湖南大学土木工程学院导师:朱德举

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湖南大学土木工程学院导师:朱德举

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湖南大学土木工程学院导师:朱德举 正文

[导师姓名]
朱德举

[所属院校]
湖南大学

[基本信息]
导师姓名:朱德举
性别:男
人气指数:5760
所属院校:湖南大学
所属院系:土木工程学院
职称:教授
导师类型:博导
招生专业:结构工程
研究领域:绿色建筑材料(高性能纤维和织物增强水泥基复合材料、仿生建材、混凝土)及应用;高性能纤维布的...

[通讯方式]
电子邮件:dzhu(AT)hnu.edu.cn
通讯地址:土木南楼A303 Main Building of Civil Engineering

[个人简述]


[科研工作]
主持和参与的纵向项目:1) 国家自然科学基金面上项目,51778220,“动态荷载与温度耦合作用下织物增强混凝土的损伤机理研究”,2018-2021,主持(在研)2) 国防科技创新特区,17-H863-03-ZT-003-008-06 ,“xxx技术”,2017-2018,主持(在研)3) 国家重点研发计划绿色建筑及建筑工业化重点专项,2017YFC0703006,“高性能纤维增强复合材料与新型结构关键技术研究与应用”-课题六“大拉力纤维增强复合材料索、锚具、连接件及其轻量化大跨结构体系研究”,2017-2019,研究骨干(子课题负责人)(在研)4) 湖南省重点研发计划项目,2017GK2130,“仿生柔性全身防护装具的设计与制备关键技术研究”,2017-2019,主持(在研)5) 国家自然科学基金重点项目,51638008,“绿色低碳地聚物混凝土材料和结构设计的基础研究”,2017-2021,研究骨干(排名第三,在研)6) 装备预研教育部联合基金青年人才项目,6141A02033602,“基于鳞片仿生的柔性防护装具关键技术研究”,2016-2018,主持(在研)7) 湖南省战略性新兴产业科技攻关与重大科技成果转化项目,2016GK4016,“纤维编织网增强混凝土材料与复合结构的关键技术研究与应用示范”,2016-2018,首席专家(在研)8) 湖南省科技计划重点项目-国际与区域科技合作, 2014WK2026,“高性能仿生防护墙的性能研究”,2014-2016,主持(已结题)9) 教育部留学回国人员科研启动基金(第48批),“鱼鳞片多尺度力学行为的实验研究”,2014-2015,主持(已结题)10) 湖南大学交叉学科研究项目, “仿生高性能防护墙的试验与理论研究”, 2013-2014,主持(已结题)11) 国家重点基础研究发展计划(973),2012CB026200,“应用FRP实现重大工程结构高性能与长寿命的基础研究”-课题四“FRP及其增强结构在极端荷载下的动力响应及控制方法研究”,2012-2016,研究骨干(已结题)
英文SCI期刊 (*通讯作者):1.Lawrence Szewciw, Deju Zhu, Francois Barthelat*. The nonlinear flexural response of a whole teleost fish: contribution of scales and skin. Journal of the Mechanical Behavior of Biomedical Materials, 76, 97-103, 2017.2.Deju Zhu*, Xiaotong Zhang, Yunfu Ou, Mengying Huang. Experimental and numerical study of multi-scale tensile behaviors of Kevlar 49 fabric. Journal of Composite Materials, 51(17), 2449-2465, 2017.3.Peng Liu, Deju Zhu*, Junwen Wang, Tinh Quoc Bui. Structure, mechanical behavior and puncture resistance of grass carp scales. Journal of Bionic Engineering, 14(2), 356-368, 2017.4.Yunxing Du*, Mengmeng Zhang, Fen Zhou, Deju Zhu. Experimental study on basalt textile reinforced concrete under uniaxial tensile loading. Construction and Building Materials, 138, 88-100, 2017.5.Yunfu Ou, Deju Zhu*, Mengying Huang, Hang Li. The effects of gage length and strain rate on tensile behavior of Kevlar 29 single filament and yarn. Journal of Composite Materials, 51(1),109-123, 2017.6.Yunfu Ou, Deju Zhu*, Hang Li. Strain rate and temperature effects on the dynamic tensile behaviors of basalt fiber bundle and reinforced composite. ASCE Journal of Materials in Civil Engineering, 28(10), 04016101, 2016.7.Yiming Yao, Deju Zhu*, Huaian Zhang, Gaosheng Li, Barzin Mobasher. Tensile behaviors of basalt, carbon, glass and aramid fabrics under various strain rates. ASCE Journal of Materials in Civil Engineering, 28(9), 04016081, 2016.8.Yunfu Ou, Deju Zhu*, Huaian Zhang, Yiming Yao, Barzin Mobasher, Liang Huang. Mechanical properties and failure characteristics of CFRP under intermediate strain rates and varying temperatures. Composites Part B, 95,123-136, 2016.9.Yunfu Ou, Deju Zhu*, Huaian Zhang, Liang Huang*, Yiming Yao, Barzin Mobasher. Mechanical characterization of the tensile properties of glass fiber and its reinforced polymer (GFRP) composite under varying strain rates and temperatures. Polymers, 8(5),196, 2016.10.Peng Liu, Deju Zhu*, Yiming Yao, Junwen Wang, Tinh Quoc Bui. Numerical simulation of ballistic impact behavior of bio-inspired scale-like protection system. Materials & Design, 99, 201-210, 2016.11.Mingxia Yao, Deju Zhu*, Yiming Yao, Huaian Zhang, Barzin Mobasher. Experimental study on basalt FRP/steel single-lap joints under different loading rates and temperatures. Composite Structures, 145, 68-79, 2016.12.Huaian Zhang, Yiming Yao, Deju Zhu*, Barzin Mobasher, Liang Huang*. Tensile mechanical properties of basalt fiber reinforced polymer composite under varying strain rates and temperatures. Polymer Testing, 51, 29-39, 2016.13.Peng Yin, Liang Huang*, Libo Yan, Deju Zhu. Compressive behavior of concrete confined by CFRP and transverse spiral reinforcement. Part A: experimental study. Materials and Structures, 49(3), 1001-1011, 2016. 14.Yunfu Ou, Deju Zhu*. Tensile behavior of glass fiber reinforced composite at different strain rates and temperatures. Construction and Building Materials, 96, 648-656, 2015.15.Liang Huang*, Xiaoxun Sun, Libo Yan, Deju Zhu. Compressive behavior of concrete confined with GFRP tubes and steel spirals. Polymers, 7, 851-875, 2015.16.Peng Liu, Tinh Bui-Quoc*, Deju Zhu*, Tiantang Yu, JW Wang, Shuihui Yin, S. Hirose. Buckling failure analysis of cracked functionally graded plates by a stabilized discrete shear gap extended 3-node triangular plate element. Composites Part B, 77, 179-193, 2015.17.Deju Zhu, Aditya Vaidya, Barzin Mobasher, S.D. Rajan*. Finite Element Modeling of Ballistic Impact on Multi-Layer Kevlar 49 Fabrics. Composites Part B, 56, 254-262, 2014.18.Deju Zhu, Lawrence Szewciw, Franck Vernerey, Francois Barthelat*. Puncture Resistance of the Scaled Skin from Striped Bass: Collective Mechanisms and Inspiration for New Flexible Armor Designs. Journal of the Mechanical Behavior of Biomedical Materials, 24, 30-40, 2013.19.Deju Zhu, Barzin Mobasher*, Aditya Vaidya, S.D. Rajan. Mechanical Behaviors of Kevlar 49 Fabric Subjected to Uniaxial, Biaxial Tension and In-plane Large Shear Deformation. Composites Science and Technology, 74, 121-130, 2013.20.Deju Zhu, Barzin Mobasher*, Juan Ermi, Saurabh Bansal, S.D. Rajan. Strain Rate and Gage Length Effects on Tensile Behavior of Kevlar 49 Single Yarn. Composites Part A, 43(11), 2021-2029, 2012. 21.Deju Zhu, Barzin Mobasher*, S.D. Rajan. Non-Contacting Strain Measurement for Cement-Based Composites in Dynamic Tensile Testing. Cement and Concrete Composites, 34(2), 147-155, 2012.22.Heide Humburg, Deju Zhu, Samia Beznia, Francois Barthelat*. Bio-inspired Tapered Fibers for Composites with Superior Toughness. Composites Science and Technology, 72(9), 1012-1019, 2012.23.Deju Zhu, Cesar Ortega, Ramak Motamedi, Lawrence Szewciw, Franck Vernerey, Francois Barthelat*. Structure and Mechanical Performance of a "Modern" Fish Scale. Advanced Biomaterials (Advanced Engineering Materials), 14(4), B185-B194, 2012. (封面论文)24.Deju Zhu, Chote Soranakom, Barzin Mobasher*, S.D. Rajan. Experimental Study and Modeling of Single Yarn Pull-out Behavior of Kevlar 49 Fabric. Composites Part A, 42(7), 868-879, 2011.25.Deju Zhu, Barzin Mobasher*, S.D. Rajan. Dynamic Tensile Testing of Kevlar 49 Fabrics. ASCE Journal of Materials in Civil Engineering, 23(3), 230-239, 2011.26.Deju Zhu, Barzin Mobasher*, S.D. Rajan, Pedro Peralta. Characterization of Dynamic Tensile Testing using Aluminum Alloy 6061-T6 at Intermediate Strain Rates. ASCE Journal of Engineering Mechanics, 137(10), 669-679, 2011.27.Deju Zhu, S.D. Rajan, Barzin Mobasher*, Alva Peled, Marc Mignolet. Modal Analysis of a Servo-hydraulic High Speed Testing Machine and Its Application to Dynamic Tensile Testing at an Intermediate Strain Rate. Experimental Mechanics, 51(8), 1347-1363, 2011.28.Deju Zhu, Alva Peled, Barzin Mobasher*. Dynamic Tensile Testing of Fabric-Cement Composites. Construction and Building Materials, 25(1), 385-395, 2011.29.Francois Barthelat*, Deju Zhu. A Novel Biomimetic Material Duplicating the Structure and Mechanics of Natural Nacre. Journal of Materials Research, 26(10), 1203–1215, 2011.30.Flavio Silva, Deju Zhu, Barzin Mobasher*, R.D. Toledo Filho. Impact Behavior of Sisal Fiber Cement Composites under Flexural Load. ACI Materials Journal, 108(2), 168-177, 2011.31.Flavio Silva, Marko Butler, Viktor Mechtcherine, Deju Zhu, Barzin Mobasher*. Strain Rate Effect on the Tensile Behaviour of Textile-Reinforced Concrete under Static and Dynamic Loading. Materials Science and Engineering: A, 528(3), 1727-1734, 2011.32.Viktor Mechtcherine*, Flavio Silva, Marko Butler, Deju Zhu, Barzin Mobasher, Shanglin Gao, Edith Mäder. Behaviour of Strain-Hardening Cement-Based Composites under High Strain Rates. Journal of Advanced Concrete Technology, 9(1), 51-62, 2011. (年度最佳论文)33.Flavio Silva, Deju Zhu, Barzin Mobasher*, Chote Soranakom, R.D. Toledo Filho. High Speed Tensile Behavior of High Performance Sisal Fiber Cement Composites. Materials Science and Engineering: A, 527(3), 544-552, 2010.34.Deju Zhu, Mustafa Gencoglu, Barzin Mobasher*. Low Velocity Impact Behavior of AR Glass Fabric Reinforced Cement Composites in Flexure. Cement and Concrete Composites, 31(6), 379-387, 2009.35.Zhaohui Yang*, Utpal Dutta, Deju Zhu, Niren Biswas. Seasonal Frost Effects on the Soil-Foundation-Structure Interaction System. ASCE Journal of Cold Regions Engineering, 21(4), 108-120, 2007.
中文期刊1. 朱德举*,张超慧,刘鹏. 天然和仿生柔性生物结构的设计. 复合材料学报(EI,已录用)2. 朱德举*, 黄蒙影. 不同标距及应变率下纤维丝间摩擦对Kevlar 49纤维束力学性能的影响. 实验力学(EI,已录用)3. 朱德举*, 火兴斐. 埋置深度对黄麻纤维束与水泥基体粘结性能的影响. 复合材料学报 (EI,已录用)4. 朱德举*, 高炎鑫. 碳纤维带电热地暖热性能的优化分析. 湘潭大学学报(已录用)5. 朱德举*, 高炎鑫,李高升. 玄武岩织物增强水泥基复合材料拉伸力学性能. 湖南大学学报(EI,已录用)6. 朱德举*, 李向阳, 史才军, 徐新华. 水泥基体中仿生钢纤维的拔出试验. 湖南大学学报(EI,已录用)7. 朱德举*, 张晓彤, 王润建, 徐新华. Kevlar布层间及钢板单搭接粘结性能的试验研究. 湖南大学学报(EI,已录用)8. 朱德举*, 张晓彤, 张怀安, 欧云福, 徐新华. 不同应变率和温度下AFRP力学性能试验研究. 湖南大学学报, 44(7): 187-193, 2017(EI)9. 朱德举*, 欧云福, 徐新华. 玻璃纤维束拉伸力学性能影响参数试验研究. 湖南大学学报, 44(1), 118-124, 2017(EI)10. 刘赛,朱德举*,李安令. 织物增强混凝土的研究与应用进展. 建筑科学与工程学报, 34(5):134-146, 201711. 朱德举*, 李高升. 短切纤维及预应力对玄武岩织物增强水泥基复合材料拉伸力学性能的影响. 复合材料学报, 34(11):2631-2641, 2017(EI)12. 刘赛,朱德举*,李安令,史才军. 应变率和温度对耐碱玻璃纤维织物增强水泥基复合材料弯曲力学行为的影响. 复合材料学报, 34(3):675-683, 2017(EI)13. 朱德举*, 火兴斐. 黄麻纤维束力学性能的尺寸和应变率效应. 复合材料学报, 34(2), 446-455, 2017(EI)14. 朱德举*,姚明侠,张怀安,火兴斐. 动态拉伸荷载下温度对CFRP/钢板单搭接剪切接头力学性能的影响. 土木工程学报, 49(8), 28-35, 2016.(EI)15. 朱德举*, 欧云福, 张晓彤, 黄蒙影. Kevlar 29纤维多尺度力学行为的试验研究和有限元模拟. 工程力学, 33(9), 242-249, 2016.(EI)16. 朱德举*, 欧云福. 应变速率和温度对单束BFRP力学性能的影响. 建筑材料学报, 19(3), 491-496, 2016.17. 朱德举*, 欧云福. 应变速率和温度对玄武岩纤维束力学性能的影响. 建筑材料学报, 19(4), 742-745, 2016.(EI)18. 朱德举*, 张晓彤, 欧云福, 黄蒙影. Kevlar 49单丝和单束的随机破坏及有限元模拟. 复合材料学报, 33(1), 213-223, 2016.(EI)19. 朱德举*, 欧云福. 标距和应变率对单束Kevlar 49纤维拉伸性能的影响. 复合材料学报, 33(2), 225-233, 2016.(EI)20. 朱德举*, 张晓彤, 张怀安. 动态拉伸荷载下应变率和温度对Kevlar 49芳纶纤维布增强环氧树脂复合材料力学性能的影响. 复合材料学报, 33(3), 459-468, 2016.(EI)21. 刘鹏,汪俊文, 朱德举*. 草鱼鳞片的多级结构及力学性能. 复合材料学报,33(3), 657-665, 2016.(EI)22. 朱德举*, 马拓,刘赛,李航, 李安令, 刘洪彬, 刘宝株. 碳纤维带电热地暖性能的足尺试验研究. 湖南大学学报,43(9),144-150,2016.(EI)23. 朱德举*, 马拓, 刘武华. 碳纤维带电热技术的试验研究. 湖南大学学报,43(5),131-136,2016. (EI)24. 黄靓, 张怀安, 肖岩, 朱德举*. CFRP在不同应变率和温度下的力学性能试验研究. 湖南大学学报, 43(3), 90-97, 2016.(EI)25. 史才军*,何稳,吴泽媚,吴林妹,朱德举,黄政宇,张家科. 纤维对UHPC力学性能的影响研究进展. 硅酸盐通报,34(8), 2228-2236, 2015.

[教育背景]
博士(结构/材料工程), 亚利桑那州立大学, 美国, 2006–2009
Arizona State University, Tempe, AZ, USA
Ph.D., Civil Engineering (Structure & Material Engineering);
博士研究生(岩土地震工程), 阿拉斯加大学, 美国, 2004–2005
Graduate study, Civil Engineering (Geotechnical Earthquake Engineering);
本科和硕士(交通土建工程), 东北林业大学, 哈尔滨, 中国, 1997–2003
B.S.& M.S., Civil Engineering (Highway & Bridge Engineering) 以上老师的信息来源于学校网站,如有更新或错误,请联系我们进行更新或删除,联系方式

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