姓名:袁万城
职称:教授
电子邮件:yuan@tongji.edu.cn
研究领域:
桥梁抗震与振动
所属研究室 抗震研究室
教育经历:
1987/9–1990/12, 同济大学, 桥梁工程, 博士, 导师:项海帆
1984/9–1987/06, 同济大学, 桥梁工程, 硕士, 导师:范立础
1980/9–1984/06, 同济大学, 桥梁工程, 学士, 导师:张士铎
任职经历(包括国内外)
1994/12- 至今,同济大学,桥梁工程系,研究员
1997/05-1997/12,香港科技大学,土木工程学院,访问教授
1995/01-2000/01,同济大学,桥梁工程系,桥梁工程系系主任
1994/04-1994/11,同济大学,桥梁工程系,副研究员
1993/10-1994/05,德国达姆斯达特工科大学,混凝土与力学研究所,访问学者
1991/04-1994/03,同济大学,桥梁工程系,讲师
1990/12-1991/03,同济大学,桥梁工程系,助教
主讲课程:《高等桥梁结构理论》
研究项目:
主持国家级科研项目(课题)情况:
国家自然科学基金面上项目,51778471,考虑体系弯扭非线性的异形桥梁地震最不利输入方向及易损性研究,2018/01-2021/12,60万元,在研,主持
国家自然科学基金面上项目,51478339,考虑地震与爆炸组合作用下梁桥减震体系的性能与可靠度研究,2015/01-2018/12,85万元,在研,主持
国家自然科学基金面上项目,51278376,考虑寿命期内材料劣变与损伤积累的桥梁抗震可靠度分析,2013/01-2016/12,81万元,已结题,主持
国家自然科学基金重大研究计划,90915011,超大跨深水基础桥梁强震灾变过程及控制研究,2010/01-2013/12,250万元,已结题,子课题负责人
国家自然科学基金面上项目,50978194,组合梁桥墩柱采用 SFRC 塑性铰的抗震设计方法研究,2010/01-2012/12,36万元,已结题,主持。
国家自然科学基金面上项目,50778131,引入ANN-SFEM技术的高桥塔群桩结构体系的抗震能力评价研究,2008/01-2010/12,34万元,已结题,主持。
国家自然科学基金面上项目,59878037,桥梁结构健康监测与状态评估,1998/09-2001/12,15万元,已结题,主持。
荣誉奖励:
袁万城(1/10),桥梁高性能板式减震橡胶支座关键技术及应用,上海市人民政府,技术发明,省部二等奖,2017.11.16 (袁万城,吴德兴,党新志,伍大成,李建华,李涵,荣肇骏,吴志峰,魏凯,郭军军)
袁万城(1/6),桥梁易修复拉索减震支座关键技术及应用,国家教育部,技术发明,省部二等奖,2016.2.18 (袁万城,陆元春,党新志,邵长宇,荣肇骏,罗启)
袁万城(4/10),在役公路桥梁安全评估方法及其可靠度研究,中国公路学会,科技进步,省部二等奖,2015.12.15(周泳涛,鲍卫刚,王春生,袁万城,张玉玲,刘延芳,贾界峰,石雪飞,涂金平,谷牧)
袁万城(10/10),高原山区公路工程抗震关键技术研究,中国公路学会,科技进步,省部二等奖,2015.12.15(李晶哲,王高,鲍卫刚,刘延芳,周应新,钱坤,党新志,汪永林,薛杰,袁万城)
袁万城(1/9),组合结构桥梁抗震性能研究,,浙江省人民政府,科技进步,省部二等奖,2011.01.01(袁万城,熊永光,叶勤松,杨波,张磊,傅翼,钮建伟,马迪辉,曹新建)
袁万城(6/10),大跨、高墩桥梁抗震设计关键技术,中华人民共和国国务院,国家级科技进步奖,一等奖,2009.12.23(范立础,李建中,叶爱君,彭天波,王志强,袁万城,管仲国,魏红一,徐艳,杨澄宇)
袁万城(6/11),特殊桥梁抗震理论与减震技术,上海市人民政府,科技进步,省部一等奖,2008.12.1(范立础,李建中,叶爱君,彭天波,王志强,袁万城,管仲国,魏红一,徐艳,杨澄宇,贾乐盈)
袁万城(2/3),大型桥梁抗震、减隔震研究,,国家教育部,科技进步,省部二等奖,1995.5.01(范立础,袁万城,胡世德)
发表论文
2010以来中英文文章
郭军军,钟剑,袁万城,徐变. 考虑桥台性能影响的连续梁桥地震易损性分析[J]. 哈尔滨工程大学学报,2017,:1-7.
王建国,杨浩林,陆元春,袁万城. 多塔斜拉桥地震作用简化分析方法[J]. 地震工程与工程振动,2016,(05):145-150.
郭军军,党新志,袁万城,徐变. 采用拉索模数伸缩缝的连续梁桥地震响应[J]. 土木工程与管理学报,2016,(05):44-48+70.
袁万城,王征南,庞于涛,钟剑. 连续梁桥在主震-余震序列波下的地震易损性分析[J]. 哈尔滨工程大学学报,2016,(12):1671-1676.
王建国,袁万城,高康,党新志. 地震序列下拉索模数伸缩缝联间限位分析[J]. 土木建筑与环境工程,2016,(03):35-40.
袁万城,王建国,庞于涛,贾丽君. 基于Kriging模型的桥梁结构易损性分析[J]. 哈尔滨工程大学学报,2016,(11):1504-1509.
李燕峰,袁万城. 谈异型桥教学[J]. 高等建筑教育,2016,(02):82-88.
杨浩林,田圣泽,庞于涛,袁万城. 采用拉索支座的桥梁振动台试验[J]. 同济大学学报(自然科学版),2016,(02):192-197.
林曾,章勇,袁万城,游科华,党新志. 深水多塔斜拉桥地震动水效应分析[J]. 结构工程师,2016,(01):77-84.
袁万城,李涵,田圣泽,党新志. 桥梁拉索减震支座研发及应用[J]. 结构工程师,2015,(06):86-90.
郑玉国,袁万城,罗阳青. 大跨梁桥施工全过程地震响应非线性影响分析[J]. 公路工程,2015,(06):30-35.
郭军军,袁万城,徐变. 斜弯桥教与学的探讨[J]. 当代教育实践与教学研究,2015,(12):171-173.
李涵,袁万城,田圣泽,党新志. 钢丝网复合橡胶减隔震支座拟静力试验与恢复力模型研究[J]. 地震工程与工程振动,2015,(06):144-149.
王征南,杨浩林,庞于涛,袁万城. 多塔斜拉桥在主震-余震序列波下地震位移研究[J]. 结构工程师,2015,(05):103-110.
李涵,袁万城,田圣泽,党新志. 钢丝网复合橡胶减隔震支座试验及有限元模拟[J]. 山东交通学院学报,2015,(03):49-54.
黄石,袁万城. 年温差对采用拉索减震支座斜拉桥抗震性能影响分析[J]. 公路交通科技,2015,(09):57-63+73.
曹飒飒,钟剑,袁万城. 多联连续梁桥快速MPA方法[J]. 振动与冲击,2015,(16):195-199+218.
李瑞琪,袁万城,高康,王建国,郭军军. 装配式简支钢-混组合小箱梁桥荷载向分布系数的研究[J]. 结构工程师,2015,(04):54-59.
袁万城,袁新哲,庞于涛,沈国煜. 非线性参数拟合的桥梁概率地震需求模型研究[J]. 哈尔滨工程大学学报,2015,(09):1212-1216.
曹飒飒,袁万城. 基于AMPP方法的减隔震桥梁抗震性能评估[J]. 地震工程与工程振动,2015,(04):171-178.
林曾,袁万城. 考虑波浪作用下的深水桥墩地震响应分析[J]. 土木工程与管理学报,2015,(02):37-41.
刘世佳,田圣泽,袁万城. 高墩桥梁减隔震设计的一种新思路—新型高墩隔断结构体系[J]. 结构工程师,2015,(03):82-87.
曹飒飒,袁万城. 拉索支座减隔震桥梁自适应推倒分析方法[J]. 同济大学学报(自然科学版),2015,(05):668-675.
杨浩林,袁万城. 分离式承台摇摆抗震及其有限元模拟[J]. 哈尔滨工程大学学报,2015,(06):759-764.
钟剑,庞于涛,曹飒飒,袁万城. 基于构件的RC连续梁桥地震体系易损性分析[J]. 同济大学学报(自然科学版),2015,(02):193-198.
袁万城,屈小伟. 减隔震装置在飘浮体系斜拉桥纵桥向的应用[J]. 同济大学学报(自然科学版),2015,(02):199-204.
王凤鸣,袁万城. 减震体系梁桥在地震与爆炸组合作用下的性能研究[J]. 山东交通学院学报,2014,(04):42-47.
田圣泽,袁万城. 采用中层减隔震体系不规则梁桥顺桥向抗震性能研究[J]. 山东交通学院学报,2014,(03):46-50.
曹飒飒,袁万城. 多联连续梁桥横桥向多模态推倒分析方法[J]. 同济大学学报(自然科学版),2014,(09):1305-1312.
王静妤,王凤鸣,张青天,袁万城. 悬索桥抗爆分析的展望[J]. 结构工程师,2014,(04):204-210.
高康,袁万城,屈小伟,党新志. 考虑行波效应下的多塔斜拉桥减隔震体系研究[J]. 结构工程师,2014,(04):80-86.
宋德琴,袁万城. 橡胶伸缩缝对连续梁桥地震反应的影响[J]. 结构工程师,2014,(03):112-116.
沈国煜,袁万城,庞于涛. 基于Nataf变换的桥梁结构地震易损性分析[J]. 工程力学,2014,(06):93-100.
高康,袁万城. 拉索摩擦摆支座在曲线梁桥中的抗震分析[J]. 地震工程与工程振动,2014,(03):41-46.
曹飒飒,袁万城,杨俊. 高桩承台体系桥梁MPA目标参数的选取方法[J]. 同济大学学报(自然科学版),2014,(04):505-512.
钟剑,庞于涛,沈国煜,袁万城. 采用拉索减震支座的斜拉桥地震易损性分析[J]. 同济大学学报(自然科学版),2014,(03):351-357.
屈小伟,殷雨财,袁万城,党新志. 行波效应下多塔斜拉桥地震响应分析[J]. 结构工程师,2013,(06):33-38.
陈卫伟,袁万城,杨浩林. 拉索减震支座在系杆拱桥中的应用[J]. 结构工程师,2013,(05):84-90.
党新志,袁万城,庞于涛,贺金海. 自复位拉索减震装置研究[J]. 哈尔滨工程大学学报,2013,(12):1537-1543.
魏凯,袁万城,伍勇吉,游科华. 深水桥梁群桩-桁架组合基础抗震性能分析[J]. 同济大学学报(自然科学版),2013,(10):1463-1469.
郑玉国,袁万城. 典型大跨连续梁桥悬臂施工全过程地震反应谱分析[J]. 湖南科技大学学报(自然科学版),2013,(03):59-65.
杨浩林,陈卫伟,袁万城. 分离式高桩基础承台抗震性能分析[J]. 结构工程师,2013,(04):89-94.
游科华,魏凯,袁万城. 承台几何参数对高桩承台地震动水效应的影响[J]. 地震工程与工程振动,2013,(04):189-194.
郑玉国,袁万城. 基于CDR的典型大跨梁桥施工全过程抗震安全评价[J]. 中国安全科学学报,2013,(07):73-78.
沈国煜,袁万城,庞于涛. 斜拉桥复合地震易损性分析[J]. 同济大学学报(自然科学版),2013,(07):970-976.
张于晔,魏红一,袁万城. 钢纤维混凝土桥墩抗震性能数值模拟与试验[J]. 同济大学学报(自然科学版),2013,(06):813-820.
王伟,韦正华,袁万城. 独塔双索面斜拉桥抗震性能研究[J]. 中外公路,2013,(02):163-166.
佘安明,姚武,袁万城. Evolution of distribution and content of water in cement paste by low field nuclear magnetic resonance[J]. Journal of Central South University,2013,(04):1109-1114.
魏凯,袁万城. 深水高桩承台基础地震动水效应数值解析混合算法[J]. 同济大学学报(自然科学版),2013,(03):336-341+396.
庞于涛,袁万城,党新志,沈国煜. 考虑材料劣变过程的桥梁地震易损性分析[J]. 同济大学学报(自然科学版),2013,(03):348-354.
闫旭,贺金海,袁万城,党新志. 连续梁桥隔震方案比较[J]. 地震工程与工程振动,2013,(01):153-159.
张于晔,魏红一,袁万城. 钢纤维混凝土局部增强桥墩抗震性能试验研究[J]. 振动与冲击,2012,(21):102-107.
贺金海,王江波,袁万城. 连续梁桥的抗震能力概念设计[J]. 结构工程师,2012,(05):75-81.
王江波,贺金海,袁万城. 近场地震作用下采用拉索减震支座桥梁纵向地震响应特性[J]. 结构工程师,2012,(05):82-88.
庞于涛,袁万城,沈国煜,党新志. 基于结构易损性分析的公路桥梁可靠度研究[J]. 哈尔滨工程大学学报,2012,(09):1091-1096.
伍勇吉,魏凯,庞于涛,袁万城. 不同水深环境下桥梁群桩基础动力特性[J]. 土木工程与管理学报,2012,(02):21-25.
袁万城. 组合创新策略在桥梁抗震研究中的实践[A]. 中国土木工程学会桥梁及结构工程分会.第二十届全国桥梁学术会议论文集(下册)[C].中国土木工程学会桥梁及结构工程分会:,2012:8.
胡薇,袁万城,杨智. 连续梁桥船撞响应的简化分析研究[J]. 结构工程师,2011,(06):66-70.
袁万城,韦正华,曹新建,荣肇骏. 拉索减震支座及桥梁抗震设计应用研究[J]. 工程力学,2011,(S2):204-209.
伍勇吉. 桥梁深水群桩基础模型模态试验研究[A].第20届全国结构工程学术会议论文集(第Ⅰ册)[C]. 2011:5.
袁万城,王斌斌. 拉索减震支座的抗震性能分析[J]. 同济大学学报(自然科学版),2011,(08):1126-1131.
魏凯,伍勇吉,徐灿,庞于涛,袁万城. 桥梁群桩基础-水耦合系统动力特性数值模拟[J]. 工程力学,2011,(S1):195-200.
袁万城,曹新建,荣肇骏. 拉索减震支座的开发与试验研究[J]. 哈尔滨工程大学学报,2010,(12):1593-1600.
樊伟,袁万城,杨智,樊启武. 高桩承台桥梁船撞动力需求的时程分析法[J]. 同济大学学报(自然科学版),2010,(12):1719-1724.
魏凯. 桥梁深水群桩基础动力特性数值模拟[A]..第19届全国结构工程学术会议论文集(第Ⅲ册)[C]. 2010:6.
袁万城. 拉索减震支座及桥梁抗震设计应用研究[A].第19届全国结构工程学术会议论文集(第Ⅲ册)[C]. 2010:6.
张于晔. 大型桥梁抗震能力设计的局部策略[A].第19届全国结构工程学术会议论文集(第Ⅲ册)[C].2010:6.
朱钊,傅翼,郭平,袁万城. 局部使用钢纤维混凝土桥墩抗震性能研究[J]. 结构工程师,2010,(05):73-78.
曹新建,熊永光,傅翼,袁万城. 地震作用下桥梁结构-水相互作用分析[J]. 结构工程师,2010,(04):69-73.
樊伟,袁万城,李丽平,杨智. 千米级斜拉桥船撞动力响应分析实用方法研究[J]. 武汉理工大学学报(交通科学与工程版),2010,(04):669-673.
魏凯,袁万城,曹新建. 组合结构桥梁抗震潜力及性能研究[J]. 工程力学,2010,(S1):275-279.
曹新建,袁万城,高永,魏凯. 大跨度连续梁拱组合体系桥梁减震设计[J]. 工程抗震与加固改造,2010,(03):30-35+23.
周敉,袁万城,张玥. 高桩承台基础群桩等效嵌固长度参数分析[J]. 长安大学学报(自然科学版),2010,(03):47-52.
冯清海,袁万城. 基于IDA-MC的桥梁地震风险概率评估方法[J]. 长安大学学报(自然科学版),2010,(03):60-65.
魏凯,郭平,韩萍,袁万城,曹新建. 行波效应下多联长跨组合结构桥梁地震响应分析[J]. 结构工程师,2010,(02):119-125.
杨智,袁万城,樊伟. 飘浮体系斜拉桥全桥船撞动力响应数值模拟[J]. 结构工程师,2010,(02):63-69.
郑玉国,袁万城. 基于GA-RS的规则钢筋混凝土桥梁圆形单柱桥墩延性抗震优化设计[J]. 振动与冲击,2010,(03):81-84+205-206.
樊启武,钱永久,袁万城,樊伟. 简支桥梁体系纵向频率解析计算[J]. 空间结构,2010,(01):87-91+86.
Wan Cheng YUAN , Xinjian CAO , Pak-chiu CHEUNG , Binbin WANG , zhaojun RONG.Development of Cable- Sliding Friction Aseismic Bearing for Bridges.CECAR 5 & ASEC 2010 Conference,Sydney,Australia,Aug.8~11,2010.
Xinjian CAO,Yongguang XIONG, Yi FU,Ping GUO,Ping HAN,Wan Cheng YUAN.Seismic Design of Hangzhou Jiu-bao Bridge.CECAR 5 & ASEC 2010 Conference,Sydney,Australia,Aug. 8~11,2010.
Zhao ZHU,Yi FU,Binbin WANG,Wan Cheng YUAN.Seismic Study on Bridge Piers Reinforced with SFRC in Local Region.CECAR 5 & ASEC 2010 Conference,Sydney,Australia,Aug. 8~11, 2010.
Kai WEI,Wan Cheng YUAN,Xinjian CAO.Seismic Analyses of Long Span Steel-Concrete Composite Bridge.CECAR 5 & ASEC 2010 Conference,Sydney,Australia,Aug.8~11,2010.
Fan, Wei, Wancheng Yuan, Li Gangjin, et al. Numerical analysis of floating protection system for bridge structure subjected to vessel impact[C]. 2011 International Conference on Electric Technology and Civil Engineering, ICETCE 2011 - Proceedings. IEEE Computer Society,2011:476-479.(EI)
Fan, Wei, Wan-Cheng Yuan,Mi Zhou. A nonlinear dynamic macro-element for demand assessment of bridge substructures subjected to ship collision[J]. Journal of Zhejiang University: Science A, 2011. 12(11): 826-836.(EI)
Pang, Yu-Tao, Wan-Cheng Yuan, Kai Wei, et al. Numerical simulation in dynamic analysis of deepwater group pile foundation of bridges[C]. 2011 International Conference on Electric Technology and Civil Engineering, ICETCE 2011 - Proceedings. IEEE Computer Society,2011:492-495.(EI)
Wei, Kai, Yuye Zhang,Wancheng Yuan. Application of combinational innovation philosophy in earthquake resistant research for bridges[C]. IMSCI 2011 - 5th International Multi-Conference on Society, Cybernetics and Informatics, Proceedings. International Institute of Informatics and Systemics, IIIS,2011:197-202.(EI)
Wei, Zhenghua, Wancheng Yuan, Pak-Chiu Cheung, et al. Seismic performance of continuous girder bridges using cable-sliding friction aseismic bearing[C]. Procedia Engineering. Elsevier Ltd,2011:914-921.(EI)
Xu, Can, Wan-Cheng Yuan, Kai Wei, et al. Computation of dynamic characteristics of deepwater group pile foundation for bridges[C]. Advanced Materials Research. Trans Tech Publications,2011:1510-1514.(EI)
Zhou, Mi, Jian Hou, Yue Zhang, et al. Pseudo-static experimental research and seismic behavior analysis on elevated pile cap foundation[C]. Advanced Materials Research. Trans Tech Publications,2011:1229-1233.(EI)
Zhou, Mi, Yue Zhang,Wancheng Yuan. The analysis model of interaction of piles-soil-bridge for elevated pile foundation[C]. 2011 International Conference on Electric Technology and Civil Engineering, ICETCE 2011 - Proceedings. IEEE Computer Society,2011:2706-2709.(EI)
Fan, W.,W. C. Yuan. Shock spectrum analysis method for dynamic demand of bridge structures subjected to barge collisions[J]. Computers and Structures, 2012. 90-91(1): 1-12.(EI)
She, Anming, Wu Yao,Wancheng Yuan. Evaluation of water evaporation in cementitious materials by low field NMR[C]. Key Engineering Materials. Trans Tech Publications Ltd,2012:437-440. (EI)
She, An Ming, Wu Yao,Wan Cheng Yuan. Hydration dynamics of portland cement studied by magnetic resonance[C]. Applied Mechanics and Materials. Trans Tech Publications,2012:509-512.(EI)
She, An Ming, Wu Yao,Wan Cheng Yuan. Evolution of various states of water in blended cementitious materials[C]. Applied Mechanics and Materials. Trans Tech Publications,2012:389-392.(EI)
Yuan, Wancheng, Binbin Wang, Pakchiu Cheung, et al. Seismic performance of cable-sliding friction bearing system for isolated bridges[J]. Earthquake Engineering and Engineering Vibration, 2012. 11(2): 173-183.(EI)
Zhang, Yuye, Hongyi Wei, Wancheng Yuan, et al. Seismic performance of SFRC piers under reversed cyclic loading[C]. Applied Mechanics and Materials. Trans Tech Publications,2012:2228-2235.(EI)
Zheng, Yuguo,Wancheng Yuan. Study on dynamic characteristics of long span continuous bridge from construction to completion constructed by cantilever method based on perspective of earthquake resistance[C]. Advanced Materials Research. Trans Tech Publications,2012:988-992. (EI)
Zhong, Jian, Wancheng Yuan,Kai Wei. Combinatorial innovation in bridge seismic research[C]. Proceedings of the 12th International Symposium on Structural Engineering, ISSE 2012. Science Press,2012:1093-1098.(EI)
Dang, Xin Zhi, Hao Lin Yang, Wan Cheng Yuan, et al. Experimental investigation on composite seismic isolation system[C]. Advanced Materials Research. Trans Tech Publications Ltd,2013:146-149.(EI)
She, Anming, Wu Yao,Wancheng Yuan. An experimental study of water in pore system of hardened cement paste by magnetic resonance[C]. Key Engineering Materials. Trans Tech Publications Ltd,2013:14-18.(EI)
She, An-Ming, Wu Yao,Wan-Cheng Yuan. Evolution of distribution and content of water in cement paste by low field nuclear magnetic resonance[J]. Journal of Central South University, 2013. 20(4): 1109-1114.(EI)
Yang, Hao Lin, Xin Zhi Dang, Wan Cheng Yuan, et al. A self-centering seismic design for bridge with pile-cap foundation[C]. Advanced Materials Research. Trans Tech Publications Ltd,2013:155-158.(EI)
Zhang, Yu-Ye, Kent A. Harries,Wan-Cheng Yuan. Experimental and numerical investigation of the seismic performance of hollow rectangular bridge piers constructed with and without steel fiber reinforced concrete[J]. Engineering Structures, 2013. 48: 373-388.(EI)
Fan, Wei,Wancheng Yuan. Ship bow force-deformation curves for ship-impact demand of bridges considering effect of pile-cap depth[J]. Shock and Vibration, 2014. 2014.(EI)
Fan, W.,W. C. Yuan. Numerical simulation and analytical modeling of pile-supported structures subjected to ship collisions including soil-structure interaction[J]. Ocean Engineering, 2014. 91: 11-27.(SCI)
Fan, W.,W. C. Yuan. A simple procedure for determination of the dynamic ship-impact load on bridge structures[C]. WIT Transactions on the Built Environment. WITPress,2014:73-85. (EI)
Pang, Yutao, Xinzhi Dang,Wancheng Yuan. An artificial neural network based method for seismic fragility analysis of highway bridges[J]. Advances in Structural Engineering, 2014. 17(3): 413-428. (EI)
Pang, Y. T., K. Wei, J. Zhong, et al. Seismic fragility analysis of multi-span deep water bridges[C]. Bridge Maintenance, Safety, Management and Life Extension - Proceedings of the 7th International Conference of Bridge Maintenance, Safety and Management, IABMAS 2014. Taylor and Francis - Balkema,2014:800-806. (EI)
Shen, Guo-Yu, Wan-Cheng Yuan,Yu-Tao Pang. Bridge seismic fragility analysis based on Nataf transformation[J]. Gongcheng Lixue/Engineering Mechanics, 2014. 31(6): 93-100. (EI)
You, Kehua, Kai Wei,Wancheng Yuan. The analysis of pile cap hydrodynamic added mass considering the chamfer[C]. Communications in Computer and Information Science. Springer Verlag,2014:172-184. (EI)
Zhong, J., Y. T. Pang,W. C. Yuan. Hazard analysis of cable-stayed bridges with cable-sliding friction aseismic bearing[C]. Bridge Maintenance, Safety, Management and Life Extension - Proceedings of the 7th International Conference of Bridge Maintenance, Safety and Management, IABMAS 2014. Taylor and Francis - Balkema,2014:794-799. (EI)
Pang, Yutao, Wei Kai, Wancheng Yuan, et al. Effects of dynamic fluid-structure interaction on seismic response of multi-span deep water bridges using fragility function method[J]. Advances in Structural Engineering, 2015. 18(4): 525-541. (EI)
Wei, Kai, Najib Bouaanani,Wancheng Yuan. Simplified methods for efficient seismic design and analysis of water-surrounded composite axisymmetric structures[J]. Ocean Engineering, 2015. 104: 617-638.(EI)
Fan, W., W. C. Yuan,Q. W. Fan. Calculation method of ship collision force on bridge using artificial neural network[J]. Journal of Zhejiang University-Science A, 2008. 9(5): 614-623.(SCI)
Fan, W., W. C. Yuan, Z. Yang, et al. Dynamic Demand of Bridge Structure Subjected to Vessel Impact Using Simplified Interaction Model[J]. Journal of Bridge Engineering, 2011. 16(1): 117-126.(SCI)
Fan, W., W. C. Yuan,M. Zhou. A nonlinear dynamic macro-element for demand assessment of bridge substructures subjected to ship collision[J]. Journal of Zhejiang University-Science A, 2011. 12(11): 826-836.(SCI)
Wei, Z. H., W. C. Yuan, P. C. Cheung, et al. Seismic Performance of Continuous Girder Bridges Using Cable-sliding Friction Aseismic Bearing[J]. Proceedings of the Twelfth East Asia-Pacific Conference on Structural Engineering and Construction (Easec12), 2011. 14: 914-921.(SCI)
Xu, C., W. C. Yuan, K. Wei, et al, 'Computation of Dynamic Characteristics of Deepwater Group Pile Foundation for Bridges', in Advances in Building Materials, Pts 1-3, ed. by J. Zhao, 2011), pp. 1510-1514.(SCI)
Fan, W.,W. C. Yuan. Shock spectrum analysis method for dynamic demand of bridge structures subjected to barge collisions[J]. Computers & Structures, 2012. 90-91: 1-12.(SCI)
Yuan, W. C., B. B. Wang, P. Cheung, et al. Seismic performance of cable-sliding friction bearing system for isolated bridges[J]. Earthquake Engineering and Engineering Vibration, 2012. 11(2): 173-183.(SCI)
Zhang, Y. Y., H. Y. Wei, W. C. Yuan, et al, 'Seismic Performance of SFRC Piers under Reversed Cyclic Loading', in Sustainable Environment and Transportation, Pts 1-4, ed. by M. J. Chu, et al., 2012), pp. 2228-2235.(SCI)
Zheng, Y. G.,W. C. Yuan, 'Study on Dynamic Characteristics of Long Span Continuous Bridge from Construction to Completion Constructed by Cantilever Method Based on Perspective of Earthquake Resistance', in Advances in Civil Engineering and Architecture Innovation, Pts 1-6, ed. by Q. Yang, et al., 2012), pp. 988-992.(SCI)
Dang, X. Z., H. L. Yang, W. C. Yuan, et al, 'Experimental Investigation on Composite Seismic Isolation System', in Building Materials and Structural Engineering Ii, ed. by B. Xu and H. Y. Li, 2013), pp. 146-149.
She, A. M., W. Yao,W. C. Yuan. Evolution of distribution and content of water in cement paste by low field nuclear magnetic resonance[J]. Journal of Central South University, 2013. 20(4): 1109-1114.(SCI)
She, A. M., W. Yao,W. C. Yuan, 'An Experimental Study of Water in Pore System of Hardened Cement Paste by Magnetic Resonance', in Testing and Evaluation of Advanced Building Materials, ed. by W. Yao, 2013), pp. 14-18.(SCI)
Wei, K., W. C. Yuan,N. Bouaanani. Experimental and Numerical Assessment of the Three-Dimensional Modal Dynamic Response of Bridge Pile Foundations Submerged in Water[J]. Journal of Bridge Engineering, 2013. 18(10): 1032-1041.(SCI)
Yang, H. L., X. Z. Dang, W. C. Yuan, et al, 'A Self-centering Seismic Design for Bridge with Pile-cap Foundation', in Building Materials and Structural Engineering Ii, ed. by B. Xu and H. Y. Li, 2013), pp. 155-158.(SCI)
Zhang, Y. Y., K. A. Harries,W. C. Yuan. Experimental and numerical investigation of the seismic performance of hollow rectangular bridge piers constructed with and without steel fiber reinforced concrete[J]. Engineering Structures, 2013. 48: 255-265.(SCI)
Cao, S.,W. Yuan. Modified generalized pushover analysis for estimating longitudinal seismic demands of bridges with elevated pile foundation systems[J]. Latin American Journal of Solids and Structures, 2014. 11(14): 2696-2712.(SCI)
Fan, W.,W. C. Yuan. Ship Bow Force-Deformation Curves for Ship-Impact Demand of Bridges considering Effect of Pile-Cap Depth[J]. Shock and Vibration, 2014.(SCI)
Pang, Y. T., X. Z. Dang,W. C. Yuan. An Artificial Neural Network Based Method for Seismic Fragility Analysis of Highway Bridges[J]. Advances in Structural Engineering, 2014. 17(3): 413-428.(SCI)
Pang, Y. T., K. Wei, J. Zhong, et al. Seismic fragility analysis of multi-span deep water bridges[M]. ed. by A. Chen, D. M. Frangopol, and X. Ruan, Bridge Maintenance, Safety, Management and Life Extension, 2014, pp. 800-806.(SCI)
Zhong, J., Y. T. Pang,W. C. Yuan. Hazard analysis of cable-stayed bridges with cable-sliding friction aseismic bearing[M]. ed. by A. Chen, D. M. Frangopol, and X. Ruan, Bridge Maintenance, Safety, Management and Life Extension, 2014, pp. 794-799.(SCI)
Fan, W.,W. C. Yuan. Ship Bow Force-Deformation Curves for Ship-Impact Demand of Bridges considering Effect of Pile-Cap Depth (vol 2014, 201425, 2014)[J]. Shock and Vibration, 2015. (SCI)
Pang, Y. T., W. Kai, W. C. Yuan, et al. Effects of Dynamic Fluid-Structure Interaction on Seismic Response of Multi-Span Deep Water Bridges Using Fragility Function Method[J]. Advances in Structural Engineering, 2015. 18(4): 525-541.(SCI)
Pang Y, Kai W, Yuan W, et al. Effects of Dynamic Fluid-Structure Interaction on Seismic Response of Multi-Span Deep Water Bridges Using Fragility Function Method[J]. Advances in Structural Engineering, 2015, 18(4):525-542. (SCI)
Gao K, Yuan W, Cao S, et al. Seismic Performance of Cable-sliding Modular Expansion Joints Subject to Near-fault Ground Motion[J]. Latin American Journal of Solids & Structures, 2014, 12(7). (SCI)
Li H, Tian S, Dang X, et al. Performance of steel mesh reinforced elastomeric isolation bearing: Experimental study[J]. Construction & Building Materials, 2016, 121:60-68. (SCI)
Li R, Yuan X, Yuan W, et al. Seismic analysis of half-through steel truss arch bridge considering superstructure[J]. 2016, 59(3):387-401. (SCI)
Zhong J, Pang Y, Jeon J S, et al. Seismic fragility assessment of long-span cable-stayed bridges in China[J]. Advances in Structural Engineering, 2016, 19(11):1797-1812. (SCI)
Guo J, Zhong J, Dang X, et al. Seismic Responses of a Cable-Stayed Bridge with Consideration of Uniform Temperature Load[J]. 2016, 6(12):408. (SCI)
Yuan X, Li R, Wang J, et al. Dynamic numerical analysis of single-support modular bridge expansion joints[J]. 2016, 22(1):1-12. (SCI)
Yang H, Liu S, Yuan W*. Experiment Based Seismic Behavior Investigation of a Sliding Controlled Isolation System[J]. Journal of Performance of Constructed Facilities, 2016:04016106(SCI)
申请专利:
[1]袁万城,党新志,冯睿为,王征南,王建国,周洋. 桥梁防碰撞防落梁梳齿伸缩缝[P]. 江苏:CN206956540U,2018-02-02.
[2]王征南,袁万城,李建华,吴志峰,党新志,沈国煜. 高性能混合摩擦芯橡胶支座[P]. 上海:CN206987090U,2018-02-09.
[3]郭军军,袁万城,党新志,饶章伟,李涵,喻隽雅. 自复位线性摩擦阻尼装置[P]. 上海:CN206815576U,2017-12-29.
[4]李涵,袁万城,党新志. 一种等跨自锚式悬索#拱梁协作体系桥梁[P]. 上海:CN107268422A,2017-10-20.
[5]郭军军,袁万城,党新志,喻隽雅,冯睿为,王静妤. 多水平缓冲限位系统[P]. 上海:CN107165040A,2017-09-15.
[6]袁万城,冯睿为,喻隽雅,郭军军,李涵,党新志. 平面穿索式防碰撞限位梳齿伸缩装置[P]. 上海:CN107151973A,2017-09-12.
[7]喻隽雅,袁万城,党新志,郭军军,李涵,冯睿为. 一种蝴蝶式斜拉桥体系[P]. 上海:CN107100064A,2017-08-29.
[8]冯睿为,袁万城,李涵,喻隽雅,王静妤,党新志. 一种斜拉#下承式吊杆拱协作体系桥梁[P]. 上海:CN107059594A,2017-08-18.
[9]王征南,袁万城,党新志,李涵. 复合阻尼橡胶减震支座[P]. 上海:CN106988212A,2017-07-28.
[10]袁万城,党新志,李瑞琪,沈国煜,郭军军,李燕峰. 多重抗脉冲型拉索减震支座[P]. 上海:CN205907589U,2017-01-25.
[11]袁万城,谷屹童,沈国煜,郭军军,王征南,党新志. 缓冲型拉索减震支座[P]. 上海:CN205839574U,2016-12-28.
[12]王建国,袁万城,李瑞琪,袁新哲,党新志. 均匀变位拉索模数伸缩缝[P]. 上海:CN205839580U,2016-12-28.
[13]郭军军,袁万城,党新志,沈国煜,李燕峰,谷屹童. 各向异性拉索限位器[P]. 上海:CN205839592U,2016-12-28.
[14]郭军军,袁万城,吴志峰,党新志,李建华,李燕峰. 多向异性拉索限位装置[P]. 上海:CN205839593U,2016-12-28.
[15]袁万城,郭军军,党新志,刘亚宾,李涵,王建国. 多向限位及抗扭系统[P]. 上海:CN106087703A,2016-11-09.
[16]郑越,袁万城,宋驁天,钟丹,郑旻,陈波,古泉,李振乾. 多功能智能SMA拉索钢丝网橡胶减、隔震支座[P]. 广东:CN205604064U,2016-09-28.
[17]郑越,袁万城,宋驁天,钟丹,郑旻,陈波,古泉,李振乾. 多功能智能SMA拉索减、隔震支座[P]. 广东:CN205604065U,2016-09-28.
[18]李燕峰,袁万城,陆绍辉,党新志,刘亚宾,王建国. 智能磁通量拉索减震支座[P]. 上海:CN205443916U,2016-08-10.
[19]李燕峰,袁万城,曹春耕,党新志,卢东宇,王征南. 光纤传感拉索减震支座[P]. 上海:CN205443917U,2016-08-10.
[20]袁万城,李燕峰,党新志,郭军军,李涵,李瑞琪. 智能拉索减震支座[P]. 上海:CN205443918U,2016-08-10.
[21]李燕峰,袁万城,吴德兴,党新志,王建国,刘亚宾. 智能拉索减震盆式支座[P]. 上海:CN205382403U,2016-07-13.
[22]袁万城,李燕峰,党新志,郭军军,李涵,王建国. 智能光纤拉索减震支座系统[P]. 上海:CN105755950A,2016-07-13.
[23]李涵,袁万城,吴德兴,田圣泽,袁新哲,党新志. 高性能板式减震橡胶支座[P]. 上海:CN205242247U,2016-05-18.
[24]田圣泽,李涵,杨浩林,党新志,袁万城. 形状记忆合金拉索减震支座[P]. 上海:CN205242248U,2016-05-18.
[25]林曾,袁万城,高康,庞于涛,李瑞琪,王建国,党新志. 拉索复合橡胶球减震支座[P]. 上海:CN204570458U,2015-08-19.
[26]袁新哲,林曾,党新志,田圣泽,袁万城. 一种可无线实时监控的桥梁拉索减震盆式橡胶支座系统[P]. 上海:CN204570459U,2015-08-19.
[27]杨浩林,田圣泽,庞于涛,刘世佳,李涵,袁万城. 半结构振动台实验边界条件模拟装置[P]. 上海:CN104748927A,2015-07-01.
[28]袁新哲,王征南,庞于涛,高康,田圣泽,袁万城. 可活动梳齿桥梁抗震式伸缩缝装置[P]. 上海:CN204418008U,2015-06-24.
[29]袁新哲,李涵,庞于涛,袁万城. 桥梁弹簧耗能减震限位装置[P]. 上海:CN204370293U,2015-06-03.
[30]袁万城,吴德兴,李瑞琪,党新志. 拉索弧形钢阻尼组合减震球钢支座[P]. 江苏:CN204282201U,2015-04-22.
[31]李瑞琪,袁万城,党新志,林曾,王征南. 弧形钢阻尼球钢支座[P]. 上海:CN204162994U,2015-02-18.
[32]袁万城,党新志,伍大成,黄石,刘世佳,王凤鸣,李涵. 高强细密钢丝网加劲高阻尼橡胶支座[P]. 江苏:CN203923888U,2014-11-05.
[33]袁万城,党新志,伍大成,王凤鸣,刘世佳,黄石,李涵. 高强细密钢丝网加劲铅芯橡胶支座[P]. 江苏:CN203923889U,2014-11-05.
[34]袁万城,党新志,荣肇骏,宋四根,刘世佳,王凤鸣,黄石,李涵. 细密高强钢丝网加劲叠层橡胶支座[P]. 江苏:CN203923890U,2014-11-05.
[35]袁新哲,高康,庞于涛,刘世佳,袁万城. 拉索-辊轴式伸缩缝装置[P]. 上海:CN203890871U,2014-10-22.
[36]高康,李雄,伍大成,党新志,袁万城. 抗震限位桥梁拉索模数伸缩缝装置[P]. 上海:CN203834347U,2014-09-17.
[37]黄石,袁万城,李涵,党新志,王凤鸣,刘世佳,荣肇骏. 高强细密钢丝网加劲钢纤维复合高阻尼橡胶支座[P]. 上海:CN104032671A,2014-09-10.
[38]王凤鸣,宋四根,党新志,李涵,黄石,刘世佳,袁万城. 高强钢纤维细密钢丝网复合铅芯橡胶支座[P]. 上海:CN104032672A,2014-09-10.
[39]刘世佳,伍大成,党新志,王凤鸣,李涵,黄石,袁万城. 细密高强钢丝网结合钢纤维加劲的叠层橡胶支座[P]. 上海:CN104032673A,2014-09-10.
[40]刘世佳,王凤鸣,王静妤,高康,黄石,袁万城. 复合橡胶多面体减震支座[P]. 上海:CN203768797U,2014-08-13.
[41]王凤鸣,刘世佳,黄石,高康,袁新哲,党新志,袁万城. 一种中小型梁桥抗爆防落梁系统[P]. 上海:CN203716050U,2014-07-16.
[42]陆元春,田圣泽,杨浩林,袁万城,张晓. 设置拉索支座的高墩桥梁减隔震结构[P]. 上海:CN203700943U,2014-07-09.
[43]陆元春,田圣泽,杨浩林,袁万城,张晓. 采用双层设置拉索支座的节段高墩桥梁减隔震结构[P]. 上海:CN203700948U,2014-07-09.
[44]高康,黄石,王凤鸣,刘世佳,屈小伟,党新志,袁万城. 鼓型复合橡胶桥梁减震支座[P]. 上海:CN203668818U,2014-06-25.
[45]陆元春,田圣泽,杨浩林,袁万城,张晓. 设置拉索支座的高墩桥梁减隔震结构[P]. 上海:CN103806371A,2014-05-21.
[46]陆元春,田圣泽,杨浩林,袁万城,张晓. 采用双层设置拉索支座的节段高墩桥梁减隔震结构[P]. 上海:CN103806372A,2014-05-21.
[47]高康,田圣泽,王凤鸣,刘世佳,黄石,党新志,袁万城. 一种抗震式大位移桥梁拉索伸缩缝装置[P]. 上海:CN203603046U,2014-05-21.
[48]高康,庞于涛,沈国煜,屈小伟,钟剑,党新志,袁万城. 对称活动齿板大位移拉索式伸缩缝装置[P]. 上海:CN203603047U,2014-05-21.
[49]袁万城,王同辉. 一种桥梁用单向球型支座[P]. 四川:CN203583352U,2014-05-07.
[50]袁万城,王同辉. 一种桥梁用固定球型支座[P]. 四川:CN203583353U,2014-05-07.
[51]魏凯,党新志,袁万城,陈卫伟,游科华,王征南. 绳网橡胶球桥梁减震支座[P]. 上海:CN203361007U,2013-12-25.
[52]章碧鸿,伍大成,党新志,王征南,陈怀印,宋德琴,袁万城. 扁弹簧钢板伸缩缝[P]. 浙江:CN203346787U,2013-12-18.
[53]庞于涛,党新志,钟剑,屈小伟,袁万城. 拉索型摩擦摆减隔震支座[P]. 上海:CN203320402U,2013-12-04.
[54]党新志,袁万城. 可更换及易调节的拉索减震支座[P]. 上海:CN203295968U,2013-11-20.
[55]王征南,宋德琴,沈国煜,庞于涛,党新志,袁万城. 扁弹簧板式橡胶伸缩缝[P]. 上海:CN203238538U,2013-10-16.
[56]杨浩林,陈卫伟,游科华,屈小伟,袁万城,王瑞龙. 外置拉索式限位装置分离式高桩基础承台[P]. 上海:CN203238650U,2013-10-16.
[57]党新志,魏凯,宋德琴,杨浩林,王征南,袁万城. 复合橡胶球桥梁减震支座[P]. 上海:CN103334376A,2013-10-02.
[58]陈卫伟,杨浩林,宋德琴,袁万城,游科华,屈小伟. 可转动型拉索减震支座[P]. 上海:CN203129005U,2013-08-14.
[59]高康,王凤鸣,刘世佳,黄石,庞于涛,袁万城. 纤维布约束式橡胶支座[P]. 上海:CN203065958U,2013-07-17.
[60]刘世佳,王凤鸣,黄石,高康,游科华,袁万城. 钢筋网加劲橡胶支座[P]. 上海:CN203021910U,2013-06-26.
[61]王凤鸣,刘世佳,高康,黄石,杨浩林,袁万城. 钢筋加劲型减震橡胶支座[P]. 上海:CN203021911U,2013-06-26.
[62]黄石,袁万城,刘世佳,高康,王凤鸣,贺金海. 钢纤维板式橡胶支座[P]. 上海:CN203021912U,2013-06-26.
[63]杨浩林,袁万城,陈卫伟,宋德琴,仲健,游科华. 外置限位装置分离式高桩基础承台[P]. 上海:CN203022017U,2013-06-26.
[64]章碧鸿,党新志,王卫刚,王江瑾,荣肇骏,袁万城,陈怀印,屈小伟. 多片变节距钢弹簧-橡胶圈组合桥梁减振支座[P]. 上海:CN202881846U,2013-04-17.
[65]党新志,庞于涛,屈小伟,游科华,宋德琴,袁万城. 易更换拉索的减震支座[P]. 上海:CN202787060U,2013-03-13.
[66]章碧鸿,党新志,荣肇骏,陈怀印,屈小伟,袁万城,王卫刚,潘梨峰. 弹簧橡胶支座[P]. 上海:CN102953326A,2013-03-06.
[67]王江波,袁万城,陈卫伟,杨浩林,胡薇. 弯剪型框架高墩[P]. 上海:CN202644383U,2013-01-02.
[68]庞于涛,袁万城,沈国煜,贺金海,王江波. 基于ANN-MC-UD方法的公路桥梁地震易损性分析方法[P]. 上海:CN102855219A,2013-01-02.
[69]杨浩林,陈卫伟,袁万城,屈小伟,游科华,沈国煜. 分离式高桩基础承台[P]. 上海:CN202577333U,2012-12-05.
[70]钟剑,荣肇骏,袁万城,朱峰,胡薇,庞于涛. 桥梁拉索减震限位器[P]. 上海:CN202519577U,2012-11-07.
[71]袁万城,贺金海,庞于涛,王江波. 连续梁桥拉索减震支座经济布置方法[P]. 上海:CN102747679A,2012-10-24.
[72]袁万城,党新志,荣肇骏,朱峰,王江波,贺金海. 拉索-弹簧减震支座[P]. 上海:CN202347435U,2012-07-25.
[73]王江波,贺金海,庞于涛,曹飒飒,屈小伟,袁万城. 微颗粒阻尼减震支座[P]. 上海:CN202298447U,2012-07-04.
[74]党新志,袁万城,魏凯,朱钊,贺金海,王江波. 弹性减震支座[P]. 上海:CN202298453U,2012-07-04.
[75]王斌斌,袁万城,贺金海,庞于涛,曹飒飒,屈小伟. 避免飘浮体系斜拉桥主塔体系易损的梁端下设拉索限位方法[P]. 上海:CN102505625A,2012-06-20.
[76]伍勇吉,魏凯,袁万城,庞于涛,朱钊,胡薇. 深水桥梁高桩承台群桩基础连接结构[P]. 上海:CN202265831U,2012-06-06.
[77]袁万城,党新志,贺金海,王江波,王斌斌. 自复位-拉索减震支座[P]. 上海:CN202227259U,2012-05-23.
[78]贺金海,王江波,党新志,庞于涛,陈卫伟,袁万城. 外置弹性复位装置的自复位减震支座[P]. 上海:CN202227260U,2012-05-23.
[79]袁万城,朱钊,伍勇吉,韦正华,魏凯,党新志. 拉索-挡块组合限位抗震支座[P]. 上海:CN201843071U,2011-05-25.
[80]袁万城,党新志,韦正华,张于晔,朱钊. 外置抗震剪力键拉索减震支座[P]. 上海:CN201843072U,2011-05-25.
[81]袁万城,韦正华,魏红一,王志强,杨澄宇,罗彬. 拉剪联动减震支座[P]. 上海:CN201756678U,2011-03-09.
[82]袁万城,荣肇骏,曹新建,韦正华,朱峰,龚培华. 连通拉索减震支座[P]. 上海:CN201553982U,2010-08-18.
[83]袁万城,荣肇骏,曹新建,罗彬,朱峰,韦正华. 拉索减震支座[P]. 上海:CN201530991U,2010-07-21.
[84]袁万城,周敉,高永. 拉杆-抗弯钢板组合式土箱模拟装置[P]. 上海:CN101775818A,2010-07-14.
[85]袁万城,荣肇骏,曹新建,罗彬,朱峰. 拉索减震支座[P]. 江苏:CN101597886,2009-12-09.
[86]贺健,袁万城,范立础,胡世德. 抗震铰[P]. 上海:CN2389188,2000-07-26.
[87]范立础,袁万城,胡勃,胡世德,王君杰,刘庆华. 橡胶抗震支座[P]. 上海:CN2319623,1999-05-19.
[88]范立础,袁万城. 抗震橡胶支座[P]. 上海:CN2118858,1992-10-14.
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