曲 哲 | Me 曲 研 | Lab 教 学 | Teaching PQ-Fiber 阅 读 | Reading
                                [True]          [Jay]
曲 哲 | QU Zhe

quz@iem.ac.cn
2016/12 till now 研究员
Professor
中国地震局工程力学研究所
Institute of Engineering Mechanics
, China Earthquake Administration
2012/12 - 2016/12 副研究员
Associate Professor
中国地震局工程力学研究所
Institute of Engineering Mechanics
, China Earthquake Administration
2010/08 - 2012/12 博士后研究员
Postdoc Fellow
日本东京工业大学都市地震工程研究中心
Center for Urban Earthquake Engineering, Tokyo Institute of Technology
2007/08 - 2010/07 工学博士 | Ph.D.
[Thesis Download]
清华大学土木工程系
Department of Civil Engineering, Tsinghua University
2005/08 - 2007/07 工学硕士 | M.E.
[Thesis Download]
清华大学土木工程系
Department of Civil Engineering, Tsinghua University
2001/09 - 2005/07 工学学士 | B.E.
[Thesis Download]
清华大学土木工程系
Department of Civil Engineering, Tsinghua University

2023/01 till now 主任
Director
中国地震局工程力学研究所工程抗震研究中心
Structural Engineering Research Center, Institute of Engineering Mechanics, China Earthquake Administration
2021/03 - 2021/07 兼聘
Full-time Temp
国家自然科学基金委员会工程科学四处
Division IV of Engineering Sciences, National Natural Science Foundation of China
2019/07 - 2022/12 副主任
Vice director
中国地震局工程力学研究所恢先地震工程综合实验室
Huixian Lab for Earthquake Engineering, Institute of Engineering Mechanics, China Earthquake Administration
2017/12 - 2018/01 客座研究员
Visiting Researcher
日本东京工业大学建筑系
Department of Architecture, Tokyo Institute of Technology
2012/11 - 2012/12 访问学者
Visiting Scholar
美国加州大学洛杉矶分校土木与环境工程系
School of Civil & Environmental Engineering, UCLA
2008/09 - 2009/03 准客座研究员
Visiting Researcher
日本东京工业大学结构工程研究中心
Structural Engineering Research Center, Tokyo Institute of Technology
2006/07 - 2006/09 访问研究员
Visiting Researcher
英国爱丁堡大学环境与基础设施研究所
IIE, University of Edinburgh
20230608 工作表.1013 工作表.1009 损伤控制 Damage Control 损伤控制Damage Control 损伤机理 Damage Mechanisms 损伤机理Damage Mechanisms 结构损伤 Structural Damage 结构损伤Structural Damage 非结构损伤 Nonstructural Damage 非结构损伤Nonstructural Damage 通用方法 General Methods 通用方法General Methods 吊顶 Suspended Ceiling 吊顶Suspended Ceiling 建筑功能 Functionality 建筑功能Functionality 屈曲约束支撑 BRBs 屈曲约束支撑BRBs 建筑地震损伤控制 Seismic Damage Control of Buildings 建筑地震损伤控制Seismic Damage Control of Buildings 楼面加速度 (JEE 2021) 楼面加速度 (JEE 2021) 钢网架屋面 (EEEV 2019) 钢网架屋面 (EEEV 2019) 三通试验 (土木学报 2018) 三通试验 (土木学报 2018) 振动台试验 (EEEV 2016) 振动台试验 (EEEV 2016) 量化评估 (PCF 2020) 量化评估 (PCF 2020) 单轴实验 (土木学报 2018) 单轴实验 (土木学报 2018) 钢消能连梁 (ES 2020) 钢消能连梁 (ES 2020) 动态连接线 动态连接线.617 动态连接线.618 动态连接线.619 动态连接线.620 PQ-Fiber PQ-Fiber 极速牛顿法 (IJNME 2020) 极速牛顿法 (IJNME 2020) 穿斗木动力特性 (2014) 穿斗木动力特性 (2014) 分布式TLD (EEEV 2008) 分布式TLD (EEEV 2008) 泸定地震 (ERA 2022) 泸定地震 (ERA 2022) 混凝土结构 Concrete Structures 混凝土结构Concrete Structures 几何非线性 (ASE 2023) 几何非线性 (ASE 2023) 铰支墙-框架 PS Wall-Frames 铰支墙-框架PS Wall-Frames 剪切型金属阻尼器 Metallic shear dampers 剪切型金属阻尼器Metallic shear dampers 调谐阻尼器 Tuned Dampers 调谐阻尼器Tuned Dampers 减震控制 Seismic Passive Control 减震控制Seismic Passive Control 隔震控制 Seismic Isolation 隔震控制Seismic Isolation 被动隔震 Passive Isolation 被动隔震Passive Isolation 半主动隔震 Semi-active Isolation 半主动隔震Semi-active Isolation G3教学楼 (EESD 2012) G3教学楼 (EESD 2012) 填充墙影响 (Spectra 2015) 填充墙影响 (Spectra 2015) 塑性铰支座 (EESD 2018) 塑性铰支座 (EESD 2018) 设计需求 (JSE 2020) 设计需求 (JSE 2020) 消能器影响 (EEEV 2022) 消能器影响 (EEEV 2022) 非约束节点板 (JSE 2016) 非约束节点板 (JSE 2016) 装配干式连接 (工力 2018) 装配干式连接 (工力 2018) 之字形支撑 (EESD 2013) 之字形支撑 (EESD 2013) 之字形支撑 (ES 2015) 之字形支撑 (ES 2015) 菱形支撑 (ES 2017) 菱形支撑 (ES 2017) 超强系数 (学报 2016) 超强系数 (学报 2016) 应变率效应 (JSE 2020) 应变率效应 (JSE 2020) 应变率和温度效应 应变率和温度效应 塑性变形能力 塑性变形能力 摩擦阻尼器 Friction dampers 摩擦阻尼器Friction dampers 应变率效应 (JSE 2022) 应变率效应 (JSE 2022) 悬墙式 (ES 2021) 悬墙式 (ES 2021) 高层建筑隔震 (2009) 高层建筑隔震 (2009) 碰撞影响 (Spectra 2013) 碰撞影响 (Spectra 2013) 性价比 (学报 2020) 性价比 (学报 2020) VFD破坏震例 (2022) VFD破坏震例 (2022) 支座破坏震例 (2022) 支座破坏震例 (2022) 内部物品倾覆 内部物品倾覆 楼面速度 (EESD 2023) 楼面速度 (EESD 2023) NEST足尺房间 NEST足尺房间 隔震层扭转反应 隔震层扭转反应 震害易损性 (工力 2019) 震害易损性 (工力 2019) 频率相关性 (EESD 2023) 频率相关性 (EESD 2023) 面内易损性 (学报 2018) 面内易损性 (学报 2018) 面内界限状态 (JEE 2021) 面内界限状态 (JEE 2021) 面外承载力 (ES 2021) 面外承载力 (ES 2021) 非结构墙 Nonstructural Walls 非结构墙Nonstructural Walls 管线 Piping 管线Piping 内部物品 Contents 内部物品Contents 摇摆倾覆谱 摇摆倾覆谱 摇摆局部阻尼 (EEEV 2022) 摇摆局部阻尼 (EEEV 2022) 不确定性 (ERA 2022) 不确定性 (ERA 2022) 柱拉剪破坏 柱拉剪破坏 钢结构 Steel Structures 钢结构Steel Structures 木结构 Timber Structures 木结构Timber Structures 穿斗木面内试验 (ES 2020) 穿斗木面内试验 (ES 2020) 强度指标 强度指标 数值方法Numerical Methods 数值方法Numerical Methods 一致阻尼 (JEE 2022) 一致阻尼 (JEE 2022) 层间位移量测 层间位移量测 轻量化台阵 轻量化台阵 等价线性化 (学报 2010 ) 等价线性化 (学报 2010 ) 鱼骨模型 (EEEV 2019) 鱼骨模型 (EEEV 2019) 承载力退化 (工力 2011) 承载力退化 (工力 2011) 汶川地震强柱弱梁 (2008) 汶川地震强柱弱梁 (2008) 地震动 Ground Motions 地震动Ground Motions 选波 (土木学报 2011 ) 选波 (土木学报 2011 ) 脉冲型地震动 (工力 2016) 脉冲型地震动 (工力 2016) 监测方法 Instrumentation 监测方法Instrumentation V 形.615 V 形.947 可靠度 可靠度 塑性变形需求 塑性变形需求 强自适应性控制 强自适应性控制 土耳其地震 (ERA 2023) 土耳其地震 (ERA 2023) 可靠度 可靠度 评估阈值 评估阈值 精密仪器 精密仪器 非结构综述 (土木学报 2017) 非结构综述 (土木学报 2017) NEST控制算法 (ERA 2023) NEST控制算法 (ERA 2023) 非结构加载制度 (JEE 2023) 非结构加载制度 (JEE 2023) 试验方法 Experimental Methods 试验方法Experimental Methods NEST numerical NEST numerical NEST experimental NEST experimental 尼泊尔地震 (ERA 2018) 尼泊尔地震 (ERA 2018) 芦山地震 (EEEV 2013) 芦山地震 (EEEV 2013) 芦山地震 (Spectra 2013) 芦山地震 (Spectra 2013) 漾濞地震 (2021) 漾濞地震 (2021) 震害调查 Field Survey 震害调查Field Survey PCaPC数值 (ES 2019) PCaPC数值 (ES 2019) PCaPC试验 (ES 2019) PCaPC试验 (ES 2019) 正截面分析 (ERA 2023) 正截面分析 (ERA 2023) 工作表.1000 工作表.1001 现浇RC非结构墙 现浇RC非结构墙 工作表.1004 扁梁扁柱框架 扁梁扁柱框架 工作表.1005 框架易损性清洗 框架易损性清洗 工作表.1008 软土场地隔震 软土场地隔震 工作表.1010 工作表.1011 加速度智能积分 加速度智能积分 工作表.1012 超高层住宅动力特性 超高层住宅动力特性 链接选择.732 工作表.1015 工作表.1016 工作表.1017 工作表.1018 工作表.1019 工作表.1020 工作表.1021 工作表.1022 工作表.1023 工作表.1024 工作表.1025 工作表.1026 工作表.1027 工作表.1028 工作表.1029 工作表.1030 工作表.1031 工作表.1032 工作表.1033 工作表.1034 工作表.1035 工作表.1036 工作表.1037 工作表.1038 工作表.1039 工作表.1040 工作表.1041 Click to open Click to open
2023/9 till now 秘书长
Secretary General
陕西省抗震防灾协会
The Association of Earthquake Resistance and Disaster Prevention of Shaanxi Province
2022/4 till now 编委
Editorial Board Member
《地震研究》
Journal of Seismological Research
2021/9 till now 委员
Member
中国地震学会地震工程专业委员会
Committee of Seismic Engineering, Seismological Society of China (SSOC)
2021/04 till now 副主编
Associate Editor
Earthquake Research Advances 
2020/12 till now 委员
Member
中国工程建设标准化协会抗震专业委员会
Committee of Seismic Engineering, China Association for Engineering Construction Standardization (CECS)
2019/03 till now 副主编
Associate Editor
《世界地震工程》
World Earthquake Engineering
2018/12 till now 副主编
Associate Editor
《建筑钢结构进展》
Progress in Steel Building Structures
2019/01 - 2021/12 编委
Editorial Board Member
Earthquake Research in China 
2017/11 - 2020/11 委员
Member
中国建筑学会抗震防灾分会村镇绿色建筑综合防灾专业委员会
Committee of Disaster Risk Reduction for Rural Buildings, Architectural Society of China
2017/04 - 2020/04 副秘书长
Vice Chair
清华大学校友总会土木工程系、建设管理系分会
Department of Civil Engineering and Construction Management Branch, Alumni Association of Tsinghua University
2009/03 - 2010/03 副攻
Second Spiker
清华大学土木建管系男排
Volleyball Team of Department of Civil Engineering, Tsinghua University
2004/03 - 2005/03 主席
Chairman
清华大学土木建管系学生科协
Student Associateion of Science and Technology, Department of Civil Engineering, Tsinghua University
2003/07 - 2005/12 男高
Tenor
清华大学学生艺术团合唱队
Tsinghau Chorus
2023/05 中国灾害防御协会“灾害防御科学技术奖”科技进步二等奖(3/9)
中国地震巨灾模型
2nd Class Award for Science and Technology Progress, China Association for Disaster Prevention
2022/11 中科院物理所&哔哩哔哩“科学3分钟”全国科普微视频大赛宝藏新人奖
2022/08 中国地震局领军人才
1st Class High-Level Talents Program of China Earthquake Administration
2021/12 2020年度黑龙江省力学优秀博士学位论文导师
Advisor of Eexcellent Doctoral Thesis by Heilongjiang Society of Mechanics
2021/11 全国应急管理系统二级英模
2021/11 全国应急管理系统先进工作者
National Advanced Worker in Emergency Management
2021/07 中国地震学会2021国际防震减灾科普作品大赛图书类一等奖(2/3)
1st Class Award for Books, 2021 International Contest of Popular Science Works on Earthquake Prevention and Disaster Reduction, Seismological Society of China
2021/07 中国地震局防震减灾科学成果二等奖(1/9)
建筑结构地震损伤机制控制关键技术研究
2nd Class Award for Seismic Disaster Mitigation, China Earthquake Administration
2020/12 国务院政府特殊津贴
Special Government Allowance of the State Council
2020/12 全国科普工作先进工作者
National Advanced Worker in Popular Science
2019/12 第二届全国防震减灾科普作品大赛二等奖
2nd Award, 2nd National Competition of Popular Science for Seismic Disaster Risk Reduction
2019/12 应急管理科普作品优秀奖
Outstanding Popular Science Work for Emergency Management
2019/10 黑龙江省“龙江学者”青年学者
"Longjiang Scholar" of Heilongjiang Province
2019/09 国家百千万人才工程,“有突出贡献中青年专家”
Young and Middle-Aged Experts with Outstanding Contributions, National Bai-Qian-Wan Talent Project
2019/07 中国地震局工程力学研究所优秀共产党员
2019/06 2018年度黑龙江省力学优秀硕士学位论文导师
Advisor of Eexcellent Master Thesis by Heilongjiang Society of Mechanics
2019/05 2019年度日本建筑学会著作奖(8/8)
AIJ Book Award, Architectural Institute of Japan
2019/03 中国地震局骨干人才
2nd Class High-Level Talents Program of China Earthquake Administration
2018/08 2018年恢先地震工程学优秀学术会议论文奖(1/5)
Best Paper Award, 10th National Conference on Earthquake Engineering
2018/07 2018年黑龙江省优秀科普作品
Outstanding Popular Science Award of Heilongjiang Province
2018/02 黑龙江省政府特殊津贴
Special Government Allowance of Heilongjiang Province
2016/12 国家科学技术进步二等奖(7/15)
大型复杂结构在线混合试验关键技术与应用
2nd Class National Award for Science and Technology Progress
2016/07 中国地震局工程力学研究所优秀共产党员
2016/05 入选中国地震局防震减灾优秀人才“百人计划”
"Hundred Talents Program" of China Earthquake Administration
2015/12 中国地震局防震减灾科技成果一等奖(4/9)
大型复杂工程子结构混合试验基础理论与关键技术
1st Award for Seismic Disaster Mitigation, China Earthquake Administration
2015/11 第24届全国结构工程学术会议优秀论文一等奖(3/4)
Best Paper Award, 24th National Conf. on structural Engineering
2015/05 国际桥梁与结构工程师协会青年工程师贡献奖
Young Engineers' Contribution Award, IABSE
2014/10 第23届全国结构工程学术会议优秀论文一等奖(1/2)
Best Paper Award, 23th National Conf. on Structural Engineering
2013/09 2012年度领跑者5000中国精品科技期刊顶尖学术论文(2/4)
Frontrunner 5000 Top Articles in Outstanding S&T Journals of China
2013/03 第10届国际都市地震工程会议青年最佳报告奖
Best Presentation Award, 10th Intl. Conf. Urban Earthquake Engng.
2012/03 第9届国际都市地震工程会议暨第四届亚洲地震工程会议青年最佳报告奖
Best Presentation Award, 9th Intl. Conf. Urban Earthquake Engng. & 4th Asian Conf. Earthquake Engng.
2010/10 2010年太平洋地震工程研究中心(PEER)混凝土柱仿真竞赛 科研组第1名
First Place Award in Academic Category, PEER/NEES Concrete Column Blind Prediction Contest 2010
2010/03 第7届国际都市地震工程会议暨第五届国际地震工程会议青年最佳报告奖
Best Presentation Award, 7th Intl. Conf. Urban Earthquake Engng. & 5th Intl. Conf. Earthquake Engng.
2009/11 清华大学第223期博士生学术论坛优秀报告奖
Best Presentation Award, Doctoral Forum of Tsinghua University
2008/03 2007-2008年度秋季学期清华大学土木水利学院优秀助教
Excellent Teaching Assistant of Tsinghua University
2007/12 光华奖学金一等奖
First-class Kuang-Hua scholarship
2007/12 2006-2007年度清华大学研究生社会实践三等奖
Tsinghua - SAMSUNG scholarship
2006/12 2005-2006年度清华大学研究生单项二等奖学金(科学技术)
2006/12 2005-2006年度清华大学研究生综合一等奖学金
2006/10 第九届全国混凝土结构基本理论与工程应用学术会议青年优秀论文
Best Paper Award for Young Researchers, 9th Conf. on Basic Theory and Eng Apps of Concrete Structures
2006/05 清华大学第24届“挑战杯”学生课外科技作品展览二等奖
Second Prize of 24th "Challenge Cup" Tech Inno Competition in Tsinghua University
2005/12 2004-2005年度清华大学研究生单项一等奖学金(科技学术)
2005/10 清华大学第100期博士生学术论坛最佳报告奖
Best Presentation Award, Doctoral Forum of Tsinghua University
2005/07 清华大学综合论文训练优秀论文
2005/07 北京地区高等学校优秀毕业生
Outstanding Graduate of Universities in Beijing
2005/07 清华大学优良毕业生
2005/05 清华大学第23届“挑战杯”学生课外科技作品展览一等奖、创新奖
First Prize and Innovation Award of 23rd "Challenge Cup" Tech Inno Competition in Tsinghua University
2005/04 2003-2004学年度清华大学学业优秀一等奖(国家二等奖学金)
National Scholarship for Excellent Students
2004/12 2003-2004年度北京市三好学生
Outstanding Student of Beijing '03-'04
2004/12 2003-2004学年清华大学“优秀学生干部”
Awards for Outstanding Performance in Students' Social Work of School
2004/03 2002-2003学年度清华大学学业优秀二等奖(国家二等奖学金)
National Scholarship for Excellent Students
2003/12 2002-2003学年清华大学“优秀学生干部”
Awards for Outstanding Performance in Students' Social Work of School
2003/05 2001-2002学年度Arup奖学金二等奖
ARUP Scholarship
2022/01-2024/12 国家自然科学基金优秀青年科学基金项目 (52122811): 钢筋混凝土建筑地震损伤控制. | Natural Science Foundation of China (52122811): Seismic damage control of reinforced concrete buildings. 负责人
PI
2021/10-2023/10 中国地震局地震工程与工程振动重点实验室重点专项工程 (2021EEEVL0206): 建筑工程地震经济损失评估方法研究. | Key Program of the CEA Key Laboratory for Earthquake Engineering and Engineering Vibration (2021EEEVL0206): Economic loss assessment of buildings in earthquakes. 负责人
PI
2020/12-2023/11 “十三五”国家重点研发计划政府间国际科技创新合作重点专项课题 (2019YFE0112702): 建筑管线系统抗震性能研究. | Intergovernmental International Cooperation in Science and Technology Innovation Program of the National Key Research and Development Program of China (2019YFE0112702): Seismic performance of piping systems in buildings. 负责人
PI
2019/09-2022/12 中国地震局工程力学研究所基本科研业务专项重点项目 (2019A02): 核电站重要部件减隔震关键技术研究. | Fundamental Research Grant of Institute of Engineering Mechanics, CEA (2019A02): Seismic damage control for key components in nuclear power plants.
2019/09-2022/08 中国地震局地震工程与工程振动重点实验室重点专项工程 (2019EEEVL0304): 非结构构件抗震技术与性态控制技术研究. | Key Program of the CEA Key Laboratory for Earthquake Engineering and Engineering Vibration (2019EEEVL0304): Seismic performance and its control of engineering nonstructural components. 负责人
PI
2019/07-2022/07 黑龙江省自然科学基金杰出青年项目 (JQ2019E005): 考虑非结构因素的隔震建筑地震损伤控制研究. | Fund for Distinguished Young Scientists of Heilongjiang Provincial Natural Science Foundation of China (JQ2019E005): Seismic damage control of base-isolated buildings considering nonstructural damage. 负责人
PI
2019/01-2022/12 国家自然科学基金面上项目 (51878629): 基于功能损失的建筑减震控制研究. | Natural Science Foundation of China (51878629): Functional loss-based seismic damage control of buildings. 负责人
PI
2018/12-2021/11 “十三五”国家重点研发计划课题 (2018YFC1504602): 地震保险承灾体易损性模型研究. | National Key Research and Development Program of China (2018YFC1504602): Study on Seismic Fragilities of Insurance Engineering Subjects. 负责人
PI
2018/08-2021/08 中国地震局工程力学研究所基本科研业务费国际合作专项 (2018C01): 考虑非结构因素的高层建筑减震控制研究. | Fundamental Research Grant of Institute of Engineering Mechanics, CEA (2018C01): Seismic response control of highrise buildings considering nonstructural damage. 负责人
PI
2016/01-2019/12 中国地震局工程力学研究所基本科研业务专项重点项目 (2016A05): 防灾关键建筑地震恢复能力研究. | Fundamental Research Grant of Institute of Engineering Mechanics, CEA (2016A05): Seismic resilience of important buildings for disaster prevention.
2015/01-2018/12 国家自然科学基金面上项目 (51478441): 框架-摇摆墙消能减震结构的地震恢复能力研究. | General Program of National Natural Science Foundation of China (51478441): Seismic resilience of passive controlled pin-supported wall-frame structures. 负责人
PI
2015/01-2017/12 地震行业科研专项经费项目 (201508023): 城市工程系统地震安全性及可恢复性评价理论研究. | China Earthquake Administration Research Fund for Earthquake Engineering (201508023): Evaluation of the safety and resilience of urban civil systems under earthquakes.
2015/01-2017/12 “十二五”国家科技支撑计划项目专题 (2015BAK17B03-4): 考虑多种地震动强度指标和非结构因素的超高层建筑易损性. | Sub-project in National Science & Technology Support Program during the Twelfth Five-year Plan Period of China (2015BAK17B03-4): Effects of intensity measures and non-structural damages in seismic vulnerability evaluation of tall buildings. 负责人
PI
2014/08-2016/12 黑龙江省自然科学基金面上项目 (E201469): 采用塑性铰支座的摇摆墙体系抗震性能与设计方法研究. | General Program of Natural Science Foundation of Heilongjiang (E201469): Seismic performance and design of plastic hinge supported walls. 负责人
PI
2014/01-2017/03 国家国际科技合作专项 (2014DFA70950): 基于装配技术的震后可快速恢复功能结构体系. | International Science & Technology Cooperation Program of China (2014DFA70950): Earthquake-resilient high-rise buildings based on assembly technology.
2014/01-2016/12 国家自然科学基金青年基金(51308514): 基于损伤控制的功能可恢复RC框架结构抗震性能研究. | National Natural Science Foundation of China for Young Scholars (51308514): Seismic performance of damage-controlled resilient RC frame structures. 负责人
PI
2014/01-2015/12 黑龙江省博士后科研启动金 (LBH-Q13174): 自复位摇摆墙-框架结构体系抗震性能研究. | Postdoctoral Science-Research Development Foundation (LBH-Q13174): Seismic performance of self-centering rocking wall-frame system. 负责人
PI
2013/07-2015/12 中国地震局工程力学研究所基本科研业务专项面上项目 (2013B13): 近断层地震动作用下隔震建筑抗震性能研究. | Fundamental Research Grant of Institute of Engineering Mechanics, CEA (2013B13): Seismic performance of base isolated buildings subjected to near-fault ground motions. 负责人
PI
2013/07-2015/12 中国地震局工程力学研究所基本科研业务专项重点项目 (2013A01): 地震安全社区建设关键技术研究.. Fundamental Research Grant of Institute of Engineering Mechanics, CEA (2013A01): Key structural issues in seismic resilience of residential communities.
结构札记
 
曲哲
 
北京: 中国建筑工业出版社
ISBN 978-7-112-16183-6
2014年7月
210页
建筑结构损伤控制设计
 
和田章, 岩田卫 等著
曲哲, 裴星洙 译
 
北京: 中国建筑工业出版社
ISBN 978-7-112-16378-6
2014年11月
218页
Buckling-Restrained Braces and Applications
 
Takeuchi T and Wada A eds.
 
Tokyo: The Japan Society of Seismic Isolation
ISBN 9784909458018
2017年
254页
震振震:房子为什么摇晃
 
文|曲哲   图|修修
 
北京: 台海出版社
ISBN 978-7-5168-1809-1
2018年5月
40页
不怕地震的房子:控制建筑物的地震损伤
 
曲哲
 
北京: 中国地震局发展研究中心
2020年7月
73页
结构抗震分析(第3版)
 
柴田明德 著
曲哲
 
北京: 中国建筑工业出版社
ISBN 978-7-112-25380-7
2020年9月
406页
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Ji XD*, Zhuang YC, Lim WH, Qu Z. Seismic behavior of a fully tempered insulating glass curtain wall system under various loading protocols. Earthquake Engineering & Structural Dynamics, 2023, online. [pdf]
54
Zheng JY, Huang YL, Qu Z*. Proper interpretation of section analysis results. Earthquake Research Advances, 2023: 100238, online open access. [pdf]
53
Cao YT, Qu Z*, Ji XD. A novel control strategy for reproducing the floor motions of high-rise buildings by earthquake-simulating shake tables. Earthquake Research Advances, 2023: 100236, online open access. [pdf]
52
Qu Z*, Wang FJ, Chen XZ, Wang XT, Zhou ZG. Rapid report of seismic damage to hospitals in the 2023 Turkey earthquake sequences. Earthquake Research Advances, 2023: 100234, online open access. [pdf]
51
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Cao YT, Qu Z*, Ji XD. A building-specific dynamic loading protocol for experiments on nonstructural elements. Journal of Earthquake Engineering, 2023, online. [pdf]
50
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Wang JZ, Huang QY*, Burton H, Dai KS, Qu Z. Probabilistic assessment of the rules used to combine peak floor responses of special concentrically braced frames under orthogonal seismic effects. Earthquake Engineering & Structural Dynamics, 52(15), 2023: 4796-4819. [pdf]
49
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Wang WT, Li L*, Qu Z. Machine learning-based collapse prediction for post-earthquake damaged RC columns under subsequent earthquakes. Soil Dynamics and Earthquake Engineering, 172, 2023: 108036. [pdf]
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Xiao SJ, Zhou GZ, Feng P*, Qu Z. Seismic performance evaluation of novel RC frame structure with kinked rebar beams and post-yield hardening columns through shaking table tests. Engineering Structures, 290, 2023: 116375. [pdf]
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Liu XH, Qu Z*, Huang YL, Wada A. Effects of geometric nonlinearities on the vibration reduction performance of tuned mass dampers on top of flexible structures. Advances in Structural Engineering, 26(14), 2023: 2565–2571. [pdf]
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Wang YM*, Qu Z. TMD design by an entropy index for seismic control of tall shear-bending buildings. Entropy, 25(8), 2023: 1110. [pdf]
45
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Tian Y, Huang YL, Qu Z, Fei YF, Lu XZ*. High-performance uniform damping model for response history analysis in OpenSees. Journal of Earthquake Engineering, 27(11), 2023: 3136-3152. [pdf]
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Feng YX, Li QQ, Qu Z*. Frequency-sensitivity of the seismic damage to suspended ceilings. Earthquake Engineering & Structural Dynamics, 52(7), 2023: 2006-2024. [pdf]
43
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Wang XY, Qu Z*, Gong T. The role of dampers on the seismic performance of pin-supported wall-frame structures. Earthquake Engineering and Engineering Vibration, 22, 2023: 453–467. [pdf]
42
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Wang FJ, Huang YL, Qu Z*. Limitation of base isolation in protecting freestanding contents in buildings. Earthquake Engineering and Structural Dynamics, 52(6), 2023: 1805-1822. [pdf]
41
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Ji XD*, Gao X, Zhuang YC, Qu Z. Enhanced measurements of structural inter-story drift responses in shaking table tests. Engineering Structures, 278, 2023: 115508. [pdf]
40
Wang XY, Qu Z*. Uncertainty in the seismic performance of semi-active base isolation systems. Earthquake Research Advances, 3(2), 2023: 100173, online open access. [pdf]
39
Qu Z*, Zhu BJ, Cao YT, Fu HR. Rapid report of seismic damage to buildings in the 2022 M6.8 Luding earthquake, China. Earthquake Research Advances, 3(1), 2023: 100180, online open access. [pdf]
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Cao XY, Shen DJ, Feng DC, Wang CL, Qu Z, Wu G*. Seismic retrofitting of existing frame buildings through externally attached sub-structures: State of the art review and future perspectives. Journal of Building Engineering, 57, 2022: 104904. [pdf]
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Xie XX, Zhang LX, Qu Z*. A critical review of methods for determining the damage states for the in-plane fragility of masonry infill walls. Journal of Earthquake Engineering, 26(9), 2022, 4523-4544. [pdf]
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Liu HQ, Huang Y, Qu Z*. A discretely damped SDOF model for the rocking response of freestanding blocks. Earthquake Engineering and Engineering Vibration, 21(3), 2022: 729–740. [pdf]
35
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Gao JW, Yuan Y, Qiu TY, Wang CL*, Qu Z. Performance optimization and loading rate-dependency of friction dampers with non-metallic friction materials. Journal of Building Engineering, 54, 2022: 104609. [pdf]
34
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Qu Z, Kishiki S*, Sakata H. The effect of strain rate and temperature on the hysteresis of shear dampers of LY225 low-yield-strength steel. Engineering Structures, 257(2022), 2022: 114123. [pdf]
33
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Cao YT, Huang Y, Qu Z*. Response spectrum analysis of peak floor accelerations of buildings under earthquakes. Journal of Earthquake Engineering, 26(14), 2022: 7337-7352. [pdf]
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Maida Y*, Sakata H, Qu Z, Maegawa T, Suzuki H. Cyclic loading test of lightly reinforced concrete wall piers with slit dampers in RC frames. Engineering Structures, 236(2021), 2021: 112099. [pdf]
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Xie XX, Qu Z*, Fu HR, Zhang LX. Effect of prior in-plane damage on the out-of-plane behavior of masonry infill walls. Engineering Structures, 226(2021), 2021: 111380. [pdf]
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Xu JJ, Huang YL*, Qu Z. An efficient and unconditionally stable numerical algorithm for nonlinear structural dynamics. International Journal for Numerical Methods in Engineering, 121(20), 2020: 4614-4629. [pdf]
29
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Qu Z*, Gong T, Wang XY, Li QQ, Wang T. Stiffness and strength demands for pin-supported walls in RC moment frames. Journal of Structural Engineering, ASCE, 146(9), 2020: 04020181. [pdf]
[data]
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Qu Z*, He SW, Fu HR. Computational evaluation of the functional loss and recovery of individual buildings. Journal of Performance of Constructed Facilities, ASCE, 34(3), 2020: 04020042 [pdf]
27
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Qu Z, Fu X*, Kishiki S, Cui Y. Behavior of masonry infilled Chuandou timber frames subjected to in-plane cyclic loading. Engineering Structures, 211, 2020: 110449. [pdf]
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Qu Z*, Ji XD, Shi X, Wang YD, Liu HQ. Cyclic loading test of steel coupling beams with mid-span friction dampers and RC slabs. Engineering Structures, 203, 2020: 109876. [pdf]
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Qu Z*, Xie JZ, Cao YT, Li WJ, Wang T. Effects of strain rate on the hysteretic behavior of buckling restrained braces. ASCE Journal of Structural Engineering, 146(1), 2020: 06019003. [pdf]
24
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Kurosawa R, Sakata H, Qu Z*, Suyama T. Cyclic loading tests on RC moment frames retrofitted by PC frames with mild press joints through RC slabs for connection. Engineering Structures, 197, 2019: 109440. [pdf]
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Hou HT, Fu WQ, Qiu XC*, Cheng JR, Qu Z, Zhu WC, Ma TX. Effect of axial compression ratio on concrete-filled steel tube composite shear wall. Advances in Structural Engineering, 22(3), 2019: 656-669. [pdf]
22
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Qu Z*, Gong T, Li QQ, Wang T. Evaluation of the fishbone model in simulating the seismic response of multistory reinforced concrete moment-resisting frames. Earthquake Engineering and Engineering Vibration, 18(2), 2019: 315-330. [pdf]
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Qiang HL, Feng P*, Qu Z. Seismic responses of post-yield hardening single-degree-of-freedom systems incorporating high-strength elastic material. Earthquake Engineering & Structural Dynamics, 48(6), 2019: 611-633. [pdf]
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Kurosawa R, Sakata H, Qu Z*, Suyama T. Precast prestressed concrete frames for seismically retrofitting existing RC frames. Engineering Structures, 184, 2019: 345-354. [pdf]
19
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Li JC, Qu Z*, Wang T. Lessons from the seismic behavior of a steel grid roof structure heavily damaged in Lushan earthquake. Earthquake Engineering and Engineering Vibration, 18(1), 2019: 95-111. [pdf]
18 Qu Z*, Wang T, Lin XC, Zhang HY, Yang YQ. Seismic damage to owner-built RC frames in Charikot during the 2015 Nepal earthquake sequence. Earthquake Research in China, 32(4), 2018: 584-601. [pdf]
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Wada A, Towhata I, Tamura K, Qu Z*. A complete introduction to the SCJ proposal and its commentary on the development of seismically resilient cities. Earthquake Engineering and Engineering Vibration, 17(4), 2018: 667-691. [pdf]
16 Wada A*, Towhata I, Tamura K, Qu Z. Moving toward cities where earthquakes will not cause a grievous disaster. Japan Architectural Review, 1(4), 2018: 410-418. Open Access
15 Wang XT, Wang T*, Qu Z. An experimental study of a damage-controllable plastic-hinge-supported wall structure. Earthquake Engineering & Structural Dynamics, 47(3), 2018: 594-612. [pdf]
14 Xie LL, Qu Z*. On civil engineering disasters and their mitigation. Earthquake Engineering and Engineering Vibration, 17(1), 2018: 1-10. [pdf]
13 Qu Z*, Xie JZ, Wang T, Kishiki S. Cyclic loading test of double K-braced reinforced concrete frame subassemblies with buckling restrained braces. Engineering Structures, 139, 2017: 1-14. [pdf]
12 Wang DZ, Dai JW*, Qu Z, Ning XQ. Shake table tests of suspended ceilings to simulate the observed damage in the Ms7.0 Lushan earthquake, China. Earthquake Engineering and Engineering Vibration, 15(2), 2016: 239-249. [pdf]
11 Qu Z*, Kishiki S, Maida Y, Sakata H. Subassemblage cyclic loading tests of buckling restrained braced RC frames with unconstrained gusset connections. Journal of Structural Engineering, ASCE, 142(2), 2016: 04015128. [pdf]
10 Qu Z*, Kishiki S, Maida Y, Sakata H., Wada A. Seismic responses of reinforced concrete frames with buckling restrained braces in zigzag configuration. Engineering Structures, 105, 2015: 12-21. [pdf]
9 Qu Z*, Dutu A, Zhong JR, Sun JJ. Seismic damage to masonry infilled timber houses in the 2013 M7.0 Lushan earthquake in China. Earthquake Spectra, 31(3), 2015: 1859-1874. [pdf]
8 Qu Z*, Sakata H, Midorikawa S, Wada A. Lessons from the behavior of a monitored eleven-story building during the 2011 Tohoku-oki earthquake for robustness against design uncertainties. Earthquake Spectra, 31(3), 2015: 1471-1492. [pdf]
7 Dai JW*, Qu Z, Zhang CX, Weng XR. Preliminary investigation of seismic damage to two steel space structures during the 2013 Lushan earthquake. Earthquake Engineering and Engineering Vibration, 12(3), 2013: 495-500. [pdf]
6 Qu Z*, Kishiki S, Nakazawa T. Influence of isolation gap size on collapse performance of seismically base-Isolated buildings. Earthquake Spectra, 29(4), 2013: 1477-1494. [pdf]
5 Qu Z*, Kishiki S, Sakata H, Wada A, Maida Y. Subassemblage cyclic loading test of RC frame with buckling restrained braces in zigzag configuration. Earthquake Engineering & Structural Dynamics, 42(7), 2013: 1087-1102. [pdf]
4 Qu Z*, Wada A, Motoyui S, Sakada H, Kishiki S. Pin-supported walls for enhancing the seismic performance of building structures. Earthquake Engineering & Structural Dynamics, 41(14), 2012: 2075-2091. [pdf]
3 Godat A*, Qu Z, Lu XZ, Labossiere P, Ye LP, Neale KW. Size effects for reinforced concrete beams strengthened in shear with CFRP strips. Journal of Composites for Construction, ASCE, 14(3), 2010: 260-271. [pdf]
2 Ye LP*, Qu Z. Failure mechanism and its control of building structures under earthquakes based on structural system concept. Journal of Earthquake and Tsunami, 3(4), 2009: 249-259. [pdf]
1 Ye LP*, Lu XZ, Qu Z, Hou JQ. Distributed TLDs in RC floors and their vibration reduction efficiency. Earthquake Engineering and Engineering Vibration, 7(1), 2008:1-6. [pdf]
63 滕明睿, 冯鹏*, 林红威, 曲哲. 基于滞回曲线数据的抗震性能分析: 指标定义, 算法优化与程序实现. 工程力学, 2023, 网络首发. | Teng MR, Feng P*, Lin HW, Qu Z. Seismic performance assessment based on hysteresis curves: Index definition, algorithm optimization and automatic identification. Engineering Mechanics, 2023, online. [pdf]
62 陶思宇, 曲哲*. 2022年泸定地震某隔震建筑铅芯橡胶支座地震反应分析. 建筑钢结构进展, 2022, 网络首发. | Tao SY, Qu Z*. Seismic response analysis of the lead rubber bearings in a base-isolated building in the 2022 Luding earthquake, China. Progress in Steel Building Structures, 2022, online. [pdf]
61 曲哲*, 付皓然, 王晓岳. 2022年泸定地震某隔震建筑隔震层及上部结构地震反应分析. 建筑钢结构进展, 2022, 网络首发. | Qu Z, Fu HR, Wang XY. Seismic response analysis of the isolation layer and superstructure of a base-isolated building in the 2022 Luding earthquake, China. Progress in Steel Building Structures, 2022, online. [pdf]
60 冯云幸, 曲哲*, 李戚齐. 吊顶地震时程反应分析的二维简化模型. 防灾减灾工程学报, 42(6), 2022: 1222-1227. | Feng YX, Qu Z*, Li QQ. A simplified two-dimensional model for the seismic response history analysis of suspended ceilings. Journal of Disaster Prevention and Mitigation Engineering, 42(6), 2022: 1222-1227. [pdf]
59 付皓然, 曲哲*. 摩擦摆隔震层的瞬时偏心与扭转反应分析. 建筑钢结构进展, 22(132), 2022: 80-88. | Fu HR, Qu Z*. Transient eccentricity and torsional responses of base isolation layers of friction pendulum bearings. Progress in Steel Building Structures, 22(132), 2021: 80-88. [pdf]
58 李文俊, 曲哲*, 孙海林, 熊政辉. 损失分布和非结构损失对房屋建筑地震易损性的影响. 世界地震工程, 37(4), 2021: 109-121. | Li WJ, Qu Z*, Sun HL, Xiong ZH. Influence of loss distribution and non-structural loss on the seismic vulnerability of buildings. World Earthquake Engineering, 37(4), 2021: 109-121. [pdf]
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叶列平, 金鑫磊, 田源*, 陆新征, 缪志伟, 曲哲, 林旭川, 卢啸. 建筑结构抗震体系能力设计法综述. 工程力学, 39(5), 2022: 1-12. | Ye LP, Jin XL, Tian Y*, Lu XZ, Miao ZW, Qu Z, Lin XC, Lu X. System capacity design method for the seismic design of buliding structures: A review. Engineering Mechanics, 39(5), 2022: 1-12. [pdf]
56 李昆, 周煜, 陶思宇, 吕钰, 曲哲*. 云南漾濞6.4级地震公共建筑的震害特征. 世界地震工程, 37(3), 2021: 1-8. | Li K, Zhou Y, Tao SY, Lu J, Qu Z*. Seismic damage to public buildings in the M6.4 Yangbi earthquake in Yunnan. World Earthquake Engineering, 37(3), 2021: 1-8. [pdf]
55 刘汉泉, 曲哲*. 建筑内部物品滑移破坏易脆性分析中的楼面运动强度指标. 世界地震工程, 36(2), 2020: 85-91. | Liu HQ, Qu Z*. An intensity measure of floor motions for seismic fragility analysis of sliding contents in buildings. World Earthquake Engineering, 36(2), 2020: 85-91. [pdf]
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叶良浩, 曲哲*, 孙海林, 宫婷. 采用不同减震结构体系的医疗建筑地震经济损失评估. 建筑结构学报, 41(7), 2020: 15-26. | Ye LH, Qu Z*, Sun HL, Gong T. Earthquake loss evaluation of a medical facility seismically retrofitted by different seismic damage control methods. Journal of Building Structures, 41(7), 2020: 15-26. [pdf]
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谢贤鑫, 张令心, 曲哲*. 足尺砌体填充墙在面内往复荷载作用下的易损性研究. 建筑结构学报, 41(6), 2020: 161-169. | Xie XX, Zhang LX, Qu Z*. Seismic fragility of full-scale masonry infill subjected to in-plane cyclic loading. Journal of Building Structures, 41(6), 2020: 161-169. [pdf]
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李戚齐, 曲哲*, 解全才, 王多智. 我国公共建筑中吊顶的震害特征及其易损性分析. 工程力学, 36(7), 2019: 207-215. | Li QQ, Qu Z*, Xie QC, Wang DZ. Seismic damage characteristics and fragility of suspended ceilings in public buildings in China. Engineering Mechanics, 36(7), 2019: 207-215. [pdf]
51 谢贤鑫, 张令心, 曲哲*. 砌体填充墙中塑钢门窗的地震易损性试验研究. 地震工程与工程振动, 39(4), 2019: 184-191. | Xie XX, Zhang LX, Qu Z. Experimental seismic fragility of windows and doors with plastic-steel frames in masonry infill walls. Earthquake Engineering and Engineering Dynamics, 39(4), 2019: 184-191. [pdf]
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潘毅, 王忠凯, 曲哲*, 赵崇锦. 尼泊尔自建RC框架结构的抗震能力分析. 西南交通大学学报, 54(2), 2019: 304-312. | Pan Y, Wang ZK, Qu Z, Zhao CJ. Seismic performance of owner-built RC frame structures in Nepal. Journal of Southwest Jiaotong University, 54(2), 2019: 304-312. [pdf]
49 曹宇腾, 曲哲*, 纪晓东. 考虑结构地震反应特性的非结构构件动力加载制度. 世界地震工程, 34(4), 2018: 143-147. | Cao YT, Qu Z, Ji XD. Dynamic loading protocol for experiments of non-structural components considering the seismic response characteristics of buildings structures. World Earthquake Engineering, 34(4), 2018: 143-147. [pdf]
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谢贤鑫, 张令心, 曲哲*. 基于可修复性的砌体填充墙易损性研究. 建筑结构学报, 39(12), 2018: 159-167. | Xie XX, Zhang LX, Qu Z. Reparability-based fragility analysis of masonry infills in buildings. Journal of Building Structures, 39(12), 2018: 159-167. [pdf]
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贺思维, 曲哲*, 叶良浩. 建筑常用给水管道地震易损性试验研究. 土木工程学报, 51(10), 2018: 11-19. | He SW, Qu Z, Ye LH Experiment on the seismic fagility of water supply pipelines in buildings. China Journal of Civil Engineering, 51(10), 2018: 11-19. [pdf]
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侯和涛, 朱文灿, 曲哲*, 崔士起. 屈曲约束支撑钢筋混凝土框架结构干式柔性梁柱节点的试验研究. 工程力学, 35(6), 2018: 151-161. | Hou HT, Zhu WC, Qu Z, Cui SQ. Experimental study on dry flexible beam-column joint in buckling restrained braced reinforced concrete frame structures. Engineering Mechanics, 35(6). [pdf]
45 曲哲*, 裴永忠, 李戚齐, 宋前恩, 王亮. 结构-设备相互作用对某工业厂房地震反应的影响. 地震工程与工程振动, 38(4), 2018: 48-53. | Qu Z, Pei YZ, Li Qq, Song QE, Wang L. Effects of structure-equipment interaction on the seismic response of an industrial building. Earthquake Engineering and Engineering Dynamics, 38(4), 2018: 48-53. [pdf]
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叶良浩, 曲哲*, 贺思维, 朱文灿, 侯和涛. 刹车片型摩擦阻尼器的单轴力学性能试验研究. 土木工程学报, 51(7), 2018: 70-74. | Ye LH, Qu Z, He SW, Zhu WC, Hou HT. Experimental study on uniaxial mechanical properties of brake type friction damper. China Journal of Civil Engineering, 51(7), 2018: 70-74. [pdf]
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贺思维, 曲哲*, 周惠蒙, 戴君武, 王多智. 非结构构件抗震性能试验方法综述. 土木工程学报, 50(9), 2017: 16-27. | He SW, Qu Z, Zhou HM, Dai JW, Wang DZ. State of the Practice Review of Testing Nonstructural Components in Seismic Areas. China Civil Engineering Journal, 50(9), 2017: 16-27. [pdf]
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侯和涛, 程积润, 曲哲*, 等. 钢管混凝土边缘约束叠合剪力墙抗震试验研究. 湖南大学学报(自然科学版), 44(5), 2017: 27-36. | Hou HT, Cheng JR, Qu Z, et al. Experimental study on the seismic behavior of concrete filled tube-confined sandwich shear walls. Journal of Hunan University (Natural Sciences), 44(5), 2017: 27-36. [pdf]
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王啸霆, 曲哲*, 王涛. 损伤可控的塑性铰支墙抗震性能试验研究. 土木工程学报, 49(S1), 2016: 131-136. | Wang XT, Qu Z, Wang T. Seismic behavior of damage-controlled plastic hinge-supported walls. China Civil Engineering Journal, 49(S1), 2016: 131-136. [pdf]
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张昊宇, 王涛*, 林旭川, 曲哲, 毛晨曦. 尼泊尔8.1级地震钢筋混凝土框架典型震害及讨论. 工程力学, 33(9), 2016: 59-68. | Zhang HY, Wang T, Lin XC, Qu Z, Mao CX. Seismic damage to RC frames in Nepal Ms 8.1 earthquake. Engineering Mechanics, 33(9), 2016: 59-68. [pdf]
39 侯和涛*, 马天翔, 曲哲, 等. 预制带肋叠合整体式剪力墙拟静力试验研究. 建筑结构, 46(10), 2016: 14-19. | Hou HT, Ma TX, Qu Z, et al. Quasi-static experimental study on prefabricated superimposed ribbed reinforced integral shear wall. Building Structures, 46(10), 2016: 14-19. [pdf]
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曲哲*, 师骁. 汶川地震和鲁甸地震的脉冲型地震动比较研究. 工程力学, 33(8), 2016: 150-157. | Qu Z, Shi X. Comparative study on the pulse-like ground motions in the Wenchuan and the Ludian earthquakes. Engineering Mechanics, 33(8), 2016: 150-157. [pdf]
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师骁, 王彦栋, 曲哲*, 纪晓东. 含摩擦阻尼器钢连梁的往复加载试验. 工程力学, 33(S1), 2016: 156-160. | Shi X, Wang YD, Qu Z, Ji XD. Cyclic loading test of steel coupling beam with friction damper, Engineering Mechanics, 33(S1), 2016: 156-160. [pdf]
36 曲哲*, 中泽俊幸. 建筑隔震技术在日本的发展与应用. 城市与减灾, 5, 2016: 56-63. | Qu Z, Nakazawa Y. Development and application of seismic isolation technology for buildings in Japan. City and Disaster Reduction, 5, 2016: 56-63. [pdf]
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解晋珍, 曲哲*, 王涛. Q235钢芯材屈曲约束支撑的超强特性研究. 建筑结构学报, 37(3), 2016: 141-148. | Xie JZ, Qu Z, Wang T. Over-strength characteristics of buckling restrained braces made of Q235 steel. Journal of Building Structures, 37(3), 2016: 141-148. [pdf]
34 谢礼立*, 曲哲. 论土木工程灾害及其防御. 地震工程与工程振动, 36(1), 2016: 1-10. | Xie LL, Qu Z. On civil engineering disaster and its mitigation. Earthquake Engineering and Engineering Dynamics, 36(1), 2016: 1-10. [pdf]
33 曲哲*, 杨永强. 尼泊尔自建民居在2015年地震序列中的震害. 地震工程与工程振动, 35(4), 2015: 1-9. | Qu Z, Yang YQ. Seismic damages to owner-built dwellings in the 2015 earthquake sequence in Nepal. Earthquake Engineering and Engineering Dynamics, 35(4), 2015: 1-9. [pdf]
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曲哲*, 吉敷祥一. 钢筋混凝土框架结构中防屈曲支撑连接节点的损伤控制. 工程力学, 32(S1), 2015: 78-82. | Qu Z, Shoichi K. Damage control of connection joint for buckling restrained braces in RC frames, 32(S1), 2015: 78-82. [pdf]
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雷远德, 曲哲*, 王涛. 钢筋混凝土空间框架底层梁柱节点双向往复加载试验研究. 土木工程学报, 47(12), 2014: 64-72. | Lei YD, Qu Z, Wang T. Bidirectional cyclic loading tests on spatial beam-to-column joints in bottom story of RC moment resisting frames. China Civil Engineering Journal, 47(12), 2014: 64-72. [pdf]
30 曲哲*, 每田悠承,吉敷祥一,坂田弘安,和田章. 连续Z字形布置防屈曲支撑RC框架结构拟静力试验研究. 建筑结构, 44(18), 2014: 85-90. | Qu Z, Maida Y, Kishiki S, Sakata H, Wada A. Cyclic loading test of reinforced concrete frame with continuously installed buckling restrained braces. Building Structures, 44(18): 85-90. [pdf]
29 钟江荣*, 曲哲, 余世舟. 从2013年的几次地震看农村建筑抗震中存在的几个问题. 地震工程与工程振动, 34(S1), 2014: 981-987. | Zhong JR, Qu Z, Yu SZ. Several issues influenced the anti-seismic performance of rural buildings from three earthquakes in 2013. Earthquake Engineering and Engineering Dynamics, 34(S1), 2014: 981-987. [pdf]
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曲哲*, 钟江荣, 孙景江. 四川芦山7.0级地震中非抗震设防民居的震害特征. 建筑结构学报, 35(5), 2014: 157-164. | Qu Z, Zhong JR, Sun JJ. Seismic damages of un-engineered residential houses in the M7.0 Lushan earthquake. Journal of Building Structures, 35(5), 2014: 157-164. [pdf]
27 滕睿, 曲哲*, 张永群. 川南地区穿斗式木构架民居的动力特性. 世界地震工程, 30(3), 2014: 229-234. |
Teng R, Qu Z, Zhang YQ. Dynamic characteristics of Chuandou-type timber houses in southern Sichuan. World Earthquake Engineering, 30(3), 2014: 299-234.
[pdf]
26 曲哲*, 王鹏, 叶列平, 崔鸿超. 非对称截面钢骨混凝土柱正截面承载力简化计算. 建筑结构, 44(7), 2014: 99-104. | Qu Z, Wang P, Ye LP, Cui HC. Simplified calculation on normal section bearing capacity of steel-reinforced concrete columns with eccentrical sections. Building Structures, 44(7), 2014: 99-104 [pdf]
25 和田章*, 曲哲. 现代建筑材料和结构构件. 建筑结构, 44(7), 2014: 1-8. | Wada A, Qu Z. Materials and structural members for buildings in our age. Building Structures, 44(7), 2014: 1-8. [pdf]
24 曲哲*, 张令心. 日本钢筋混凝土结构抗震加固技术现状与发展趋势. 地震工程与工程振动, 33(4), 2013: 106-119. | Qu Z, Zhang LX. State of the art and development tendency of seismic retrofit for reinforced concrete structures in Japan. Earthquake Engineering and Engineering Vibration, 33(4), 2013: 106-119. [pdf]
23 曲哲*, 钟江荣, 孙景江. 四川芦山7.0级地震砌体结构的震害特征. 地震工程与工程振动, 33(3), 2013: 27-35. | Qu Z, Zhong JR, Sun JJ. Seismic damage to masonry structures in the M7.0 Lushan earthquake. Earthquake Engineering and Engineering Vibration, 33(3), 2013: 27-35. [pdf]
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施炜, 陆新征, 叶列平*, 曲哲. 建筑结构倒塌分析的单自由度模型. 工程力学, 29(10), 2012: 5-12. |
Shi W, Lu XZ, Ye LP, Qu Z. Single-degree-of-freedom hysteretic model for collapse analysis of building structures. Engineering Mechanics, 29(10), 2012: 5-12.
[pdf]
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曹海韵, 潘鹏*, 吴守君, 叶列平, 曲哲. 框架-摇摆墙结构体系中连接节点试验研究. 建筑结构学报, 33(12), 2012: 38-46. | Cao HY, Pan P, Wu SJ, Ye LP, Qu Z. Experimental study of connections of frame-rocking wall system. Journal of Building Structures, 33(12), 2012: 38-46. [pdf]
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叶列平, 程光煜*, 曲哲, 陆新征. 基于能量抗震设计方法研究及其在钢支撑框架结构中的应用. 建筑结构学报, 33(11), 2012: 36-45. | Ye LP, Cheng GY, Qu Z, Lu XZ. Study on energy-based seismic design method and application on steel braced frame structures. Journal of Building Structures, 33(11), 2012: 36-45. [pdf]
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曲哲, 叶列平*. 基于损伤机制控制的钢筋混凝土结构抗震设计方法研究. 建筑结构学报, 32(10), 2011: 19-27. | Qu Z, Ye LP. Seismic design methodology based on the damage mechanism control for reinforced concrete structures. Journal of Building Structures, 32(10), 2011: 19-27. [pdf]
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曲哲, 叶列平*. 计算结构非线性地震峰值响应的等价线性化模型. 工程力学, 28(10), 2011: 93-100. |
Qu Z, Ye LP. Equivalent linear models to estimate maximum inelastic seismic responses of structural systems. Engineering Mechanics, 28(10), 2011: 93-100.
[pdf]
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曲哲, 和田章, 叶列平*. 摇摆墙在框架结构抗震加固中的应用. 建筑结构学报, 32(9), 2011: 11-19. |
Qu Z, Wada A, Ye LP. Seismic retrofit of building structures using rocking wall system. Journal of Building Structures, 32(9), 2011: 11-19.
[pdf]
16 曲哲, 叶列平*. 摇摆墙-框架体系的抗震损伤机制控制研究. 地震工程与工程振动, 31(4), 2011: 40-50. |
Qu Z, Ye LP. Seismic damage mechanism control of rocking wall-frame system. Earthquake Engineering and Engineering Vibration, 31(4), 2011: 40-50.
[pdf]
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曲哲, 叶列平*. 基于有效累积滞回耗能的钢筋混凝土构件承载力退化模型. 工程力学, 28(6), 2011: 45-51. |
Qu Z, Ye LP. Strength deterioration model based on effective energy dissipation for RC members under cyclic loading. Engineering Mechanics, 28(6), 2011: 45-51.
[pdf]
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曲哲*, 叶列平, 潘鹏. 建筑结构弹塑性时程分析中地震动记录选取方法的比较研究. 土木工程学报, 44(7), 2011: 1-12. | Qu Z, Ye LP, Pan P. Comparative study on methods of selecting earthquake ground motions for nonlinear time history analyses of building structures. China Civil Engineering Journal, 44(7), 2011: 1-12. [pdf]
13 曹海韵*, 潘鹏, 叶列平, 曲哲, 刘明学. 混凝土框架摇摆墙结构体系的抗震性能分析. 建筑科学与工程学报, 28(1), 2011: 64-69. | Cao HY, Pan P, Ye LP, Qu Z, Liu MX. Seismic performance analysis of RC frame rocking-wall structure system. Journal of Architectural and Civil Engineering, 28(1), 2011: 64-69. [pdf]
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曲哲*, 叶列平. 建筑结构弹塑性地震响应计算的等价线性化法研究. 建筑结构学报, 31(9), 2010: 95-102. |
Qu Z, Ye LP. Equivalent linear analysis in estimating nonlinear seismic responses of building structures. Journal of Building Structures, 31(9), Sep. 2010: 95-102.
[pdf]
11 曲哲*, 叶列平. 附加子结构抗震加固方法及其在日本的应用. 建筑结构, 40(5), 2010: 55-58. |
Qu Z, Ye LP. Seismic retrofit with attached substructures and its applications in Japan. Building Structures, 40(5), 2010: 55-58.
[pdf]
10 叶列平*, 林旭川, 曲哲, 陆新征, 潘鹏: 基于广义结构刚度的构件重要性评价方法. 建筑科学与工程学报, 27(1), 2010: 1-6. | Ye LP, Lin XC, Qu Z, Lu XZ, Pan P. Evaluating method of element importance of structural system based on generalized structural stiffness. Journal of Architectural and Civil Engineering, 27(1): 1-6. [pdf]
9 曲哲*, 叶列平, 潘鹏. 高层建筑的隔震原理与技术. 工程抗震与加固改造, 31(5), 2009: 58-63. | Qu Z, Ye LP, Pan P. Theory and techniques of seismic isolation in high-rise buildings. Earthquake Resistant Engineering and Retrofitting. 31(5), 2009: 58-63+51. [pdf]
8 曲哲*, 叶列平. “破坏-安全”结构抗震理念及其应用. 震灾防御技术, 4(3), 2009: 241-255. | Qu Z, Ye LP, Fail-safe seismic design and its applications. Technology for Earthquake Disaster Prevention. 4(3), 2009: 241-255. [pdf]
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曲哲, 初明进*. 转角软化桁架模型与修正压力场理论的比较研究. 工程力学, 26(3), 2009: 36-42. |
Qu Z, Chu MJ, Comparative study of rotating angle-softened truss model and modified compression field theory. Engineering Mechanics, 26(3), 2009: 36-42.
[pdf]
6 王宇航, 曲哲, 叶列平*. 钢筋混凝土剪力墙正截面承载力的简化计算. 工业建筑, 38(S1), 2008: 225-227+279. |
Wang YH, Ye LP*, Qu Z. Simplified calculation method to determine the flexural strength of RC shear wall. Industrial Construction, 38(S1), 2008: 225-227+279.
[pdf]
5 叶列平*, 曲哲, 马千里, 林旭川, 陆新征, 潘鹏. 从汶川地震中框架结构震害谈“强柱弱梁”屈服机制的实现. 建筑结构, 38(11), 2008: 52-59. | Ye LP, Qu Z, Ma QL, Lin XC, Lu XZ, Pan P. Study on ensuring the strong column-weak beam mechanism for RC frames based on the damage analysis in Wenchuan earthquake. Building Structure, 38(11), 2008: 52-59. [pdf]
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叶列平*, 曲哲, 陆新征, 冯鹏. 提高建筑结构抗地震倒塌能力的设计思想与方法. 建筑结构学报, 29(4), 2008: 42-50. | Ye L P, Qu Z, Lu XZ, Feng P, Collapse prevention of building structures: A lesson from the Wenchuan earthquake. Journal of Building Structures 29(4), Aug. 2008: 42-50. [pdf]
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曲哲, 叶列平*, 陈建飞, 陆新征. 复杂应力状态对混凝土梁外贴FRP条带抗剪贡献的影响. 工程力学, 25(8), 2008: 127-132. | Qu Z, Ye LP, Lu XZ, Chen JF. Influence of concrete stress state on shear contribution of FRP strips on RC beams. Engineering Mechanics, 25(8), 2008: 127-132+149. [pdf]
2 田广宇, 叶列平*, 曲哲. 对称配筋混凝土正截面承载力计算的叠加法. 建筑结构, 36(S), 2006: 554-556+559. |
Tian GY, Ye LP, Qu Z. Simplified method for flexural strength of RC members based on superposition method. Building Structure, 36(S1), 2006: 554-556+559.
[pdf]
1 王浩, 曲哲*, 郁银泉, 蒋航军, 申林, 胡天兵. 新增钢梁与混凝土柱节点连接的加固设计方案探讨. 工业建筑, 36(10), 2006: 101-103. | Qu Z, Yu YQ, Jiang HJ, Shen L, Hu TB. An approach to strengthening design of newly added steel girder-concrete column joint. Industrial Construction, 36(10), 2006: 101-103. [pdf]
5 毎田悠承, 前川利雄, 出水俊彦, 濱田真, 曲哲, 吉敷祥一, 坂田弘安, 和田章. 超高層RC建築物における座屈拘束筋違の制振効果および接合部設計法. 日本建築学会構造系論文集, 80(710), 2015: 647-657. | Maida Y, Maegawa T, Demizu T, Hamada M, Qu Z, Kishiki S, Sakata H, Wada A. Passive control effect and connection design method of buckling restrained braces in super high-rise RC buildings. Journal of Structural and Construction Engineering, Transaction of AIJ, 80(710), 2015: 647-657. [pdf]
4 毎田悠承, 吉敷祥一, 曲哲, 前川利雄, 濱田真, 坂田弘安, 和田章. 座屈拘束筋違を組み込んだ鉄筋コンクリート部分架構の力学挙動. 日本建築学会構造系論文集, 79(699), 2014: 603-612. | Maida Y, Kishiki S, Qu Z, Maegawa T, Hamada M, Sakata H, Wada A. Structural behavior of reinforced concrete subassemblage with buckling restrained braces. Journal of Structural and Construction Engineering, Transaction of AIJ, 79(699), 2014: 603-612. [pdf]
3 毎田悠承, 吉敷祥一, 野々山昌峰, 曲哲, 前川利雄, 濱田真, 坂田弘安, 和田章. 座屈拘束筋違を取り付けるための接合部を有するRC部分架構の実験. 日本建築学会構造系論文集, 77(681), 2012: 1737-1746. | Maida Y, Kishiki S, Nonoyama M, Qu Z, Maegawa T, Hamada M, Sakata H, Wada A. Experimental evaluation of structural behavior of RC frame subassemblies with BRB connections. Journal of Structural and Construction Engineering, Transaction of AIJ, 77(681), 2012: 1737-1746. [pdf]
2 中澤俊幸, 吉敷祥一, 曲哲, 和田 章. 安全余裕度の確保を目的とした免震構造物のクリアランスの設定方法. 日本建築学会構造系論文集, 77(677), 2012: 1159-1165. | Nakazawa T, Kishiki S, Qu Z, Wada A. Safety margin ratio based design of retaining wall clearance for base-isolated structures. Journal of Structural and Construction Engineering, Transaction of AIJ, 77(677), 2012: 1159-1165 [pdf]
1 中澤俊幸, 吉敷祥一, 曲哲, 三好新, 和田章. 免震構造物における耐震安全性の確率論的評価に関する基礎検討. 日本建築学会構造系論文集, 76(662), 2011: 745-754. | Nakazawa T, Kishiki S, Qu Z, Miyoshi A, Wada A. Fundamental study on probabilistic evaluation of the ultimate state of base isolated structures. Journal of Structural and Construction Engineering, Transaction of AIJ, 76(662), 2011: 745-754. [pdf]
28 Qu Z, Xie XX, Zhang LX. Coupled in-plane and out-of-plane loading tests on full-scale masonry infills. 17th World Conference on Earthquake Engineering, Sendai, Japan, September, 2020, Paper No.2k-0012. [pdf]
27 Xu JJ, Huang YL, Qu Z. The high-frequency oscillation in systems with Rayleigh damping model. 12th Canadian Conference on Earthquake Engineering, Canada, June, 2019. [pdf]
26 Qu Z, Cao Yuteng, Ji Xiaodong. A building-specific bi-directional dynamic loading protocol for experiments of non-structural components. 4th International Workshop on the Seismic Performance of Non-structural Element, Pavia, Italy, May 22-23, 2019: 591-598. doi
25 Qu Z, He SW, Ye LH. Seismic fragility of water supply pipelines under static and dynamic cyclic loading. 4th Huixian International Forum on Earthquake Engineering for Young Researchers, Shanghai, August 21-22, 2018, in CD-ROM. [pdf]
24 Qu Z, Gong T, Wang T. Stiffness demand for pin-supported walls in RC moment resisting frames. 3rd Huixian International Forum on Earthquake Engineering for Young Researchers, UIUC, U.S., August 11-12, 2017, in CD-ROM.
23 Qu Z, Tamura K, Wada A. Synthetic seismic design strategy for building structures in urban areas. 16th World Conference on Earthquake Engineering, Santiago, Chile, January 9-13, 2017, Paper No. 1017. [pdf]
22 Qu Z, Xie JZ, Wang T. Experimental tests of reinforced concrete frame subassemblies with buckling restrained braces in double-K configuration. 6th International Conference on Advances in Experimental Structural Engineering, UIUC, U.S., August 1-2, 2015, in CD-ROM. [pdf]
21 Qu Z, Ji XD, Wang YD, Shi X, Xie JZ. Friction damper in steel coupling beams for enhanced seismic resilience of high-rise buildings. IABSE Conference Nara 2015, Nara, Japan, May 13-15, 2015, in CD-ROM. [pdf]
20 Maegawa T, Qu Z, Kishiki S, Maida Y, Hamada M, Sakata H. Local damage control of unconstrained gusset connections for buckling restrained braces in RC frames. IABSE Conference Nara 2015, Nara, Japan, May 13-15, 2015, in CD-ROM. [pdf]
19 解晋珍, 曲哲, 王涛. 折架在平面结构试验面外约束中的应用. 第24届全国结构工程学术会议, 厦门, 2015年10月31日-11月1日. | Xie JZ, Qu Z, Wang T. Pantographs for out-of-plane constraints in structural experiments. 24th National Conference on Structural Engineering, Xiamen, China, Oct. 31 - Nov. 25, 2015. [pdf]
18 Dai JW, Qu Z, Nie GB, Zhang CX. Damages of steel space gymnaium structures in the 2013 China Lushan Ms7.0 earthquake. 10th U.S. National Conference on Earthquake Engineering, Anchorage, US, July 21-25, 2014. [pdf]
17 Maida Y, Qu Z, Kishiki S, Maegawa T, Hamada M, Sakata H, Wada A. Shear resistance of deep reinforced concrete corbels in coutinuously buckling restrained braced RC frames. 4th International fib Congress 2013, Mumbai, India, February 10-14, 2014. [pdf]
16 Qu Z, Sakata H, Midorikawa S, Wada A. Seismic response of an RC building strengthened with pin-supported walls during the 2011 Tohoku earthquake. 10th International Conference on Urban Earthquake Engineering(10CUEE), Tokyo, Japan, March 1-2, 2013: 1713-1720. [pdf]
15 Luo WW, Li YM, Qu Z, Sakata H, Zhong HP, Han J. Assessment of seismic collapse safety of reinforced concrete frame buildings designed by two generations of Chinese seismic provisions. 10th International Conference on Urban Earthquake Engineering(10CUEE), Tokyo, Japan, March 1-2, 2013: 849-856. [pdf]
14 Sakata H, Qu Z, Midorikawa S, Wada A. Seismic retrofit of ductile concrete moment-resisting frames with innovative pin-supported wall system. 4th U.S.-Japan Workshop on the Improvement of Structural Design and Construction Practices, Hawaii, US, Dec. 2012. [pdf]
13 Kishiki S, Nakazawa T, Qu Z, Wada A. Safety margin ratio-based design of isolation gap size for base-isolated structures. 15th World Conference on Earthquake Engineering (15WCEE), Lisbon, Portugal, Sep. 23-28, 2012, No.2565. [pdf]
12 Maida Y, Qu Z, Kishiki S, Maegawa T, Hamada M, Sakata H, Wada A. Subassemblage test of continuously buckling restrained braced RC frames. 15th World Conference on Earthquake Engineering (15WCEE), Lisbon, Portugal, Sep. 23-28, 2012, No.1873. [pdf]
11 Qu Z, Maida Y, Kishiki S, Maegawa T, Hamada M, Sakata H, Wada A. Numerical assessment of seismic performance of continuously buckling restrained braced RC frames. 15th World Conference on Earthquake Engineering (15WCEE), Lisbon, Portugal, Sep. 23-28, 2012, No.1717. [pdf]
10 Qu Z. Predicting nonlinear response of an RC bridge pier subject to shake table motions. 9th Intl. Conf. on Urban Earthquake Eng. (9CUEE), Tokyo, Japan, March 6-8, 2012: 1717-1724. [pdf]
9 Qu Z, Maida Y, Kishiki S, Sakata H. Shear resistance of reinforced concrete corbels for shear keys. 9th Intl. Conf. on Urban Earthquake Eng. (9CUEE), Tokyo, Japan, March 6-8, 2012: 907-911. [pdf]
8 Qu Z, Maida Y, Nonoyama M, Kishiki S, Sakata H, Wada A. Hybrid control test of connections for buckling restrained braces in RC continuously braced frames. 4th Intl. Conf. on Advances in Experimental Structural Eng. (4AESE), Ispra, Italy, June 29-30, 2011. [pdf]
7 Qu Z, Ye LP, Wada A. Seismic damage mechanism control of RC ductile frames: From a stiffness point of view. 8th Intl. Conf. on Urban Earthquake Eng. (8CUEE), Tokyo, Japan, March 7-8, 2011, 825-830. [pdf]
6 Qu Z, Ye LP. Strength deterioration model based on effective hysteretic energy dissipation for RC members under cyclic loading. 7th Intl. Conf. on Urban Earthquake Eng. (7CUEE) & 5th Intl. Conf. on Earthquake Eng. (5ICEE), Tokyo, Japan, March 3-5, 2010: 851-856. [pdf]
5 Wada A, Qu Z, Ito H, Motoyui S, Sakata H, Kasai K. Seismic retrofit using rocking walls and steel dampers. ATC/SEI Conference on Improving The Seismic Performance of Existing Buildings and Other Structures, San Francisco, US, Dec. 2009: 1010-1021. [pdf]
4 Ye LP, Cheng GY, Qu Z. Study on energy-based seismic design method and the application for steel braced frame structures. 6th Intl.Conference on Urban Earthquake Engineering, Tokyo, Japan, Mar. 2009: 417-428. [pdf]
3 Ye LP, Lu XZ, Qu Z, Feng P. Analysis on building seismic damage in the Wenchuan Earthquake. 14th World Conference on Earthquake Engineering, Beijing, China, Oct. 2008, s31-047 in CD-ROM. [pdf]
2 Qu Z, Lu XZ, Ye LP, Chen JF, Rotter JM. Numerical modeling of FRP shear strengthened RC beams using compression field theory. 3rd International Conference on FRP Composites in Civil Engineering (CICE 2006), Miami, USA, Dec. 2006: 391-394. [pdf]
1 Qu Z, Lu XZ, Ye LP. Size effect on shear contribution of externally bonded FRP U-jackets of RC beams. International Symposium on Bond Behaviour of FRP in Structures (BBFS 2015), Hong Kong, China, Dec. 2005: 371-379. [pdf]
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