邵永波
職 稱:
教授
博導/碩導:
博導
學科專業:
土木工程
研究方向:
鋼結構和組合結構
聯系方式:
個人簡介
邵永波,1973年生,教授,博士生導師,西華大學副校長,國務院特殊津貼專家,四川省特聘專家、四川省有突出貢獻的優秀專家,四川省青年科技創新團隊負責人。承擔國家自然科學基金、四川省青年科技創新研究團隊等省部級項目和企業委托項目20余項。發表學術論文160余篇,參編行業標準3部,獲省部級獎勵7項。
招收研究生:土木工程學碩、土木水利專碩
工作經歷:
2023.11-至今:西華大學
2015.09-2023.11:西南石油大學土木工程與測繪學院
2004.08-2015.7:煙臺大學土木工程學院
教育經歷:
2001-2004:新加坡南洋理工大學土木與環境工程學院,博士研究生
1997-2000:清華大學工程力學系,碩士研究生
1992-1997:清華大學工程力學系,本科生
擔任的學術職務:
四川省土木建筑學會 副理事長
四川省力學學會 副理事長
中國鋼結構協會海洋鋼結構分會 常務理事
中國建筑金屬結構協會檢測鑒定加固改造分會 常務委員
中國建筑金屬結構協會教育分會 常務委員
西南地區基礎力學與工程應用協會 常務理事
社會工作任職:
四川省歐美同學會×留學人員聯誼會 副會長
四川省歐美同學會東南亞分會 會長
教學及教學研究
講授課程:
本科生:《鋼結構設計原理》、《土木工程概論》
研究生:《高等鋼結構理論與設計》(英文)
教學成果獎:
[1] 跨界融合、多維互動,聯合畢業設計推動新時代工程人才培養改革與實踐,2021年四川省教學成果二等獎,第二位。
[2] “政校行企”四位一體的土木工程專業創新創業協同育人模式研究與實踐,2021年四川省教學成果二等獎,第二位。
[3] 第六屆西浦全國大學教學創新大賽年度教學創新一等獎,2021年,第二位。
[4] 面對行業變革,結合數字建造的跨專業聯合畢業設計探索與實踐,西南石油大學2020年校級教學成果特等獎,2021年,第一位。
[5] 土木工程類大學生“政校行企”創新創業教育探索與實踐,西南石油大學2020年校級教學成果三等獎,20201年,第二位。
教改項目:
[1] “四要”驅動的新時代背景下土木工程類創新人才培養探索與實踐,四川省2021-2023年高等教育人才培養質量和教學改革一般項目,第一位。
[2] 面向行業改革,結合數字建造的跨專業聯合畢業設計探索與實踐,四川省2018-2020年高等教育人才培養質量和教學改革點項目,第一位。
指導學生獲獎:
[1] 第十二屆“挑戰杯”中國大學生創業計劃競賽國賽銀獎,2020.
[2] 第六屆四川省國際“互聯網+”大學生創新創業大賽金獎,2020.
[3] 中國鋼結構協會2021“冠洲杯”高校學生鋼結構創新競賽三等獎,2021.
代表性論文、著作和技術規程
近五年代表性論文(*通訊作者):
[1] Lixia Deng, Yongbo Shao*, Chengjia Wu, Guizhou Ye, Xiandong Yang. Behavior of composite I-girders with grouted steel tubular flange and sinusoidally corrugated web under patch loading, Structures, 2025, 73, 108376.
[2] Jun Gong, Yongbo Shao*, Xudong Zhi. Seismic beahvior and collapse fragility of long-span truss structures in ultra-high voltage substations under multi-directional earthquakes. Structure and Infrastructure Engineering, 2025, 2460480.
[3] Yuan Wang, Yongbo Shao*, Lixia Deng, Fenghong Qian, Wenxi Luo. Behavior of composite stub column with multi-core concrete-filled steel tubular (CFST) flanges and double corrugated webs under axial compression, Structures, 2025, 72, 108209.
[4] M.F. Hassanein, Amr EK. Mohamed, Mohamed M.A. Hussein, Yong-Bo Shao*. On the design and behavior of axially-compressed square concrete-filled double-skin tubular short columns for ocean engineering applications, Ocean Engineering, 2024, 313, 119396.
[5] Jun Gong, Yongbo Shao*. Seismic response and joint fragility of UHV long-span truss structures with PGA and duration as variables, Structures, 2024, 64, 106550.
[6] M.F. Hassanein, Wei-Feng Huang, Yong-Bo Shao*, K.A. Cashell, A.R. Elsisy. Confinement-based design and behaviour of concrete-filled stiffened steel tubular square slender columns, Ocean Engineering, 2024, 304, 117845.
[7] Chao Huang, Yongbo Shao*, Jialing Ou, Xin Bi. Axial compressive behavior of circular concrete-filled steel tubular stubs strengthened with CFRP considering preloading and corrosion, Structures, 2024, 62, 106281.
[8] Hao Deng, Yong-Bo Shao*, M.F Hassanein. Shear strength of corrugated web girders with compression tubular flanges, Structures, 2024, 62, 106245.
[9] Wei-Feng Huang, Yong-Bo Shao*, M.F. Hassanein*, Marijana Hadzima-Nyarko, Dorin Radu, K.A. Cashell. Experimental and numerical investigation of square concrete-filled double-skin steel stiffened tubular stub columns with CHS inner tubes under axial compression, Thin-Walled Structures, 2024, 199, 111792.
[10] Jun-Hua Zhang, Yong-Bo Shao*, M.F. Hassanein*, K.A. Cashell, Marijana Hadzima-Nyarko. Behaviour of cold-formed concrete-filled dual steel stiffened tubular short columns, Journal of Constructional Steel Research, 2024, 213, 108381.
[11] Lixia Deng, Yongbo Shao*, Dong Jiang, Mostafa Fahmi Hassanein, Jun He. Elastic analysis of I-girders with tubular flange and corrugated web, Journal of Constructional Steel Research, 2024, 213, 108407.
[12] Jun-Hua Zhang, Yong-Bo Shao*, M.F. Hassanein**, K.A. Cashell***, Marijana Hadzima-Nyarko. Behaviour of ultra-high strength concrete-filled dual-stiffened steel tubular slender columns, Engineering Structures, 2024, 300, 117204.
[13] Jun-Hua Zhang, M.F. Hassanein*, K.A. Cashell, Marijana Hadzima-Nyarko, Yang Xu, Yong-Bo Shao*. Experimental and numerical investigation on the behaviour of square concrete-filled cold-formed double-skin steel stiffened tubular short columns, Engineering Structures, 2024, 303, 117560.
[14] C.N. Xiong, Y.B. Shao*, L.W. Tong, K.S. Dai, Y.X. Luo. Static strength of CFRP-strengthened preloaded circular concrete-filled steel tube stub columns, Part II: Theoretical and numerical analysis. Thin-Walled Structures, 2023, 184, 110547.
[15] C.N. Xiong, Y.B. Shao*, L.W. Tong, K.S. Dai, Y.X. Luo. Static strength of CFRP-strengthened preloaded circular concrete-filled steel tube stub columns, Part I: Experimental test. Thin-Walled Structures, 2023, 184, 110546.
[16] Jialing Ou, Yongbo Shao*, Chao Huang, Xin Bi. Bond behavior of CFRP sheets-to-steel shear joints with different steel surface treatments. Composite Structures, 2023, 322, 117376.
[17] Xudong Gao, Yongbo Shao*, Cheng Chen, Hongmei Zhu. Investigation on residual stress of EQ56 high strength steel butt weld. Ocean Engineering, 2023, 279, 114405.
[18] Ying Zhong, Yongbo Shao*, Xudong Gao, Xiafei Luo, Hongmei Zhu. Fatigue crack growth of EH36 steel in air and corrosive marine environments. Journal of Constructional Steel Research, 2023, 210, 108104.
[19] Jun-Hua Zhang, Yong-Bo Shao*, M.F. Hassanein, V.I. Patel. Axial compressive performance of ultra-high strength concrete-filled dual steel tubular short columns with outer stiffened tubes and inner circular tubes. Journal of Constructional Steel Research, 2023, 203, 107848.
[20] Wei-Feng Huang, Yong-Bo Shao*, M.F. Hassanein. Behaviour and confinement-based direct design of concrete-filled cold-formed stiffened steel tubular short columns. Journal of Constructional Steel Research, 2023, 202, 107773.
[21] Xudong Gao, Yongbo Shao*, Cheng Chen, Ran Feng, Hongmei Zhu, Tao Li. Hysteresis behavior of EQ56 high strength steel: Experimental tests and FE simulation. Journal of Constructional Steel Research, 2023, 201, 107730.
[22] Chen Wei, Yongbo Shao*, Mostafa Fahmi Hassanein, Chuannan Xiong, Hongmei Zhu. Static strengths of preloaded circular hollow section stub columns strengthened with carbon fiber reinforced polymer. Steel and Composite Structures, 2023, 47(4): 455-466.
[23] Jiangling Ou, Yongbo Shao*, Chao Huang, Yu Chen, Xin Bi. Flexural behavior of circular concrete filled steel tubular members strengthened by CFRP sheets. Structures, 2023, 55: 201-204.
[24] Xiaodong Xu, Yongbo Shao*, Xudong Gao, Hazem Samih Mohamed. Stress concentration factor (SCF) of CHS gap TT-joints reinforced with CFRP. Ocean Engineering, 2022, 247, 110722.
[25] Hao Deng, Yong-Bo Shao*, M.F. Hassanein*. Experimental shear testing of small-scale corrugated web girders used in conventional buildings. Journal of Constructional Steel Research, 2022, 189, 107086.
[26] Amany Refat Elsisy, Yong-Bo Shao*, Man Zhou, M.F. Hassanein*. A study on the compressive strengths of stiffened and unstiffened concrete-filled austenitic stainless steel tubular short columns. Ocean Engineering, 2022, 248, 110793.
[27] Xudong Gao, Yongbo Shao*, Cheng Chen, Hongmei Zhu, Kangshuai Li. Experimental and numerical investigation on transverse impact resistance behaviour of pipe-in-pipe submarine pipelines after service time. Ocean Engineering, 2022, 248, 110868.
[28] Yongjian Guo, Yongbo Shao*, Xudong Gao, Tao Li, Ying Zhong, Xiafei Luo. Corrosion fatigue crack growth of serviced API 5L X56 submarine pipeline. Ocean Engineering, 2022, 256, 111502.
[29] M.F. Hassanein, A.A. Elkawas, Marina Bock, M. Elchalakani, Yong-Bo Shao*. Lateral-torsional buckling strength of corrugated web bridge girders: EC3 and AISC modified design methods. Thin-Walled Structures, 2022, 176, 109373.
[30] Hao Deng, Yong-Bo Shao*, M.F. Hassanein*. Experimental shear testing of corrugated web girders with compression tubular flanges used in conventional buildings. Thin-Walled Structures, 2022, 179, 109557
[31] Hongmei Zhu, Yongbo Shao*, Guoqiang Chi, Xudong Gao, Kangshuai Li. Simplified bar-system model for tubular structures by considering local joint flexibility. Marine Structures, 2022, 81, 103122.
[32] Jialing Ou, Yongbo Shao*, Dongfeng Wang, Hongmei Zhu, Xudong Gao. Axial compressive behavior of corroded concrete filled circular steel tubular stubs strengthened with CFRP. Marine Structures, 2022, 84, 103224
[33] Chen Wei, Yongbo Shao*, Cheng Chen, Hazem Samih Mohamed. Axial compressive strength of preloaded CHS stubs strengthened by CFRP. Marine Structures, 2022, 84, 103242.
[34] Yipeng Du, Yongbo Shao*, Ling Zhong. Repairing damaged steel plate shear wall with additional ribs. Structures, 2022, 41: 222-234.
[35] Kuan Peng, Yong-bo Shao*, Qing-li Wang, Yi-Fang Cao. Hysteretic behavior and restoring force model of specimens of square concrete-filled CFRP-steel tubular beam-column. International Journal of Steel Structures, 2022, 22(2): 488-501.
[36] Kuan Peng, Yongbo Shao*, Qingli Wang. Analysis of bearing capacity of circular concrete filled CFRP-steel tubular beam-column. KSCE Journal of Civil Engineering, 2022, 26(1): 207-220.
[37] M.F. Hassanein, A.A. Elkawas, Marina Bock, Yong-Bo Shao*, M. Elchalakani. Effect of using slender flanges on EN 1993-1-5 design model of mono-symmetric S460 corrugated web bridge girders. Structures, 2021, 33: 330-342.
[38] Hazem Samih Mohamed, Yongbo Shao*, Cheng Chen, Manyu Shi. Static strength of CFRP-strengthened tubular TT-joints containing initial local corrosion defect. Ocean Engineering, 2021, 236, 109484.
[39] Yong-Bo Shao, Amany Elsisy, M.F. Hassanein. On the out-of-plane stiffness of I-section girders with corrugated webs using elastic finite element analyses. Structures, 2021, 29: 1242-1258.
[40] Jialing Ou, Yongbo Shao*. Compressive strength of circular concrete filled steel tubular stubs strengthened with CFRP. Steel and Composite Structures, 2021, 39(2): 189-200.
著作:
[1] Mostat Fahmi Hassanein, Yongbo Shao, Man Zhou. Behaviour and design of trapezoidally corrugated web girders for bridge construction. Elsevier Publisher, 2022.
科研項目
[1]. 國家自然科學基金面上項目:深海高靜水壓力-腐蝕-應力多因素耦合作用下高強鋼腐蝕疲勞開裂機理及失效評估方法研究(52478213),2025-2028,項目負責人
[2]. 國家自然科學基金面上項目:焊接鋼結構在海洋干濕交替環境與多軸應力耦合作用下腐蝕疲勞失效演化過程與評估技術(52078441),2021-2024,項目負責人。
[3]. 四川省青年科技創新團隊:工程結構安全評估與災害防護技術(2019JDTD0017),2019-2022,項目負責人。
[4]. 四川省自然科學基金重點項目:低溫腐蝕環境下中厚大鋼構件窄間隙激光-電弧復合焊接工藝優化及節點失效過程評估技術研究(2025ZNSFSC0032),2025-2027,項目負責人。
[5]. 企業委托項目:海洋環境碳纖維加固結構強度與疲勞失效測試,2023年。
[6]. 企業委托項目:碳纖維加固海洋平臺結構強度評估方法,2022年。
[7]. 企業委托項目:海洋平臺典型結構維修加固技術效果測試,2021年。
研究領域及團隊
研究領域:
土木工程領域:鋼結構和組合結構方向;
海洋工程領域:海洋工程結構安全評估與維修加固。
科研團隊:
四川省工程結構安全評估與防災技術青年科技創新研究團隊
榮譽獎勵
科技獎勵:
[1] “極端作用下大型復雜鋼管結構體系性能評估和提升技術及工程應用”,福建省科技進步二等獎, 2022年,第二位。
[2] “大型復雜空間鋼管結構設計建造新技術與應用”,湖北省科技進步一等獎,2019年,第三位。
[3] “淺海石油導管架平臺延壽關鍵技術”,四川省科技進步三等獎,2017年,第一位。
[4] “海洋延壽平臺檢測評估與安全保障技術”,中國海洋工程科學技術二等獎,2017年,第二位。
[5] “導管架采油平臺關鍵結構失效評估與維修加固技術”,中國石油和化工自動化應用協會科技進步二等獎,第一位。
[6] “埕島油田開發工程及關鍵裝備安全評價技術體系”,中國海洋工程科學技術二等獎,2015年,第七位。
[7] “局部非線性系統的動力數值分析方法在土木工程中的應用研究”,山東省自然科學三等獎,2006年,第五位。
榮譽稱號:
[1] 國務院特殊津貼專家,2024年。
[2] 四川省有突出貢獻的優秀專家,2017年。
[3] 四川省特聘專家,2015年。
[4] 第六屆四川省國際“互聯網+”大學生創新創業大賽優秀創新創業導師,2020.