)與工程�����,168-172,2014���。
46. 秦念,周叮,劉偉慶����,王佳棟�����,水平激勵下橢圓環(huán)形截面儲液罐內(nèi)液體的晃動響應(yīng),必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)��,36(4),84-88,2014。
47. 邱曄�,周叮���,陸偉東,穿斗木結(jié)構(gòu)承載能力精確分析及優(yōu)化設(shè)計����,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版),36(1)�����,71-76�����,2014���。
48. 王力����,周叮�,劉偉慶,王曙光���,杜東升���,場地盆地效應(yīng)的振動臺試驗�,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)�����,36(2)��,107-111�����,2014���。
49. 趙凱,周叮����,劉偉慶,方海��,浸透層對層合梁力學(xué)性能的影響分析��,玻璃鋼/復(fù)合材料,(1)��,43-47��,2014����。
50. 包銳,周叮���,劉偉慶�����,王曙光�����,杜東升�����,粘彈性人工邊界及其在盆地地震效應(yīng)研究中的應(yīng)用����,世界地震工程,29(4)�����,133-140���,2013����。
51. 王 玨�,周 叮,劉偉慶��,王曙光�����,杜東升��,考慮成層土剪切效應(yīng)的相鄰樁基動力相互作用��,振動工程學(xué)報�����,26(5)�,732-742,2013����。
52. 岳 孔,毛旭冉�,周叮,陸偉東��,膠合木構(gòu)件的傳濕性能�����,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)��,35(4)�����,97-100��,2013����。
53. 王 玨�,周 叮�,劉偉慶,王曙光��,杜東升���,層狀地基中考慮土體剪切效應(yīng)的單樁振動阻抗分析�����,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)�����,35(5)��,1-8����,2013�����。
54. 王玨,周叮����,劉偉慶��,王曙光�����,杜東升���,基于彈性半空間Green函數(shù)的明置條形基礎(chǔ)阻抗解答��,力學(xué)季刊����,34(2)�,262-269,2013�����。
55. 王佳棟�����,周叮,劉偉慶����,帶環(huán)形彈性頂蓋圓柱形儲液罐的流-固耦合特性,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)����,35(1),1-5�����,2013�。
56. 錢海,周叮����,劉偉慶,方海���,均勻熱荷載作用下層合簡支梁的彈性力學(xué)解���,力學(xué)季刊��,34(2)����,331-336����,2013��。
57. 王佳棟��,周叮�,劉偉慶,帶彈性隔板圓柱形儲液罐的流固耦合特性研究��,工程力學(xué)��,29(6),270-278�,2012。
58. 許祥��,劉偉慶���,徐秀麗�,周叮,考慮限位器影響的山區(qū)連續(xù)梁橋地震響應(yīng)分析��,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)��,34(3)�,1-7,2012�。
59. 朱波,周叮�����,劉偉慶�����,芯材增強對夾層圓柱殼動力學(xué)性能影響的有限元分析�����,振動與沖擊 31(6)�, 42-47,2012����。
60. 朱波��,周叮��,劉偉慶�����,含脫層層合簡支梁的屈曲模態(tài)�����,上海交通大學(xué)學(xué)報,45(10)�,1460-1464, 2011。
61. 朱波���,周叮����,劉偉慶��,芯材增強對夾層圓柱殼屈曲性能的影響�����,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版),33(5)����,100-104,2011����。
62. 徐德良,劉偉慶��,劉子彤��,周叮�,膠合木外夾鋼板群螺栓連接力學(xué)性能的試驗研究,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)���, 33(5)��,29-35���,2011。
63. 徐業(yè)鵬��,周叮���,機械荷載與熱荷載共同作用下變厚度梁的熱彈性力學(xué)解, 固體力學(xué)學(xué)報�,S1,426-430��,2011����。
64. 徐德良,劉偉慶����,周叮,奚愛峰��,膠合木與膠合木螺栓連接力學(xué)性能試驗研究����,建筑結(jié)構(gòu)學(xué)報��,32(7)��,92-100��,2011�����。
65. 萬里,劉偉慶����,周叮,方海����,Balsa芯材夾層梁的失效分析,工程力學(xué) 28(2)�,134-140,2011�����。
66. 朱波���,周叮�,劉偉慶�,樹脂柱對復(fù)合材料夾層板屈曲及動力學(xué)性能的影響分析,振動與沖擊 30(4)�, 8-11,2011���。
67. 王佳棟����,周叮,劉偉慶�����,水平激勵下帶環(huán)形剛性隔板圓柱形儲液罐中流體的晃動響應(yīng)��,力學(xué)季刊�����,32(2)����,166-172��,2011���。
68. 朱波, 周叮, 劉偉慶����,含脫層層合簡支梁屈曲問題的彈性力學(xué)解,工程力學(xué)��,27(11)�����,14-20�, 2010。
69. 姚秀冬, 周叮, 劉偉慶��,芯層開槽對復(fù)合夾層板力學(xué)性能的影響分析����,玻璃鋼/復(fù)合材料,(3)���,25-28�����,2010��。
70. 萬里, 劉偉慶, 周叮, 方海�����,齒槽增強泡桐木夾層結(jié)構(gòu)界面性能試驗���,必贏3003no1線路檢測中心學(xué)報(自然科學(xué)版)��,5�,1-5����,2010。
71. 王佳棟��,周叮��,劉偉慶����,帶環(huán)形隔板圓柱形儲液罐中液體晃動的解析研究,振動與沖擊���,29(2)��,54-59,2010。
72. 王海�����,周叮���,王曙光���,人-梁相互作用動力學(xué)模型研究,工程力學(xué)����,27(5),14-20�,2010。
73. 徐業(yè)鵬��,周叮�,點支、線支和彈性地基上簡支矩形板的三維彈性力學(xué)解���,中國科學(xué):技術(shù)科學(xué)��,40(2),121-126��,2010�����。
74. 姚秀冬,周叮�,劉偉慶,復(fù)合材料夾層梁樹脂柱的影響分析�,玻璃鋼/復(fù)合材料���,(2)����,44-47���,2010�。
75. 姚秀冬,周叮�,劉偉慶�,含脫層復(fù)合材料簡支梁的彈性力學(xué)解�,玻璃鋼/復(fù)合材料��,(5)�����,18-22���,2009�����。
76. 姚秀冬�,周叮,劉偉慶�,復(fù)合材料夾層板芯層內(nèi)樹脂柱對性能的影響,材料科學(xué)與工程學(xué)報����,27(6), 937-941��,2009����。
77. 徐業(yè)鵬,周叮�����,簡支功能梯度變厚度梁的彈性力學(xué)解�����,南京理工大學(xué)學(xué)報,33(1)���,132-136,2009��。
78. 邵勁松��,劉偉慶�,蔣桐 ,王曙光�,周叮,FRP加固軸心受壓木柱應(yīng)力-應(yīng)變模型, 工程力學(xué)�,25(2),183-187��,2008��。
79. 余春華,董曉云����,周叮�����,用Fourier邊界展開的方法研究具有曲線邊界的厚板的自由振動���,振動與沖擊,24(2), 99-105, 2005。
80. 王興久����,周叮�����,槍身彈性對機槍動力特性的影響��,南京理工大學(xué)學(xué)報���,25(6), 594-597, 2001。
81. 周叮�,謝玉樹,彈性槍架的等效質(zhì)量,南京理工大學(xué)學(xué)報��,24(7), 52-56, 2000�����。
82. 周叮����,謝玉樹,彈丸膛內(nèi)運動引起炮管振動的小參數(shù)解法,振動與沖擊��,18(1), 76-81, 1999����。
83. 李士才, 周叮����,槍械圖形庫的管理和裝配圖的生成,南京理工大學(xué)學(xué)報,23(1), 65-68, 1999。
84. 陳效華,周叮���,輕武器物理參數(shù)設(shè)計的體素法���,四川兵工����,19(1)�����,14-16,1998。
85. 李士才, 周叮��,逐點驅(qū)動的參數(shù)化方法���,兵工學(xué)報�,18(3), 248-251, 1997�。
86. 周叮��,非均質(zhì)變截面折線形梁面內(nèi)振動的傳遞矩陣解法���,強度與環(huán)境,(4), 30-36, 1997���。
87. 周叮, 陳效華,計算結(jié)構(gòu)物理參量的體素法��,南京理工大學(xué)學(xué)報�����,21(6), 493-497, 1997�。
88. 周叮,板內(nèi)附著任意個彈性質(zhì)量的兩對邊簡支矩形板的橫向振動����,強度與環(huán)境,(2),38-45, 1997����。
89. 周叮,多自由度振動系統(tǒng)的快速控制,力學(xué)與實踐�����,18(1), 29-31, 1996�����。
90. 周叮,一類變截面梁橫向自由振動的精確解析解��,振動與沖擊����,15(3), 12-15, 1996。
91. 周叮����,點載靜力梁函數(shù)在求解矩形薄板自振特性中的應(yīng)用,振動與沖擊����,15(1), 77-82, 1996。
92. 周叮, 杜新華�����,彈性槍架的等效剛度,南京理工大學(xué)學(xué)報�����,20(6), 525-538, 1996�����。
93. 周叮���,邊緣轉(zhuǎn)動受彈性限制矩形板橫向振動固有頻率的一個近似解法�����,應(yīng)用數(shù)學(xué)和力學(xué)���,17(5), 433-438, 1996。
94. 周叮�����,兩對邊簡支中間有任意多個單向彈性線支矩形板橫向振動的一個解析解法��,應(yīng)用數(shù)學(xué)和力學(xué),17(8), 729-734, 1996���。
95. 周叮�����,任意形狀彈性薄板彎曲的解析解���,應(yīng)用數(shù)學(xué)和力學(xué)��,17(12), 1123-1127, 1996�����。
96. 周叮�,截面任意形狀的柱形和環(huán)形容器內(nèi)液體晃動特性的精確解法,工程力學(xué)��,12(2), 58-64, 1995���。
97. 周叮�,粘彈性線支矩形板橫向振動特性的一個精確解析解法����,應(yīng)用力學(xué)學(xué)報���,12(3), 111-115, 1995。
98. 周叮�,計及液面波動和液體可壓縮性時部分潛入水中橢圓柱體的扭轉(zhuǎn)振動,數(shù)學(xué)的實踐與認識�����,(1), 1-8,1995���。
99. 周叮�,環(huán)支圓板橫振特性的一個新的解析解法����,南京理工大學(xué)學(xué)報,19(3), 214-218,1995���。
100. 周叮�����,計及表面波動的圓環(huán)形儲液容器的彎曲自由振動���,應(yīng)用數(shù)學(xué)和力學(xué)���,15(9),789-797,1994。
101. 周叮����,受任意個同心彈性環(huán)支圓板橫向自由振動的一個新的解析解法,工程力學(xué)�����,11(3),38-46,1994���。
102. 周叮,單向線性分布溫度場中兩對邊簡支矩形板橫向自振頻率的漸近解法����,振動與沖擊,13(4),52-55,1994���。
103. 周叮�����,非均勻彈性地基上梁橫向振動的漸近解法���,強度與環(huán)境��,(1)�����,8-12, 1994����。
104. 周叮���,計及液面波動和液體壓縮性時一側(cè)受液作用懸臂梁的橫振分析�,應(yīng)用力學(xué)學(xué)報,11(2), 106-111,1994�。
105. 周叮, 失重環(huán)境下圓環(huán)形容器內(nèi)旋轉(zhuǎn)液體的液面形狀分析, 強度與環(huán)境, (4), 40-44, 1994。
106. 周叮��,任意載荷作用下矩形彈性簿板橫向彎曲的一個高精度近似解����,應(yīng)用數(shù)學(xué)和力學(xué),14(3), 225-230, 1993�。
107. 周叮����,旋轉(zhuǎn)軸對稱容器內(nèi)液體晃動問題的邊界配點解���,計算物理�,10(2), 251-256, 1993���。
108. 周叮���,兩對邊簡支另兩對邊任意支承的板內(nèi)有任意多個點支矩形板橫向振動的精確解析解,振動與沖擊��,12(1), 25-32, 1993�����。
109. 周叮��,受任意個同心環(huán)支圓板橫振特性的傳遞距陣法����,強度與環(huán)境����,(2),23-30, 1993����。
110. 周叮�����,連續(xù)矩形板橫向振動固有特性的計算��,工程力學(xué)�����,9(3), 124-130, 1992��。
111. 周叮�����,瑞雷優(yōu)化迭代法���,力學(xué)與實踐���,14(3), 48-50, 1992����。
112. 周叮��,一類新的廣義梁函數(shù)在多跨梁及板結(jié)構(gòu)振動分析中的應(yīng)用�,力學(xué)與實踐,14(4), 51-54, 1992�����。
113. 周叮�����,非均勻地基上非均質(zhì)變截面圓拱梁結(jié)構(gòu)面外振動的傳遞矩陣解法�����,工程力學(xué)(下冊)����,北京科學(xué)技術(shù)出版社出版����,553-561���,1992。
114. 周叮���,最小二乘的一個改進算法�����,力學(xué)與實踐����,14(6), 34-36, 1992��。
115. 周叮�,兩對邊簡支加筋矩形板橫向自由振動的動剛度解法,強度與環(huán)境����,(1), 35-40, 1992。
116. 周叮��,兩對邊簡支另兩對邊復(fù)雜支承矩形板的橫向振動問題��,強度與環(huán)境,(3), 16-22, 1992���。
117. 周叮�,彈性槍架機槍的振動分析���,力學(xué)與實踐��,14(1), 47-50, 1992�。
118. 周叮�����,任意跨彈性支承直梁橫向自振的一個新解法�����,工程力學(xué)�����,8(4), 111-125, 1991�����。
119. 周叮,懸臂梁一側(cè)部分受液體作用的自振特性���,振動工程學(xué)報,4(4), 78-82, 1991��。
120. 周叮�����,非均質(zhì)變截面折線形梁的面外振動的傳遞矩陣法�����,上海力學(xué)�,12(2), 69-76, 1991。
121. 周叮���,計及液面晃動和液體可壓縮影響時部分潛入水中的截面任意形狀柱體的振動分析��,振動與沖擊����,(1), 35-41, 1991��。
122. 周叮,失重環(huán)境下圓柱形容器內(nèi)穩(wěn)態(tài)旋轉(zhuǎn)液體的液面形狀����,航空學(xué)報,12(3),198-201,1991�����。
123. 周叮�,部分潛入水中任意形狀等截面柱體的振動分析,計算物理�,8(3), 264-270, 1991。
124. 周叮��,非均勻地基上非均質(zhì)變截面圓拱梁結(jié)構(gòu)面內(nèi)振動的傳遞矩陣解法�,強度與環(huán)境,(3),10-17, 1991���。
125. 周叮�,變截面彈性直桿橫向振動固有頻率的一個工程近似解法���,輕兵器���,(1), 7-12, 1991���。
126. 周叮,失重狀態(tài)下旋轉(zhuǎn)液體液面形狀分析��,力學(xué)與實踐�,13(6), 19-21, 1991���。
127. 周叮��,失重環(huán)境下圓環(huán)形容器內(nèi)液體的液面形狀分析��,強度與環(huán)境���,(2), 23-26, 1991。
128. 周叮��,部分潛入水中橢圓柱體的扭振分析���,力學(xué)與實踐����,13(4), 32-35, 1991�。
129. 周叮�,兩側(cè)受液時懸臂梁的自由振動分析�����,工程力學(xué)�,8(3), 107-114, 1991。
130. 周叮����,軸盤系統(tǒng)扭轉(zhuǎn)振動的一個新解法,力學(xué)與實踐�,12(1), 52-54, 1990。
131. 周叮����,儲液圓筒在水中的彎曲自由振動,應(yīng)用數(shù)學(xué)和力學(xué)�����,11(5), 439-446, 1990�。
132. 周叮,非均質(zhì)變截面彈性直桿縱向自由振動的漸近解法���,力學(xué)與實踐���,12(4), 16-19, 1990��。
133. 周叮��,兩對邊簡支變厚度矩形板橫向自振頻率的漸近解法�����,強度與環(huán)境,(2),19-25, 1990���。
134. 周叮, 丁文鏡����,儲箱內(nèi)液體晃動特性及其力學(xué)參數(shù)的識別問題����,強度與環(huán)境,(3), 14-25, 1990�。
135. 周叮,圓柱形容器內(nèi)觸角90°微重液體的晃動研究�����,華東工學(xué)院學(xué)報,(1), 91-96, 1990����。
136. 周叮,計及表面波作用的儲液橢圓筒橫向自由振動的解析解��,振動與沖擊�,(3), 60-65, 1990。
137. 周叮���,變截面彈性直桿縱振及扭振固有頻率的一個工程近似算法�����,輕兵器���,(5), 19-22, 1990。
138. 周叮,丁文鏡����,微重力狀態(tài)下旋轉(zhuǎn)對稱剛性容器中液體的晃動響應(yīng),上海力學(xué)�����,10(1), 34-42, 1989。
139. 丁文鏡, 周叮���,液體晃動力學(xué)參數(shù)的辯識�,清華大學(xué)學(xué)報�����,29(5), 96-102, 1989��。
140. 周叮��,邊緣有彈性點支矩形板的橫向振動���,應(yīng)用數(shù)學(xué)和力學(xué),10(10), 929-938, 1989�。
141. 周叮,非均勻溫度場中彈性直桿橫向�����,縱向及扭轉(zhuǎn)振動固有頻率的漸近解法���,工程力學(xué)���,6(3), 55-62, 1989����。
142. 周叮���,非均質(zhì)變截面彈性直桿橫向振動自主頻率的漸近解法��,強度與環(huán)境��,(1), 16-19, 1989�。
143. 周叮��,附著了任意個彈性質(zhì)量的任意形狀的膜的振動�,上海力學(xué),10(4), 10-17, 1989�����。
144. 周叮�����,儲液橢圓筒在水中的橫向自由振動,應(yīng)用力學(xué)學(xué)報�����,6(4), 83-90, 1989�����。
145. 周叮��,受彈性點支的任意形狀的膜的振動��,應(yīng)用數(shù)學(xué)和力學(xué)��,10(12), 1107-1113, 1989�。
146. 周叮,兩對邊簡支變厚度矩形板橫向振動的動剛度有限元解����,強度與環(huán)境�����,(4), 33-40, 1989�。
147. 周叮,考慮表面波的儲液圓筒的彎曲自由振動,振動與沖擊����,(3), 32-36, 1989。
148. 周叮�,楔形彈性直桿縱振與扭振的一個漸近解法,強度與環(huán)境�����,(3), 39-44, 1988�。
149. 周叮,一類二階系統(tǒng)的時間最優(yōu)控制問題��,華東工學(xué)院學(xué)報�����,(4), 99-109, 1988��。
150. 周叮���,微重力狀態(tài)下旋轉(zhuǎn)對稱剛性容器中液體晃動阻尼的計算�,強度與環(huán)境�����,(5), 43-47, 1988。
151. 周叮���,兩對邊簡支厚度按指數(shù)規(guī)變化矩形板橫向自振頻率的漸近解法�����,上海力學(xué)�����,9(3), 19-27, 1988���。
152. 周叮,環(huán)形板元素的動剛度矩陣�����,華東工學(xué)院學(xué)報�,(4), 33-37, 1987。
153. 周叮�,二階阻尼系統(tǒng)的時間最優(yōu)控制問題�,華東工學(xué)院學(xué)報����,(2), 34-43, 1987�。
154. 周叮,丁文鏡����,微重力狀態(tài)下旋轉(zhuǎn)對稱剛性容器中液體晃動研究,上海力學(xué)�����,8(1), 31-41, 1987��。
? 主要研究方向
? 結(jié)構(gòu)靜�����、動力學(xué)���,復(fù)合材料力學(xué)����,高溫結(jié)構(gòu)力學(xué)��,多場耦合力學(xué)。
? 招生專業(yè)
碩士研究生:結(jié)構(gòu)工程��,防災(zāi)減災(zāi)及防護工程�,土木水利(專業(yè)學(xué)位)。
博士研究生:結(jié)構(gòu)工程���,防災(zāi)減災(zāi)及防護工程���。
? 聯(lián)系方式
Email: dingzhou57@yahoo.com
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