【个人简介】:
基本信息:周满,男,1988年出生,江苏淮安人,博士,特聘研究员,硕/博士生导师。2017年毕业于东南大学&京都大学(Joint PhD Programme),获结构工程博士学位。2016年04月至今,受聘于日本京都大学土木与地球资源工程学院担任客座研究员(Guest Professor)。2017年04月-2018.01月,受聘于埃及Tanta University工程学院高级研究员。2018年01月至2020年12月受聘于中南大学土木工程学院从事教学与科研工作。2021年01月-至今,担任武汉大学土木建筑工程学院特聘研究员职位。任美国土木工程师协会ASCE Member、美国混凝土协会ACI Member、日本土木工程师协会JSCE Member、日本波形钢腹板合成构造研究协会Corrugated Steel-Web Bridge Association等国际学术组织会员,为国家自然科学基金通讯评审专家及湖南省科技专家库专家。主持国家自然科学基金项目、省自然科学基金项目、中国中铁科技创新项目及高层次人才引进项目等科研课题5项。近五年(2016~2021)在土木工程国际顶级SCI期刊ASCE Journal of Structural Engineering、ASCE Journal of Bridge Engineering、ASCE Journal of Construction Engineering and Management、ACI Structural Journal、Engineering Structures、Thin-walled Structures等发表期刊论文40余篇。
联系方式:Email:civilzm1988@163.com Mobile:152-5186-7705
【研究方向】:新型钢-混组合结构、混凝土及预应力混凝土结构、薄壁结构、仿生结构、纤维增强水泥基复合材料
【主讲课程】:《钢结构设计原理》 、《组合结构设计原理》
【科研项目】:
1. 主持国家自然科学基金青年科学基金项目“考虑Resal效应影响的变截面波形钢腹板PC组合梁桥的力学性能研究”(51808559)
考虑Resal效应、褶皱效应及预应力作用,建立变截面波形钢腹板PC组合梁剪应力解析计算公式与简化计算方法,建立变截面波形钢腹板组合箱梁约束扭转及畸变应力的计算方法,利用精细化有限元分析模型准确预测结构发生非线性剪切屈曲时的几何模态、破坏位置及临界载荷。
2. 主持湖南省自然科学基金青年科学基金项目“变截面波形钢腹板PC组合梁桥的受剪性能研究”(2019JJ50770)
通过试验及理论研究,揭示变截面波形钢腹板组合梁剪应力分布规律及剪力传递机理,基于ABAQUS有限元程序,引入初始缺陷及材料、几何非线性对变截面波形钢腹板组合梁的剪切屈曲进行分析。
3. 参与国家自然基金面上项目 “变截面波形钢腹板组合梁的剪切变形及剪切屈曲研究”(51478107)(导师:张建东教授, 国家海外引进项目特聘专家)
变截面波形钢腹板剪应力及其分布推导;剪切变形与弯曲变形的理论计算公式推导;剪切屈曲临界荷载计算公式推导;研究内衬混凝土腹板的剪力传递机理与承载力设计方法;变截面波形钢腹板组合梁非线性剪切屈曲分析。
4. 参与日本基盤研究(A)“干湿交替环境下氯离子在开裂混凝土结构中的传输路径及机理研究”(日本学术振兴会JSPS科研费15H02261)(合作研究者:京都大学白土博通教授、安琳副教授)
研究荷载作用开裂混凝土/砂浆试件体积应变及开裂程度的统表征方法,并通过多组试验及有限元程序研究干湿交替环境下氯离子在不同开裂程度的混凝土结构中的传输机理。
5. 参与国家自然基金面上项目“一体化仿生蜂窝复合材料的力学特性研究” (51173026)(合作研究者:东京大学JSPS研究员陈锦祥教授)
基于扫描电镜SEM观测,发现在独角仙鞘翅内部存在带小柱状一体化蜂窝板微观结构,开发了成套模具,利用短切玄武岩纤维-环氧树脂复合形成一体化蜂窝板,分析工艺孔朝向对仿生板受弯性能的影响。
6. 主持江苏高校优势学科建设工程基金项目“大跨径变截面PC波形钢腹板组合箱梁受剪性能及屈曲破坏机理研究”(CE02-1-12)
基于变截面梁的Resal效应研究了变截面PC箱梁的受剪性能,利用Riks算法实现试验梁线弹性变形过程-混凝土开裂-达到屈曲(服)临界点-屈曲(服)后的结构塑性变形全过程仿真模拟。
7. 主持中国中铁南昌洪都大道宽幅箱梁多机同步拼装施工关键技术研究
开展标准跨和加宽跨短线预制梁桥复杂施工条件下多台架桥机同步架设施工方法研究,通过拉压杆模型研究了长悬臂宽体横梁的设计方法,研究了体系转换过程中主梁-吊杆-架桥机的协同受力性能。
8. 主持芜湖长江公路二桥接线节段预制顶板加劲式PC宽体箱梁的横向受力分析
拟根据芜湖长江公路二桥引桥的设计方案,对节段预制顶板加劲式PC宽箱梁进行车辆荷载作用下横向受力分析,对挑肋的合理设置间距及构造进行优化,提出挑梁中应力集中明显,需配置横向预应力,且若设计合理可取消跨中部分挑梁。
9. 参与宁波市奉化江大桥波形钢腹板自承式异步施工Rap-con/RW
通过1:1波形钢腹板模型试验,模拟异步悬臂浇筑施工过程中最不利荷载工况下单块波形钢腹板的受力特性,实测变形与应力状况,揭示施工过程中抗剪连接件受力性能及传力机理,为施工方案提供指导。
10. 参与节段预制组合梁桥关键构造及结构特性研究
开展波形钢腹板组合梁桥节段预制拼装施工技术研究,通过足尺模型试验对施工全过程进行了预演,并基于缩尺模型试验研究了梁段成型工艺、体内外预应力配束比、剪力连接形式等因素对节段梁受弯性能的影响。
11. 主持音乐路面的发声机理及其应用研究
研究几种典型音乐路面形式的发音机理,揭示车速、轮压及凹槽的分布对产生音乐的音调和音色的影响。给出音乐路面的合理布置位置,以减少事故多发路段交通事故的发生。
【近五年代表性学术论文】:
[1] Man Zhou, S Li*. Shear performance of tapered beams with concrete flanges and corrugated steel webs: theory, experiments and numerical simulations. ASCE Journal of Structural Engineering. 2021 (Accepted, DOI: 10.1061/(ASCE)ST.1943-541X.0003013).
[2] Man Zhou*, L An. Full-range shear behavior of a nonprismatic beam with steel trapezoidal corrugated webs: experimental tests and FE modeling. ASCE Journal of Structural Engineering. 2020, 146(8): 04020162.
[3] Man Zhou*, JD Zhang, JT Zhong, Y Zhao. Shear stress calculation and distribution in variable cross section of box girder with corrugated steel webs. ASCE Journal of Structural Engineering. 2016, 142(6): 04016022.
[4] Man Zhou*, JC Liao, L An. Effect of multiple environmental factors on the adhesion and diffusion behaviours of chlorides in a bridge with coastal exposure: A long-term experimental study. ASCE Journal of Bridge Engineering. 2020. 25(10): 04020081.
[5] Man Zhou*, JC Liao, L An. Shear properties of tapered box girders with steel trapezoidally corrugated webs considering Resal effect. ASCE Journal of Bridge Engineering. 2019, 25(1), 04019126.
[6] Man Zhou*, Z Liu, JD Zhang, H Shirato. Stress analysis of linear elastic nonprismatic concrete-encased beams with corrugated steel webs. ASCE Journal of Bridge Engineering. 2017, 22(6), 04017012.
[7] Man Zhou*, JD Zhang, DY Yang, MF Hassanein, L An. Transverse analysis of a prestressed concrete wide box girder with stiffened ribs. ASCE Journal of Bridge Engineering. 2017, 22(8), 04017046.
[8] Man Zhou*, YY Liu, KJ Wang, MF Hassanein. New asynchronous pouring rapid construction method for long span PC box girder bridges with corrugated steel webs. ASCE Journal of Construction Engineering and Management. 2019. 146(2), 05019021.
[9] Man Zhou*, HY Fu, XL Su, L An. Shear performance analysis of a tapered beam with trapezoidally corrugated steel webs considering the Resal effect. Engineering Structures. 2019. 196: 109295.
[10] Man Zhou, YY Liu, WQ Deng*, MF Hassanein, H Zhang. Transverse analysis of full-scale precast segmental box girder segments with corrugated steel webs: experimental tests and FE modelling. Engineering Structures. 2019, 187: 231-241.
[11] Man Zhou*, Z Liu, JD Zhang, L An, ZQ He. Equivalent computational models and deflection calculation methods of box girders with corrugated steel webs. Engineering Structures. 2016, 127: 615-634.
[12] Man Zhou, XN Shang, MF Hassanein, LY Zhou*. The differences in the mechanical performance of prismatic and non-prismatic beams with corrugated steel webs: A comparative research. Thin-Walled Structures. 2019, 141: 402-410.
[13] Man Zhou*, DY Yang, JD Zhang, L An. Stress analysis of linear elastic non-prismatic beams with corrugated steel webs. Thin-Walled Structures. 2017, 119: 653-661.
[14] Man Zhou*, Z Liu, JD Zhang, L An. Deformation analysis of a non-prismatic beam with corrugated steel webs in the elastic stage. Thin-Walled Structures. 2016, 109: 260-270.
[15] Man Zhou, JT Zhong*, L Wang, HT Chen. Application of the evaluation system for the strut-and-tie models of reinforced concrete structures. ACI Structural Journal. 2021. 118(1):17-30.
[16] Man Zhou, YY Chen, XL Su*, L An. Mechanical performance of a beam with corrugated steel webs inspired by the forewing of Allomyrina dichotoma. Structures. 2021. 29: 741-750.
[17] Man Zhou, JC Liao, JT Zhong, L An, HB Wang*. Unified calculation formula for predicting the shear stresses in prismatic and non-prismatic beams with corrugated steel webs. Structures. 2021. 29:507-518.
[18] Man Zhou, J Xie, JX Chen*, WY Tuo. The influence of processing holes on the flexural properties of biomimetic integrated honeycomb plates. Materials & Design. 2015, 65, 404-410.
[19] Man Zhou*, DQ Huang, XL Su, JT Zhong, MF Hassanein, L An. Analysis of microstructure characteristics and mechanical properties of beetle forewings, Allomyrina dichotoma. Materials Science & Engineering C. 2020, 107, 110317.
[20] Man Zhou*, JC Liao, L An, W Deng, MF Hassanein, ZW Yu. Analysis of stress-induced cracks in concrete and mortar under cyclic uniaxial compression. Construction and Building Materials, 2018, 187, 652-664.
[21] Man Zhou*, Z Shao, MF Hassanein. Bending behaviour of reinforced concrete/ engineered cementitious composite beams. Magazine of Concrete Research. 2021. (Published online, https://doi.org/10.1680/jmacr.19.00380).
[22] Man Zhou*, HY Fu, L An. Distribution and properties of shear stress in elastic beams with variable cross section: theoretical analysis and FE modelling. KSCE Journal of Civil Engineering. 2020.24 (4):1240-1254.
[23] Man Zhou*, XL Su, JS Lei, SJ Fang. Foundation reinforcement and deviation rectifying of the leaning pagoda of Dinglin Temple. ICE-Geotechnical Engineering. 2020,173(6):473-484.
[24] Man Zhou, HY Zhuang*, SJ Fang. Innovations at Beijing Daxing International: the world’s biggest airport terminal. ICE-Civil Engineering. 2020. 173(3):113-118.
[25] Man Zhou, XL Su*, L An. Rapid construction of and advanced technologies used in China's Huoshenshan hospital for combating COVID-19. ICE-Civil Engineering. 2021, 174(1): 29-34.
[26] Man Zhou*, HY Zhuang, L An. Xuhong bridge: a long span wooden arch bridge with glued laminated timber. Structural Engineering International. 2021, 31(1):60-64.
[27] Man Zhou*, DQ Huang, YQ Hu, LY Zhou, L An. Musical roads: design, construction and potential economic and safety benefits. ICE-Transport. 2021. (Published online, https://doi.org/10.1680/jtran.18.00136).
[28] Man Zhou*, JD Zhang, L An, T Li. Spanning over 1400 years: China’s remarkable Zhaozhou Bridge. ICE-Civil Engineering. Thomas Telford Ltd, 2017 :113-119.
[29] Man Zhou*, DY Yang, JD Zhang, MF Hassanein. Failure analysis of high strength bolts in steel truss bridges. ICE-Civil Engineering. 2017, 170(4), 175-179.
[30] Man Zhou, XL Sua, JT Zhong,*, MF Hassanein. New technologies and challenges in the construction of an immersed tube tunnel in deep sea of Hong Kong-Zhuhai-Macao bridge. Structural Engineering International. 2021 (Accepted).
[31] WQ Deng, JD Zhang, Man Zhou*, MF Hassanein, D Liu, HH Zheng. Flexural behavior of segmental prestressed composite beams with corrugated steel webs. Magazine of Concrete Research. 2020, 72(11), 578-594.
[32] KJ Wang, Man Zhou*, MF Hassansin, JT Zhong, HS Ding, L An. Study on elastic global shear buckling of curved girders with corrugated steel webs: Theoretical analysis and FE modelling. Applied Sciences-Basel. 2018, 8(12), 2457.
[33] KJ Wang, Man Zhou*, MF Hassanein. Shear buckling and design strength study of curved girders with corrugated steel webs. ICE-Structures and Buildings, 2019, 172(9): 649-660.
[34] WQ Deng, Man Zhou*, JD Zhang, L An. Growth of prestressed concrete bridges with corrugated steel webs in China. ICE-Civil Engineering. 2018, 171(2), 77-84.
[35] XL SU, Man Zhou*, YY Chen. Infection prevention and control measures against COVID-19 undertaken in China. Disaster Medicine and Public Health Preparedness. 2021. (Accepted).
【联系方式】:
地址:武汉市武昌区东湖南路8号武汉大学土木建筑工程学院
Email: civilzm1988@163.com Mobile:152-5186-7705
欢迎土木工程、材料工程及相关学科的学生报考硕士、博士研究生,欢迎有相近学科背景的博士后加入课题组。课题组借鉴国外成熟的研究生培养模式,学习氛围融洽和谐、提倡民主平等的师生关系、充分尊重学生意愿、平等公正的对待每一位学生!支持学生出国留学交流拓宽视野,希望在我的帮助下可以让每一位学生学术道路走的更远、更好!
