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邵旭东

发布于:暂无信息  点击数:33237

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基本信息

性别:男

民族:汉

籍贯:中国,浙江省富阳市

职称:教授

职务:桥梁研究所所长

出生年月:1961年1月

工作单位:湖南大学土木工程学院

联系地址:湖南省长沙市岳麓山,410082

电子邮件:shaoxd@hnu.edu.cn   shaoxd@vip.163.com 

教育背景

1978.10-1982.08 湖南大学土木系道路与桥梁专业,获工学学士学位

1984.09-1986.08 湖南大学桥梁工程专业,获工学硕士学位

1988.09-1992.04 湖南大学桥梁工程专业,获工学博士学位

工作履历

1986.9-1993.6 湖南大学助教、讲师

1993.7-1998.6 湖南大学副教授

1998.7-2000.5 湖南大学教授

2000.6-至今 湖南大学教授、博士生导师

2004.10 日本山口大学访问教授

学术兼职

•湖南大学学术委员会 委员

•中国公路学会桥梁与结构工程分会 常务理事

•中国工程建设标准化协会桥梁专业委员会 委员

•全国高等学校教材(路桥类)编审委员会 委员

•国际桥梁与结构工程协会(IABSE) 会员

•湖南省公路学会桥隧学科分会 副理事长

•交通部十百千人才工程第一层次人选

•国家自然科学基金项目 评审专家

 

研究领域

(1)UHPC高性能桥梁结构新体系

(2)大跨与新型桥梁结构研究

科研项目

  1. UHPC 装配式结构体系设计方法与应用研究             国家重点研发计划子课题

  2. 大跨径桥梁新型桥面结构体系设计理论与方法        国家自然科学基金重点项目

  3. 大跨径钢-UHPC轻型组合桥梁结构设计理论           国家自然科学基金面上项目

  4. 二次预应力组合梁基本性能及应用于高速铁路桥梁的研究        国家自然科学基金面上项目

  5. 正交异性钢板-薄层活性粉末混凝土新型组合桥面结构研究       国家自然科学基金面上项目

  6. 超大跨径单向预应力UHPC连续箱梁桥新体系研究      国家自然科学基金面上项目

  7. 主编行业标准《公路桥涵超高性能混凝土应用规范》            交通运输部项目

  8. 主编行业标准《钢-薄层高韧性混凝土轻型组合桥面结构设计与施工规范》            交通运输部项目

  9. 新型装配式建筑关键技术研究与应用示范                  湖南省科技重大专项

  10. 钢桥的超高性能轻型组合桥面结构                    交通运输部重大科技专项

 

学术成果

英文学术论文

 

1.    Shao Xudong, He Guang,Shen Xiujiang,Zhu Ping,Chen Yubao. Conceptual design of 1000 m scale steel-UHPFRC composite truss arch bridge. Engineering Structures,2021,226.

2.    Wang Yan,Shao Xudong,Cao Junhui,Zhao Xudong,Qiu Minghong. Static and fatigue flexural performance of ultra-high performance fiber reinforced concrete slabs. Engineering Structures,2021,231.

3.    Wang Yang,Shao Xudong,Chen Jie,Cao Junhui,Deng Shuwen. UHPC-based strengthening technique for orthotropic steel decks with significant fatigue cracking issues. Journal of Constructional Steel Research,2021,176.

4.    Shuwen Deng, Xudong Shao, Banfu Yan, Xudong Zhao, Yan Wang. Transverse Joint Design of Fully Precast Steel-UHPC Lightweight Composite Bridge. 2021. Doi: 10.1061/(ASCE)BE.1943-5592.0001745.

5.    Deng S , Shao X , Zhao X , et al. Precast Steel-UHPC Lightweight Composite Bridge for Accelerated Bridge Construction[J]. Frontiers of Structural and Civil Engineering, 2020, 15(2):364-377.

6.    Wang Y , Artz T , Beel A , et al. Computational analyses of flexural behavior for ultra-high performance fiber reinforced concrete bridge decks. International Journal for Multiscale Computational Engineering, 2020, 18(4).

7.    Qiu M, X Shao, Wille K , et al. Experimental Investigation on Flexural Behavior of Reinforced Ultra High Performance Concrete Low-Profile T-Beams. International Journal of Concrete Structures and Materials, 2020, 14(5).

8.    Qiu M, Shao X, Zhu Y, et al. Experimental investigation on flexural cracking behavior of ultrahigh performance concrete beams. Structural Concrete, 2020(3).

9.    Deng S , X Shao, Yan B , et al. On Flexural Performance of Girder-To-Girder Wet Joint for Lightweight Steel-UHPC Composite Bridge[J]. Applied Sciences, 2020, 10(4):1335.

10.   Zhe Zhang,Xu-Dong Shao,Ping Zhu. Direct tensile behaviors of steel-bar reinforced ultra-high performance fiber reinforced concrete: Effects of steel fibers and steel rebars[J]. Construction and Building Materials, 2020, 243.

11.   Junhui Cao, Xudong Shao*. Finite element analysis of headed studs embedded in thin UHPC. Journal of Constructional Steel Research, 2019, 161, 355-368.

12.   Yan Wang, Xudong Shao*, Junhui Cao. Experimental study on basic performance of reinforced UHPC bridge deck with coarse aggregates. ASCE Journal of Bridge Engineering, 2019 ,24(12) : 04019119.

13.   Luo J, Shao X, Cao J, et al. Transverse bending behavior of the steel-UHPC lightweight composite deck: Orthogonal test and analysis[J]. Journal of Constructional Steel Research, 2019, 162: 105708.

14.   Xudong Shao*, Lu Deng, Junhui Cao. Innovative steel-UHPC composite bridge girders for long-span bridges. Frontiers of Structural and Civil Engineering, 2019, 13(4): 981-989.

15.   Jun Luo, Xudong Shao*, Wei Fan, Junhui Cao, Shuwen Deng. Flexural cracking behavior and crack width predictions of composite (steel + UHPC) lightweight deck system. Engineering Structures, 2019, 194, 120-137.

16.   Shao Xudong; Qu Wantong; Cao Junhui; Yao Youlin "Static and fatigue properties of the steel-UHPC lightweight composite bridge deck with large U ribs"Journal of Constructional Steel Research, 2018 Vol.148(9)pp491-507

17.   Shao Xudong; Deng Fuhao; Deng Lu, "Conceptual Design of a New Three-Tower Cable-Stayed Bridge System with Unequal-Size Fans", ASCE’s Journal of Bridge Engineering., 2018 Vol.23(7)

18.   Xudong Shao, Junhui Cao, "Fatigue Assessment of Steel-UHPC Lightweight Composite Deck Based on Multi-Scale FE Analysis: Case Study", ASCE’s Journal of Bridge Engineering., 2018 Vol.23(1)

19.   Yi Shao; Xudong Shao; Lifeng Li; Jiajia Wu "Optimum Combination of Bridge and Deck System for Super-Span Cable-Stayed Bridge"ASCEs Journal of Bridge Engineering., 2018 Vol.23(1)

20.   Xudong Shao; Rensheng Pan; Hao Zhan; Wei Fan, “Experimental Verification of the Feasibility of a Novel Prestressed Reactive Powder Concrete Box-Girder Bridge Structure” , ASCE’s Journal of Bridge Engineering., 2017 Vol.22(6)

21.   Junhui Cao, Xudong Shao, Lu Deng, Yidong Gan, "Static and Fatigue Behavior of Short Headed Studs Embedded in Thin UHPC Layer", ASCE’s Journal of Bridge Engineering., 2017 Vol.22(5)

22.   Zhang, S. H., Shao, X. D., Cao, J. H., Cui, J. F., Hu, J. H., and Deng, L. (2016). "Fatigue performance of a lightweight composite bridge deck with open ribs." ASCE’s Journal of Bridge Engineering., 2016 Vol.21(7).

23.   Wenpeng Wu, S.M.ASCE; Lifeng Li; and Xudong Shao"Seismic Assessment of Medium-Span Concrete Cable-Stayed Bridges Using the Component and System Fragility Functions",  ASCEs Journal of Bridge Engineering., 2016 Vol.21(6).

24.   Junhui Cao; Xudong Shao; Zhe Zhang; Hua Zhao, "Retrofit of an orthotropic steel deck with compact reinforced reactive powder concrete", Structure and Infrastructure Engineering, 2015, Vol.21(3), pp 411-429

25.   Xudong Shao, Jia Hu, Lu Deng, Junhui Cao“Conceptual Design of Super-Span Partial Ground-Anchored Cable-Stayed Bridge with Crossing Stay Cables”, ASCE’s Journal of Bridge Engineering.2014 Vol.19, No.3

26.   XudongShao; Rensheng Pan; Hua Zhao; Zixuan Shao “The Prestress Loss of a New Vertical Prestressing Anchorage System on Concrete Box-girder Webs”, ASCE’s Journal of Bridge Engineering.2014 Vol.19, No.2, pp210-219

27.   Xudong Shao, Dutao Yi, Zhengyu Huang, Hua Zhao, Bin Chen, Menglin Liu, “Basic Performance of the Composite Deck System Composed of Orthotropic Steel Deck and Ultrathin RPC Layer” , ASCE’s Journal of Bridge Engineering. 2013 Vol.18, No.5, pp417-428

28.   Xudong Shao, Jianxin Peng, Lifeng Li, Banfu Yan, Jianhua Hu “Time-dependent Behavior of Concrete-Filled Steel Tubular Arch Bridge”ASCE’s Journal of Bridge Engineering. 2010 Vol.15, No.1, pp98-107

29.   Xudong Shao, Haolei Wang, Hua Zhao, Ying Chang “Experimental Study on MulticantileverPrestressed Composite Beams with Corrugated Steel Webs” ASCE’s Journal of Structural Engineering. 2010 Vol.136, No.9, pp1098-1110

30.   Xudong Shao, JianjunYang, Hua Zhao, Yadong Zhou, MeichunNieExperimental Research on and Application of Twice-Prestressed Concrete Beam”, Advances in Structural EngineeringVol. 13 No. 2 2010

31.   Jun Deng,Xudong Shao,Lifeng Li, Songbo.Cai. “Experimental Research on the Creep Behavior of Twice Prestressed Concrete Beam”, Structural Engineering International, February 2006 Vol.16, No.1 pp53-58

32.   XiaoqinJin, Xudong Shao, Wanghu Peng, Banfu Yan. “A new category of Semi-integral Abutment in China”, Structural Engineering International,2005 Vol.15, No.3 pp 186-189

33.   Yang Zhang, Xudong Shao,Lifeng Li.“Spatial Stress Analysis for Large Cantilevered Steel-Concrete Composite Bridge Decks”.  Advances in Steel Structures,2005

34.   Hua Zhao, Xudong Shao. The design and Experimental Study of the Steel-Concrete Composite Box Girder of a Harp-Shaped Single Span Cable-Stayed Bridge”, Advances in Steel Structures,2005.

35.   Wanghu Peng,Xudong Shao,LifengLi.Design of Main Girder of a Harp Shaped Cable-Stayed Bridge”,Advances in Steel Structures,2005.

36.   Jianxin Peng, XudongShao.Research framework of life-cycle performance based bridge design method”,Structural Health Monitoring and Intelligent Infrastructure,2005.

37.   Xudong Shao, Hua Zhao, Lifeng Li, “Design and Experimental Study of a Harp Shaped Single Span Cable-StayedBridge”  ASCE’s Journal of Bridge Engineering. 2005 Vol.10, No.6, pp658-665

38.   Longwei Zhang , Hua Zhao , Eugene J OBrien and Xudong Shao. "Virtual Monitoring of orthotropic steel deck using bridge weigh-in-motion algorithm: Case study" Structural Health Monitoring 1–11, 2018

39.   XiaoqinJin, Xudong Shao. “New Technologies in China’s first JointlessIntegral-AbutmentBridge” Proceeding of IABSE Symposium 2004, Shanghai, China, Sept. 22-24, 2004.

40.   Hua Zhao, Xudong Shao. “An Analysis of Ultimate Bearing Capacity of Reinforced Concrete Arch Bridges” Proceeding of IABSE Symposium 2004, Shanghai, China, Sept. 22-24, 2004.

41.   Banfu YanA.MiyamotoXudong Shao,“Comparison of time-frequency analysis based methods for modal parameter extraction of bridge structure Proceeding ofIABMAS, 2004,Kyoto,JapanThe second International Conference of International Association for Bridge Maintenance and SafetyP.895-896

42.   Songbo.CaiXudong ShaoShengpu ShenJiang YeYang Zhang,“A quasi-arch length method and its computer implementation for NFEM Proceeding of the Sixth World Congress on Computational MechanicsP.184

43.   Jianxin Peng, Xudong Shao, XiaoqinJin. “Research on lifetime performance-based bridge design method”Proceeding ofIABMAS, 2006,Porto, Portugal.

44.   XiaoqinJin, Xudong Shao. Experience of innovative Integral Bridges in China. Proceedings of 7th International Conference on Short & Medium Span Bridges in Canada,August 23rd to 25th, 2006: ID-003-1~ ID-003-9

45.   Xudong Shao, JianxinPeng,YanBanfu, Bridge multi-index performance assessment model  Safety and durability of structure(Proceeding of SSCM) 2006: P.423-424

46.   SHAO Xudong, LI Lifeng, YANG Jianjun. Experimental research on the creep behavior and bearing capacity of repeatedly prestressed concrete beam Frontiers of Architecture and Civil Engineering in ChinaAugust 2007: Vol.1 No.3 P305-311

47.   Jianxin Peng, Xudong Shao, Mark G. Stewart. Design Planning Decision for Deteriorating Wearing Surfaces based on Whole-life Design Considering Life-cycle Cost, Proceeding of 4th International conference on bridge maintenance, safety and management, Seoul, Korea, 2008.

48.   Jianxin Peng, Xudong Shao. Bridge material decision for deteriorating structures based on whole-life optimum design considering life-cycle cost, Proceeding of the 2nd International Conference on Structural Condition Assessment, Monitoring and Improvement (SCAMI-2), 19-21 November 2007, Changsha, China.

49.   Ji-Hua Deng, Xu-Dong Shao, Song-Bai Cai. “Co-roatational procedure for finite element analysis of triangular plane element of large displacement” The 4th International Symposium on Lifetime Engineering of Civil Infrastructure. 2009.10, 857-862

50.   Xue-Fang Zhan, Xu-Dong Shao, Xiao-Qin Jin. “The settlement analysis of approach slab of innoviativejointless bridge under traffic load and temperature” . The 4th International Symposium on Lifetime Engineering of Civil Infrastructure,2009.10, 844-851

51.   Ya-dong Zhou, Xu-Dong Shao, Jian-Jun Yang, Jian-Xin Peng. “State-of-practice on twice  prestress technology” . The 4th International Symposium on Lifetime Engineering of Civil Infrastructure, 2009.10, 837-843

52.   Yun-Yao Hu, Xu-Dong Shao, Jian-Hui Luo. “Stress on the contact surface caused by creep effect of twice-prestressed”. The 4th International Symposium on Lifetime Engineering of Civil Infrastructure, 2009.10, 818-825

53.   Z. Zhang, X.D. Shao, W.G. Li & J.H. Cao, “A lightweight composite bridge deck system”.7th International Conference on Bridge Maintenance, Safety and Management, 2014.07, 1422-1427

54.   R.S. Pan, X.D. Shao & Y. Zhang, “Experimental Research and Analysis on Prestress Loss of the Double Tension Prestressing Steel Strands Anchorage System”.7th International Conference on Bridge Maintenance, Safety and Management, 2014.07, 2362-2366

55.   Rensheng Pan, Xudong Shao and Hao Zhan, “A Innovative Longitudinal Prestressed Continuous Ultra-high Performance Concrete Box-girder Bridge”.37thInternational Association for Bridge and Structural Engineering, 2014.09, 1164-1169.

 

中文学术论文(2013~2021)

 

1.   邵旭东,孔小璇,邱明红,陈玉宝.先简支后连续混凝土梁负弯矩区UHPCT形”湿接缝试验研究[J].湖南大学学报(自然科学版),2021,48(03):1-13.

2.   贺耀北,邵旭东,张欣,赵华,王永.-UHPC组合梁自锚式悬索桥力学性能与经济性分析[J].桥梁建设,2021,51(01):51-57.

3.   邵旭东,樊伟,黄政宇.超高性能混凝土在结构中的应用[J].土木工程学报,2021,54(01):1-13.

4.   王洋,邵旭东,陈杰,曹君辉,王立国.重度疲劳开裂钢桥桥面的UHPC加固技术[J].土木工程学报,2020,53(11):92-101+115.

5.   王立国,邵旭东,曹君辉,陈玉宝,何广,王洋.基于超短栓钉的钢-超薄UHPC组合桥面性能[J].浙江大学学报(工学版),2020,54(10):2027-2037.

6.   邱明红,邵旭东,胡伟业,赵旭东,王衍.钢筋UHPC受弯构件裂缝宽度计算方法研究[J].土木工程学报,2020,53(10):89-98+119.

7.   刘琼伟,邵旭东,邱明红,李盼盼,刘连胜,吕德堡.超高性能混凝土厚度对轴拉应力–应变–裂缝的影响[J].硅酸盐学报,2020,48(08):1168-1176.

8.   罗军,邵旭东,曹君辉,樊伟,裴必达.-超高性能混凝土组合板开裂荷载正交试验及计算方法[J].浙江大学学报(工学版),2020,54(05):909-920+930.

9.   邵旭东,李芳园,邱明红,刘琼伟.钢纤维特性对UHPC轴拉性能与弯拉性能的影响及对比研究[J].中国公路学报,2020,33(04):51-64.

10. 王衍,邵旭东,曹君辉,邓舒文,李玉祺.含小型粗骨料UHPC板抗弯性能研究[J].土木工程学报,2020,53(03):67-79.

11. 邵旭东,刘也萍,邱明红,邓富颢.采用UHPC灌浆材料大口径全灌浆连接套筒接头的性能研究[J].土木工程学报,2020,53(02):81-91.

12. 邵旭东,何广.800m级钢-UHPC组合桁式拱桥概念设计与可行性研究[J].中国公路学报,2020,33(02):73-82.

13. 邵旭东,张瀚文,李嘉,曹君辉,甘屹东.-超薄UHPC轻型组合桥面短钢筋连接件抗剪性能研究[J].土木工程学报,2020,53(01):39-51.

14. 贺耀北,邵旭东,龚斌,曹伟,万先哲.官新高速公路马路口资水大桥主梁方案比选[J].桥梁建设,2019,49(06):96-101.

15. 邵旭东,周银东,曹君辉,孙平宽,祝飞翔.钢简支梁的新型桥面连续结构抗弯性能试验研究[J].土木工程学报,2019,52(12):80-92.

16. 鲁邦泽,邵旭东,邱明红,周林云,张阳.密集隔板UHPC箱梁体外预应力束转向构造研究[J].重庆交通大学学报(自然科学版),2020,39(01):51-59+66.

17. 邵旭东,邱明红.基于UHPC材料的高性能装配式桥梁结构研发[J].西安建筑科技大学学报(自然科学版),2019,51(02):160-167.

18. 贺耀北,邵旭东,刘榕,李文武,周旋.斜拉桥双边工字钢-UHPC桥面板组合梁静力性能研究[J].桥梁建设,2019,49(01):47-52.

19. 邵旭东,罗军,曹君辉,樊伟,王衍.“钢-UHPC轻型组合桥面结构试验及裂缝宽度计算研究”.土木工程学报(China Civil Engineering Journal,2019,52(03):61-75.

20. 邵旭东,郭程,曹君辉.“钢-STC轻型组合桥面螺栓连接接头区域设计”.中国公路学报(China Journal of Highway and Transport),2019,32(01):57-66.

21. 邵旭东,虢玉标,邱明红.新型UHPC箱梁桥面体系横向受力性能.中国公路学报(China Journal of Highway and Transport),2018,31(12):144-153.

22. 邵旭东,甘屹东,李嘉,曹君辉,邱明红.-超薄UHPC组合桥面板界面抗剪焊接构造.中国公路学报(China Journal of Highway and Transport),2018,31(11):91-101.

23. 廖子南,邵旭东,乔秋衡,曹君辉,刘湘宁.-超高性能混凝土组合板横向受弯静力试验及有限元模拟.浙江大学学报(工学版),2018,52(10):1954-1963.

24. 邵旭东,曲宛桐,曹君辉,姚又琳.带大U肋的轻型组合桥面板基本力学性能.中国公路学报(China Journal of Highway and Transport),2018,31(08):94-103.

25. 詹健,邵旭东,曲宛桐,曹君辉.-STC轻型组合桥面结构多参数分析.公路交通科技,2018,35(05):73-81+90.

26. 邵旭东,李玉祺,廖子南,曹君辉.UHPC华夫桥面板抗弯性能试验及有限元分析.长安大学学报(自然科学版),2018,38(03):52-63.

27. 邵旭东,管亚萍,晏班夫.预制超高性能混凝土π形梁桥的设计与初步试验.中国公路学报(China Journal of Highway and Transport),2018,31(01):46-56.

28. 邵旭东,邱明红,晏班夫,罗军.超高性能混凝土在国内外桥梁工程中的研究与应用进展.材料导报(Materials Review,2017,31(23):33-43.

29. 邱明红,邵旭东,甘屹东,吴佳佳,杨志杰.单向预应力UHPC连续箱梁桥面体系优化设计研究.土木工程学报(China Civil Engineering Journal,2017,50(11):87-97.

30. 邵旭东,曹君辉.面向未来的高性能桥梁结构研发与应用.建筑科学与工程学报(J Archit Civil Eng,2017,34(05):41-58.

31. 邵旭东,郑晗,黄细军,彭勃.-UHPC轻型组合桥面板横向受力性能.中国公路学报(China Journal of Highway and Transport),2017,30(09):70-77+85.

32. 王皓磊,邵旭东.带加劲肋钢-混凝土组合蜂窝梁开孔腹板的抗剪性能.公路交通科技(Journal of Highway Communication Technology),2017,34(08):66-75.

33. 邵旭东,李召辉,吴佳佳,黄细军.-UHPC轻型组合桥面板局部修补技术试验.中国公路学报(China Journal of Highway and Transport),2017,30(07):58-64.

34. 彭勃,邵旭东.闭口肋轻型组合桥面板疲劳性能研究.土木工程学报(China Civil Engineering Journal,2017,50(04):89-96.

35. 邓舒文,邵旭东,晏班夫,管亚萍.全预制快速架设钢-UHPC轻型组合城市桥梁.中国公路学报(China Journal of Highway and Transport),2017,30(03):159-166.

36. 邵旭东,陈斌,周绪红.-RPC轻型组合桥面结构湿接头弯曲试验.中国公路学报(China Journal of Highway and Transport),2017,30(03):210-217.

37. 邵旭东,吴佳佳,刘榕,李召辉.-UHPC轻型组合桥梁结构华夫桥面板的基本性能.中国公路学报(China Journal of Highway and Transport),2017,30(03):218-225+245.

38. 张士红,邵旭东,曹君辉,崔剑峰,胡建华.轻型组合桥面板球扁钢纵肋-横隔板连接细节局部应力分析.土木工程学报(Chin Civil Eng J,2016,49(12):97-107.

39. 张士红,邵旭东,黄细军,杨波.轻型组合桥面板中小栓钉连接件的静力及疲劳性能.公路交通科技(Journal of Highway Communication Technology),2016,33(11):111-119.

40. 孔令方,邵旭东,刘榕.-UHPC轻型组合梁桥面板受弯性能有限元分析.公路交通科技(Journal of Highway Communication Technology),2016,33(10):88-95.

41. 邵旭东, 杨志杰, 邹同琛, 刘瑜 “密集横隔板UHPC箱梁桥面板双向受力性能试验”.中国公路学报(China Journal of Highway and Transport).2016,29(8), pp43-49+66.

42. 邵旭东,方恒,李文光.-超薄UHPC组合桥面板界面抗剪性能研究.湖南大学学报(自然科学版)(Journal of Hunan UniversityNatural Science),2016,43(05):44-51.

43. 邵旭东,张良,张松涛,欧阳泽卉.新型UHPC连续箱梁桥的体外预应力锚固构造形式研究.湖南大学学报(自然科学版)(Journal of Hunan UniversityNatural Science),2016,43(03):1-7.

44. 张哲,邵旭东,朱平,李文光.基于超高性能混凝土弯曲拉伸特性的二次倒推分析法.土木工程学报(China Civil Engineering Journal,2016,49(02):77-86.

45. 邵旭东,张松涛,张良,欧阳泽卉.-超薄UHPC层轻型组合桥面性能研究.重庆交通大学学报(自然科学版),2016,35(01):22-27+75.

46. 丁楠、邵旭东.“轻型组合桥面板的疲劳性能研究” 土木工程学报(China Civil Engineering JournalVol. 48, No. 1, 2015.

47. 李文光,邵旭东,方恒,张哲.-UHPC组合板受弯性能的试验研究.土木工程学报(China Civil Engineering Journal,2015,48(11):93-102.

48. 张哲,邵旭东,李文光,朱平,陈洪.超高性能混凝土轴拉性能试验.中国公路学报(China Journal of Highway and Transport),2015,28(08):50-58.

49. 邓继华,邵旭东,谭平.几何非线性与徐变共同作用下三维杆系结构有限元分析.工程力学(Engineering Mechanics,2015,32(06):117-123.

50. 刘瑜,邵旭东.轻型组合梁桥面板在日照作用下温度梯度效应研究.公路交通科技(Journal of Highway Communication Technology),2015,32(06):54-61.

51. 张策,邵旭东,张阳.超大跨径UHPC连续箱梁桥接缝设计及模型试验.土木工程学报(China Civil Engineering Journal,2015,48(04):52-58.

52. 邓继华,邵旭东.钢管混凝土拱空间高效双非线性有限元分析.工程力学(Engineering Mechanics,2014,31(12):89-95+111.

53. 詹豪、邵旭东、蒋志刚. “多跨弹性支承连续矩形薄板屈曲分析”(Buckling Analysis Of Continuous Rectangular Thin Plates With Multi-Span Elastic Supports).工程力学(Engineering MechanicsVol.31,No.11, 2014, pp.25-30+38

54. 邓继华、邵旭东、彭建新. “几何非线性平面梁考虑收缩徐变的算法研究”(Experimental Research on Horizontal Mechanical Behavior of Steel Anchor Girder-corbel Composite Structure)湖南大学学报(自然科学版)(Journal of Hunan UniversityNatural Science) Vol.41,No.9, 2014, pp.14-19+26

55. 刘勇、邵旭东、詹豪. “主跨400mUHPC连续梁桥优化设计”(Optimal Design for UHPC Continuous Box Girder Bridge with 400 m Main Span)公路交通科技(Journal of Highway Communication Technology) Vol.31,No.8, 2014, pp.83-90

56. 赵怡彬、邵旭东、马竞、马永春. “单伸缩缝桥梁连续配筋接线路面温度效应”(Temperature Effect for Reinforced Approach Pavement of Single Expansion Joint Bridge)中国公路学报(China Journal of Highway and Transport) Vol.27,No.5, 2014, pp.131-140

57. 邵旭东、何东升、李立峰. “钢锚梁-钢牛腿组合结构水平受力机理试验”(Experimental Research on Horizontal Mechanical Behavior of Steel Anchor Girder-corbel Composite Structure)中国公路学报(China Journal of Highway and Transport) Vol.27,No.4, 2014, pp.55-61+68

58. 邓继华,邵旭东,谭平.钢管混凝土拱面内受力高效非线性有限元分析.公路交通科技(Journal of Highway Communication Technology),2014,31(03):78-83+95.

59. 邓继华、邵旭东、张阳、彭建新. “考虑索端刚臂的斜拉桥空间拉索非线性分析”(Non-linear Analysis of Spatial Stay Cable with Rigid Arms of Cable-stayed Bridge)湖南大学学报(自然科学版)(Journal of Hunan UniversityNatural Science) Vol.41,No.1, 2014, pp.21-26

60. 邓继华,邵旭东,谭平.钢管混凝土拱极限承载力分析的共旋坐标法.哈尔滨工业大学学报,2013,45(12):86-89.

61. 周亚栋,邵旭东.二次预应力组合梁及其在公路桥梁中的应用.公路交通科技(Journal of Highway Communication Technology),2013,30(11):78-82+88.

62. 邓继华,邵旭东.基于混合单元法的预应力混凝土梁非线性分析.工程力学(Engineering Mechanics,2013,30(10):171-177.

63. 彭旺虎,邵旭东.设置中央扣悬索桥的扭转自振分析.中国公路学报(China Journal of Highway and Transport),2013,26(05):76-87.

64. 邓继华,邵旭东.钢筋混凝土梁单元双非线性分析的共旋坐标法.湖南大学学报(自然科学版)(Journal of Hunan UniversityNatural Science),2013,40(08):11-15.

65. 邵旭东、詹豪、雷薇、张哲. “超大跨径单向预应力UHPC连续箱梁桥概念设计与初步实验(Conceptual design and preliminary experiment of super-long-span continuous box girder bridge composed of one-way prestressed UHPC)”土木工程学报(China Civil Engineering JournalVol. 46, No. 8, 2013, pp. 83-89.

66. 邵旭东,王文前,辜杰凯,陈斌.“装配式纤维混凝土组合桥面体系试验(Experiment on Assembled Composite Bridge Deck System Composed of Fiber Concrete)”.公路交通科技(Journal of Highway Communication Technology),30(6),2013,pp 60-66.

67. 马永春,邵旭东,余加勇.中低设防烈度地区全无缝桥梁抗震性能分析.湖南大学学报(自然科学版)(Journal of Hunan UniversityNatural Science),2013,40(05):11-17.

68. 邵旭东,周环宇,曹君辉.-薄层RPC组合桥面结构栓钉的抗剪性能.公路交通科技(Journal of Highway Communication Technology),2013,30(04):34-39+64.

69. 邵旭东,周捷,胡佳“超大跨径部分地锚交叉索斜拉桥的索—梁锚固技术(Cable-girder Anchorage Technology of Super-span Cable-stayed Bridge with Partial Ground-anchorage and Cross Stays)”公路交通科技(Journal of Highway Communication Technology),30(3),2013,pp 66-71.

70. 王皓磊、邵旭东、刘春 “带加劲肋钢-混凝土组合蜂窝梁承载能力试验(Experiment on Bearing Capacity of Steel-concrete Composite Castellated Beams with Reinforced Rib 中国公路学报(China Journal of Highway and Transport).2013,26(2), pp110-118.


 

著作


1.    《钢-超高性能混凝土轻型组合桥梁结构(The Steel-UHPC Lightweight Composite Bridge Structures)》邵旭东,胡建华著,人民交通出版社(China Communications Press) 2015ISBN: 9-787-114-11145-7

2.    《半整体式无缝桥梁新体系(New Structures of Jointless Bridge with Semi-integral Abutment)》邵旭东著,人民交通出版社(China Communications Press) 2014 ISBN: 9-787-114-11145-7

3.    《桥梁设计与计算(Bridge Design & Computation)》第二版 邵旭东、程翔云、李立峰编著人民交通出版社(China Communications Press) 2012

4.    《桥梁设计百问(Bridge DesignQuestions and Answers)》第三版,邵旭东编著人民交通出版社(China Communications Press) 2017 ISBN:978-7-114-13646-7

5.    《桥梁设计百问(Questions and Answers for Bridge Design)》第一版,邵旭东主编. 人民交通出版社(China Communications Press) 2003. ISBN:7-114-04565-4

6.    《桥梁工程(Bridge Engineering)》第五版,(高等学校交通运输与工程类专业规划教材)邵旭东主编人民交通出版社(China Communications Press) 2019. ISBN:978-7-114-15363-1

7.    《桥梁工程(Bridge Engineering)》第四版,(面向21世纪交通版统编教材)邵旭东主编人民交通出版社(China Communications Press) 2016. ISBN:978-7-114-12823-3

8.    《桥梁工程(Bridge Engineering)》第三版,(面向21世纪交通版统编教材)邵旭东主编人民交通出版社(China Communications Press) 2014. ISBN:9-787-114-11286-7

9.    《桥梁工程(Bridge Engineering)》第二版,(面向21世纪交通版统编教材)邵旭东主编人民交通出版社(China Communications Press) 2005.

10.   《桥梁工程(Bridge Engineering)》(面向21世纪交通版统编教材)邵旭东主编.人民交通出版社(China Communications Press) 2004. ISBN:7-114-04796-7

11.   《桥梁工程(Bridge Engineering)》(大土木非路桥专业本科教材)邵旭东主编. 武汉理工大学出版社(Wuhan University of Technology Press) 2002. ISBN:7-5629-1820-1

12.   《桥梁工程(Bridge Engineering)》(大土木桥梁专业本科教材)强士中主编,邵旭东副主编高等教育出版社(Higher Education Press2004. ISBN:7-04-014491-3

13.   《桥梁工程(Bridge Engineering)》(交通土建高职高专统编教材)邵旭东主审

人民交通出版社(China Communications Press)    2005.


获得专利


发明专利:双曲线桥梁墩塔 

发明专利:缆索承重桥梁的索塔 

发明专利:预应力超高性能混凝土连续箱梁桥及其施工方法 

发明专利:一种单主缆悬索桥

发明专利:装配式纤维混凝土组合桥面结构及其施工方法

发明专利:斜拉桥拉索锚固结构件

发明专利:含抗剪构造的钢-超高性能混凝土组合桥面结构及其施工方法

发明专利:带强化接头的钢-纤维混凝土组合桥面结构及其施工方法

发明专利:一种超高韧性混凝土板-钢梁轻型组合桥梁结构

发明专利:一种不同性能混凝土梁的连接构造

发明专利:钢-超高性能纤维混凝土轻型组合梁的接缝结构及应用

发明专利:一种钢-纤维混凝土组合板分次浇筑连接接头的施工方法

发明专利:钢-混凝土组合结构修补接缝的强化构造及其方法

发明专利:预制超高性能混凝土π形梁单元、桥梁结构及其施工方法

发明专利:超高性能混凝土薄壁箱梁的体外预应力锚固结构

发明专利:钢-超高性能混凝土轻型组合箱式盖梁及其制作方法

发明专利:钢-超高性能混凝土组合板连接接头及施工方法

发明专利:一种多塔斜拉桥及其施工方法

发明专利:钢-超高性能混凝土轻型组合梁简支变连续结构构造及其施工方法

发明专利:一种单向预应力超高性能混凝土薄壁箱梁标准节段

发明专利:预制超高性能混凝土中承式梁单元、桥梁结构及施工方法

发明专利:具有短钢筋抗剪构造的钢-超高性能混凝土组合桥面结构


    

奖励与荣誉

1.    《正交异性轻型组合桥面新体系》,2017年度教育部技术发明一等奖(排名第1)

2.    《混凝土箱梁桥腹板二次张拉高效预应力新体系》,2017年度湖南省科技进步二等奖(排名第1)

3.    《超高性能混凝土钢桁组合梁悬索桥技术创新与应用》,2019年度中国公路学会科学技术一等奖(排名第2)

4.    《自锚式悬索桥关键结构创新技术及应用》,2017年度中国公路学会科学技术一等奖(排名第3)

5.    《斜塔竖琴式斜拉桥的设计与施工》,2007年度湖南省科技进步一等奖(排名第1)

6.    《无缝桥梁用无缝接线路面构造的研究与应用》,2006年度教育部高等学校专利二等奖(排名第1)

7.    《多塔斜拉桥新技术研究》,2004年度国家科技进步二等奖(排名第7) 2005年度湖南省科技进步一等奖(排名第7)

8.    《长沙湘江南大桥工程》,2001年湖南省优秀设计一等奖(排名第3)

9.    《长沙市浏阳河洪山大桥》,2008年教育部优秀结构设计创新一等奖(排名第1)