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姓名:洪焕鹏
Name: Huanpeng Hong
职称:英才副教授
Title: Associate Professor
导师资格:博士生导师、硕士生导师
Supervisor Qualifications: Doctoral supervisor, Master's supervisor
通讯地址:天津市-津南区-天津大学-北洋园校区-57教
Address: Building No. 57, Beiyang Campus, Tianjin University, Tianjin, China
邮件 / Email:huanpenghong@tju.edu.cn
学术主页 / Academic Websites:
教育经历 / Education Background
2020-09 - 2024-01 南加州大学 土木工程 博士 (全奖)
University of Southern California, Civil Engineering, Ph.D.
(Advisors:Bora Gencturk, M. Saiid Saiidi)
2017-09 - 2020-06 湖南大学 土木工程 硕士 (保送)
Hunan University, Civil Engineering, M.S.
2013-09 - 2017-07 长安大学 土木工程 学士
Chang’an University, Civil Engineering, B.S.
工作经历 / Working Experiences
2025.08 - 至今 天津大学 英才副教授
Tianjin University, Associate Professor
2024.04 - 2025.08 南加州大学 博士后研究员
University of Southern California, Post-Doctoral Research Associate
2024.03 - 2024.04 南加州大学 资源员工
University of Southern California, Resource Employee
2020.09 - 2024.03 南加州大学 研究助理
University of Southern California, Research Assistant
研究方向 / Research Interests
Ø土木、材料、机械多学科交叉
·抗震韧性桥梁与结构
o自复位结构
o预应力结构
o大型结构抗震性能测试与模拟
o大型结构加固与修复
·高性能材料
o智能金属材料(新一代铜基、铁基、镍钛基形状记忆合金SMA)
o材料在极端环境下的性能与耐久性(极端温度、腐蚀、疲劳、断裂等)
o金属材料的微观结构(金属材料的晶体特性、热处理、切削、焊接等)
o智能材料的超低温驱动
o高性能混凝土材料(UHPC, ECC)
·折叠可变形结构
·钢-混组合结构
科研项目 / Research Projects
o美国联邦公路管理局(FHWA),华盛顿州交通部(WSDOT),加州交通部(Caltrans), 联邦级, 项目TPF-5(491)二期, Superelastic Copper-Based and Iron-Based Shape Memory Alloys and Engineered Cementitious Composites for Extreme Events Resiliency: Phase II, 2024-01 至 今, 200万元, 未结题, 主研
o美国华盛顿州交通部(WSDOT),联邦公路管理局(FHWA),州级, 项目TPF-5(491) 一期, Superelastic Copper-Based and Iron-Based Shape Memory Alloys and Engineered Cementitious Composites for Extreme Events Resiliency: Phase I, 2023-01 至 2024-01, 85万元, 已结题, 主研
o国家合作公路研究计划(NCHRP),美国科学基金会(NSF),联邦级, 项目NCHRP IDEA 210, Material Characteristics of Cu-based Superelastic Alloys for Applications in Bridge Columns to Improve Seismic Performance, 2020-07 至 2023-01, 85万元, 已结题, 主研
学术论文 / Publications
ØHuanpeng Hong; Abdeldjelil Belarbi; Bora Gencturk; Lara Zerbe; Shear strengthening of rectangular and T-shaped reinforced concrete beams with iron-based shape memory alloy (FeSMA) strips, Engineering Structures, 2025. (审稿中,一审小修已提交) (CiteScore 11.2,中科院1区Top)
ØEthan Yen; Bora Gencturk; Xiaoying Pan; Huanpeng Hong; Interface Properties of Ultra-High Durability Oil-well Cement Mortar Plug with Steel or Sandstone, Cement and Concrete Composites, 2025. (审稿中,一审返修) (CiteScore 22.5,中科院1区Top)
ØHuanpeng Hong; Bora Gencturk; Dario Vieirab; Abdeldjelil Belarbib; Shear behavior of large-scale T-shaped RC beams strengthened with iron-based shape memory alloy prestressing, Smart Materials and Structures, 2025. (已录用) (CiteScore 6.1,中国科协期刊分类:检测技术与自动化领域,顶级期刊)
ØHuanpeng Hong; Bora Gencturk; M. Saiid Saiidi; Botong Zheng; Xiaoying Pan; Seismic performance of self-centering columns post-tensioned with iron-based shape memory alloy (FeSMA) bars, Engineering Structures, 2025, 334: 120218. (CiteScore 11.2,中科院1区Top) Editor’s Featured Paper.
ØHuanpeng Hong; Bora Gencturk; Abdeldjelil Belarbi; Active confinement of large-scale reinforced concrete columns using iron-based shape memory alloy (FeSMA) strips, Journal of Building Engineering, 2025,108, 112848. (CiteScore 11.5,中科院2区Top)
ØHuanpeng Hong; Bora Gencturk; M. Saiid Saiidi; Sumio Kise; Yoshikazu Araki; Effect of plastic deformation and temperature on the functional fatigue behavior of large diameter superelastic Ni-Ti shape memory alloys, Smart Materials and Structures, 2025. 34 045017. (CiteScore 6.1,中国科协期刊分类:检测技术与自动化领域,顶级期刊)
ØHuanpeng Hong; Bora Gencturk; Sumio Kise; Yoshikazu Araki; Amit Jain; M. Saiid Saiidi; Kenji Uruma; Headed coupling behavior of large diameter Cu-Al-Mn shape memory alloy bars: Mechanical testing and microstructural analyses, Construction and Building Materials, 2024, 424: 135862. (CiteScore 13.9,中科院1区Top)
ØHuanpeng Hong; Bora Gencturk; M Saiid Saiidi; Superelastic behavior of novel Ni–Ti–Co shape memory alloys for seismic applications, Smart Materials and Structures, 2024, 34(1):15004. (CiteScore 6.1,中国科协期刊分类:检测技术与自动化领域,顶级期刊)
ØHuanpeng Hong; Bora Gencturk; M Saiid Saiidi; Material characterization of iron-based shape memory alloys for use in self-centering columns, Smart Materials and Structures, 2024, 33:075001. (CiteScore 6.1,中国科协期刊分类:检测技术与自动化领域,顶级期刊)
ØHuanpeng Hong; Bora Gencturk; Yoshikazu Araki; M. Saiid Saiidi; Sumio Kise; Machinability of Cu-Al-Mn Shape Memory Alloys, Journal of Materials in Civil Engineering, 2024, 36(7): 04024188. (CiteScore 5.8,中科院3区)
ØYuan Huang; Hua-Sen Lu; Huanpeng Hong; Xiao-Li Zhang ; Influence of Confinement Interaction on the Compressive Behavior of Steel Tube–Reinforced Concrete Columns, Journal of Structural Engineering, 2024, 150(2): 04023214. (CiteScore 8.0,中国科协期刊分类:建筑科学领域,顶级期刊)
ØChang-Lin Li; Huang Yuan; Huanpeng Hong; Predicting yield strength of cold-formed carbon steel: A review and new approaches, Journal of Constructional Steel Research, 2023, 206: 107926. (CiteScore 7.8,中科院2区)
ØHuanpeng Hong; Bora Gencturk; Susan Alexis Brown; Farshid Hosseini; Amit Jain; Hadi Aryan; Saiid Saiidi; Yoshikazu Araki; Sumio Kise; Long-term corrosion resistance of Cu-Al-Mn superelastic alloys and steel rebar for use in bridges, Construction and Building Materials, 2022, 350: 128795-128795. (CiteScore 13.9,中科院1区Top)
ØHuanpeng Hong; Bora Gencturk; Hadi Aryan; Amit Jain; Yoshikazu Araki; M Saiid Saiidi; Sumio Kise; Low-cycle fatigue behavior of Cu–Al–Mn superelastic alloys at different temperatures, Smart Materials and Structures, 2022, 31(11): 115022. (CiteScore 6.1,中国科协期刊分类:检测技术与自动化领域,顶级期刊)
ØHuanpeng Hong; Yuan, Huang; Deng, Lu; Bai, Yu; Axial capacity of steel tube-reinforced concrete stub columns, Engineering Structures, 2019, 183: 523-532. (CiteScore 11.2,中科院1区Top)
ØYuan Huang; Huanpeng Hong; Deng Huang; Displacement ductility of staged construction-steel tube-reinforced concrete columns, Construction and Building Materials, 2018, 188: 1137-1148. (CiteScore 13.9,中科院1区Top)
国际会议与报告 / Conferences & Presentations
ØBora Gencturk, M. Saiid Saiidi, Huanpeng Hong. “Novel Iron-Based and Nickel-Titanium-Based Shape Memory Alloys for Use in Bridge Columns to Improve Extreme Events Resiliency,” WSDOT Project TPF-5 (491). Project Final Report.
ØHuanpeng Hong; Advances in Next Generation Shape Memory Alloy for Actuators, Dampers and Earthquake Proof Bridges, Earthquake Engineering Research Institute @ University of Nevada, Reno: CEE 750 Course Seminar, Nevada, Reno, 2025-02 (受邀专题讲座)
ØHuanpeng Hong; Bora Gencturk; M Saiid Saiidi; Mechanical Properties of Novel Ni-Ti-Co Shape Memory Alloy (SMA) for Seismic Application, Engineering Mechanics Institute Conference (EMI 2025), Anaheim, California, 2025-05 (国际会议报告)
ØHuanpeng Hong; Bora Gencturk; M Saiid Saiidi; Cyclic Actuation Behavior of Iron-Based Shape Memory Alloys for Use in Self-centering Columns, Engineering Mechanics Institute Conference and Probabilistic Mechanics & Reliability Conference (EMI/PMC 2024), Chicago, Illinois, 2024-05 (国际会议报告)
ØHuanpeng Hong; Bora Gencturk; Long-term Salt Spray and Electrochemical Corrosion Behavior of Cu-Al-Mn Shape Memory Alloys and Steel Rebar, 2023 ASCE Engineering Mechanics Institute Conference, Atlanta, Georgia, 2023-06 (国际会议报告)
ØHuanpeng Hong; Bora Gencturk ; Machinability Characteristics of Cu-Al-Mn and NiTi Shape Memory Alloys and Common Steels, ASCE Engineering Mechanics Institute 2023 Conference, Atlanta, Georgia , 2023-06-06至2023-06 (国际会议报告)
ØHuanpeng Hong; Bora Gencturk; Hadi Aryan; Amit Jain; Yoshikazu Araki; M. Saiid Saiidi; Sumio Kise; Low-cycle Fatigue Behavior of Cu-Al-Mn and Ni-Ti Superelastic Alloys at Different Temperatures, Astani Research Symposium, Los Angeles, California, 2022-09 (国际会议报告)
ØHuanpeng Hong; Bora Gencturk; Hadi Aryan; Amit Jain; Low-cycle Fatigue Performance of Cu-Al-Mn Superelastic Alloys under Different Temperatures, Engineering Mechanics Institute Conference (EMI) 2022, Baltimore, Maryland, 2022-06 (国际会议报告)
SCI期刊审稿人 / Journal Reviewers
ØEngineering Structures (CiteScore 11.2,中科院1区Top)
ØConstruction and Building Materials (CiteScore 13.9,中科院1区Top)
ØCement and Concrete Composites (CiteScore 22.5,中科院1区Top)
ØJournal of Structural Engineering (CiteScore 8.0,建筑科学领域,顶级期刊)
ØJournal of Building Engineering (CiteScore 11.5,中科院2区Top)
ØSmart Materials and Structures (CiteScore 6.1,检测技术与自动化领域,顶级期刊)
ØJournal of Constructional Steel Research (CiteScore 7.8,中科院2区)
ØJournal of Materials in Civil Engineering (CiteScore 5.8,中科院3区)
ØCase Studies in Construction Materials (CiteScore 9.7,中科院2区)
ØPhysica Scripta (CiteScore 3.1,中科院3区)
ØMaterials Research Express (CiteScore 3.7)
ØEngineering Research Express (CiteScore 1.9)
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