职称：副教授

学位：博士

研究领域：水泥基/非水泥基（超高性能）混凝土/高强钢/陶瓷/组合结构抗高温、爆炸、低速冲击、弹体高速侵彻性能分析与设计方法，有限元/无网格数值模拟，材料本构模型修改和二次开发

招生方向：结构工程[081402]、防灾减灾工程及防护工程[081405]、土木水利[085900]

教授课程：《工程结构》、《建筑结构与选型》、《荷载与结构设计原则》、《减隔震技术发展与应用》、《土木工程发展前沿》、《土木工程系列讲座》、《建筑结构试验与检测》、《画法几何与工程制图》、《工程建设法规》等

办公地点： 广州大学减震控制与结构安全实验大楼606-1

电子邮箱： jian.liu@gzhu.edu.cn

Google Scholar：https://scholar.google.com/citations?user=TAAZoNEAAAAJ&hl=en

ResearchGate: https://www.researchgate.net/profile/Jian-Liu-59

个人简介：

刘坚，男，1991年生，广州大学工程抗震研究中心防护工程研究室副主任，广州大学欧美同学会第二届理事会副秘书长，副教授，硕士生导师。2018年12月博士毕业于澳大利亚悉尼科技大学土木与环境工程学院，获哲学博士（导师：Prof. Chengqing Wu），2019年1月至2019年9月任悉尼科技大学土木与环境工程学院博士后研究助理，2019年9月任广州大学土木工程学院防护工程研究中心副教授。主持包括国家自然科学基金青年基金、广东省自然科学基金面上项目、广州市科协“青年人才托举工程”项目、广州市市校（院）企联合资助项目等在内的纵向科研项目6项，企（事）业横向项目3项。广州市高层次人才团队引进项目（负责人：郝洪院士）团队核心成员。任SCI期刊Buildings（JCR Q2）专刊“Performance Analysis and Design Method of Ultra-High Performance Concrete”特邀编辑（guest editor），Frontiers in Materials青年编委，以及10余个知名SCI期刊审稿人。近年来在材料和结构抗爆抗冲击领域国际知名SCI期刊已发表高水平学术论文近50篇，其中第一/通讯作者29篇（ESI高被引1篇，JCR-Q1 期刊28篇，JCR-Q2 期刊1篇），谷歌学术（Google Scholar）引用数1200余次，H指数20。于2022年获得广州大学 “年度学术新锐”荣誉称号。

SCI期刊论文：

[1] Liu J (刘坚), Dong L, Li C, Fang J*, Chen Y*, Cui J. Quasi-static and dynamic tensile behaviour of 316L stainless steels: Rolled versus laser-powder bed fusion (LPBF) fabricated samples. International Journal of Impact Engineering (JCR-Q1), 2024. 190: 104972.

[2] Liu J (刘坚), Wei J, Li J*, Su Y, Wu C*. A comprehensive review of ultra-high performance concrete (UHPC) behaviour under blast loads. Cement and Concrete Composites (JCR-Q1), 2024. 148: 105449.

[3] Liu J (刘坚), Lu S, Wei J*, Xu S*, Dynamic behaviour of ultra-high performance concrete beams with rectangular openings subjected to impact loads. Structures (JCR-Q1), 2024. Accepted.

[4] Liu J (刘坚), Cai P, Liu C, Liu P*, Su Y, Xu S*, Wu C. Mechanical properties of geopolymer-based ultra-high performance concrete with ceramic ball coarse aggregates. Journal of Cleaner Production (JCR-Q1), 2023. 420: 138318.

[5] Liu J (刘坚), He Z, Liu P, Wei J*, Li J, Wu C*. High-velocity projectile impact resistance of reinforced concrete slabs with ultra-high performance concrete strengthening-A numerical study. Structures (JCR-Q1), 2023. 52: 422-436.

[6] Liu J (刘坚), Liu C, Qu K*, Li J, Wu C*. Calibration of Holmquist Johnson Cook (HJC) model for projectile penetration of geopolymer-based ultra-high performance concrete (G-UHPC). Structures (JCR-Q1), 2022. 43: 149-163.

[7] Liu J (刘坚), Li J, Fang J, Liu K*, Su Y, Wu C*. Investigation of ultra-high performance concrete slabs under contact explosions with a calibrated K&C model. Engineering Structures (JCR-Q1), 2022. 255: 113958.

[8] Liu J (刘坚)*, Peng Y, Xu S*, Yuan P, Qu K, Yu X, Hu F, Zhang W, Su Y. Investigation of geopolymer-based ultra-high performance concrete slabs against contact explosions. Construction and Building Materials (JCR-Q1), 2022. 315: 125727.

[9] Liu J (刘坚), Liu C, Xu S*, Li J, Fang J, Su Y, Wu C*. G-UHPC slabs strengthened with high toughness and lightweight energy absorption materials under contact explosions. Journal of Building Engineering (JCR-Q1), 2022. 50: 104138.

[10] Liu J (刘坚)*, Li J, Fang J, Su Y, Wu C*. Ultra-high performance concrete targets against high velocity projectile impact–a-state-of-the-art review. International Journal of Impact Engineering (JCR-Q1), 2022. 160: 104080. (ESI高被引)

[11] Liu J (刘坚)*, Wu C*, Li J, Liu Z, Xu S, Liu K, Su Y, Fang J, Chen G. Projectile impact resistance of fibre-reinforced geopolymer-based ultra-high performance concrete (G-UHPC). Construction and Building Materials (JCR-Q1), 2021. 290: 123189.

[12] Liu J (刘坚)*, Wu C*, Liu Z, Li J, Xu S, Liu K, Su Y, Chen G. Investigations on the response of ceramic ball aggregated and steel fibre reinforced geopolymer-based ultra-high performance concrete (G-UHPC) to projectile penetration. Composite Structures (JCR-Q1), 2021. 255: 112983.

[13] Liu J (刘坚), Wu C*, Li C, Dong W, Su Y, Li J, Cui N, Zeng F, Dai L, Meng Q, Pang J. Blast testing of high performance geopolymer composite walls reinforced with steel wire mesh and aluminium foam. Construction and Building Materials (JCR-Q1), 2019. 197: 533-547.

[14] Liu J (刘坚)*, Wu C*, Li J, Fang J, Su Y, Shao R. Ceramic balls protected ultra-high performance concrete structure against projectile impact–A numerical study. International Journal of Impact Engineering (JCR-Q1), 2019. 125: 143-162.

[15] Liu J (刘坚), Wu C*, Su Y, Li J, Shao R, Chen G, Liu Z. Experimental and numerical studies of ultra-high performance concrete targets against high-velocity projectile impacts. Engineering Structures (JCR-Q1), 2018. 173: 166-179.

[16] Liu J (刘坚)*, Wu C*, Li J, Su Y, and Chen X, Numerical investigation of reactive powder concrete reinforced with steel wire mesh against high-velocity projectile penetration. Construction and Building Materials (JCR-Q1), 2018. 166: 855-872.

[17] Liu J (刘坚), Wu C*, Li J, Su Y, Shao R, Liu Z, Chen G, Experimental and numerical study of reactive powder concrete reinforced with steel wire mesh against projectile penetration. International Journal of Impact Engineering (JCR-Q1), 2017. 109: 131-149.

[18] Liu J (刘坚)*, Wu C, Chen X, Numerical study of ultra-high performance concrete under non-deformable projectile penetration. Construction and Building Materials (JCR-Q1), 2017. 135: 447-458.

[19] Lin S, Liu J (刘坚)*, Liu C*, Liu K, Liu P, Su Y, Triaxial compressive behaviour of ultra-high performance geopolymer concrete (UHPGC) and its applications in contact explosion and projectile impact analysis. Construction and Building Materials (JCR-Q1), 2024. Accepted.

[20] Wei J, Li W, Liu J (刘坚)*, Li J, Wu C. Effect of stirrup ratio on response of ultra-high performance concrete beams subjected to low-velocity impact loadings. Journal of Building Engineering (JCR-Q1). 2024: 109799.

[21] Wei J, Liu C, Liu J (刘坚)*, Yu X*, Xu S, Su Y. Investigations on geopolymer-based seawater sea-sand high performance concrete slabs reinforced with basalt FRP bars under direct contact explosions. Construction and Building Materials (JCR-Q1), 2024. 411: 134538.

[22] Qu K, Liu J (刘坚)*, Zhang J, Wu C*. Three-dimensional meso-scale modelling of geopolymer-based ultra-high performance concrete (G-UHPC) with ceramic ball coarse aggregates under projectile impact. Structures (JCR-Q1), 2024. 61: 105935.

[23] Xu S, Yang T, Wu P, Yang Y, Liu Z, Liu J (刘坚)*, Wu C. Effects of bond-slip on flexural behavior of reinforced nano-material modified UHPC beams: Experimental and numerical investigation. Composite Structures (JCR-Q1). 2023. 116793.

[24] Xu S, Zheng M, Yuan P, Wu P, Shao R, Liu Z, Liu J (刘坚)*, Wu C*. Experimental study of mechanical properties of G-UHPC against sodium sulfate attack at elevated temperature. Construction and Building Materials (JCR-Q1), 2023. 396: 132387.

[25] Liu K, Liu J (刘坚)*, Li J, Tao M, Wu C*. Experimental investigation of heating–cooling effects on the mechanical properties of geopolymer-based high performance concrete heated to elevated temperatures. Structures (JCR-Q1), 2023. 47: 735-747.

[26] Xu S*, Yuan P, Liu J (刘坚)*, Yu X, Hao Y, Hu F, Su Y. Experimental and numerical investigation of G-UHPC based novel multi-layer protective slabs under contact explosions. Engineering Failure Analysis (JCR-Q1), 2022. 142:106830.

[27] Liu C, Liu J (刘坚)*, Wei J*, Xu S, Su Y. Parametric study on contact explosion resistance of steel wire mesh reinforced geopolymer based ultra-high performance concrete slabs using calibrated continuous surface cap model. Buildings (JCR-Q2), 2022. 12(11): 2010.

[28] Xu S, Yuan P, Liu J (刘坚)*, Pan Z, Liu Z, Su Y, Li J, Wu C*. Development and preliminary mix design of ultra-high-performance concrete based on geopolymer. Construction and Building Materials (JCR-Q1), 2021. 308: 125110.

[29] Liu K, Wu C*, Li X, Liu J (刘坚)*, Tao M, Fang J, Xu S. The influences of cooling regimes on fire resistance of ultra-high performance concrete under static-dynamic coupled loads. Journal of Building Engineering (JCR-Q1), 2021. 44: 103336.

[30] Du K, Niu T, Sun Y, Zhou J, Liu J (刘坚), Wang S, Liu K*. Crack evolution and failure mechanisms of rock specimens with oblique cylindrical holes in biaxial compression tests. Rock Mechanics and Rock Engineering (JCR-Q1). 2024: 1-24.

[31] Xu S, Zeng H, Yuan P*, Liu J (刘坚), Yang T, Shao R, Su Y, Wu C*. Experimental and numerical study of G-HPC slabs rapidly repaired by G-HPC canvas and G-UHPC under contact detonations. Engineering Structures (JCR-Q1), 2024. 306: 117877.

[32] Liu P, Liu J (刘坚), Bi J*. Experimental and theoretical study of dynamic mechanical behavior of concrete subjected to triaxial confining and impact loads. Journal of Building Engineering (JCR-Q1), 2023. 64: 105715.

[33] Wei J, Li J*, Wu C*, Hao H, Liu J (刘坚). Experimental and numerical study on the impact resistance of ultra-high performance concrete strengthened RC beams. Engineering Structures (JCR-Q1), 2023. 277: 115474.

[34] Wei J, Li J*, Liu Z*, Wu C*, Liu J (刘坚). Behaviour of hybrid polypropylene and steel fibre reinforced ultra-high performance concrete beams against single and repeated impact loading. Structures (JCR-Q1), 2023. 55: 324-337.

[35] Yuan P, Xu S*, Liu J (刘坚), Su Y, Wu C*. Experimental and numerical study of blast resistance of geopolymer based high performance concrete sandwich walls incorporated with metallic tube core. Engineering Structures (JCR-Q1), 2023. 278: 115505.

[36] Yuan P, Xiang H, Xu S*, Liu J (刘坚), Su Y, Qu K, Wu C*. Experimental and numerical study of steel wire mesh reinforced G-HPC slab protected by UHMWPE FRC under multiple blast loadings. Engineering Structures (JCR-Q1), 2023. 275: 115224.

[37] Liu K, Wu C*, Li X, Tao M, Li J, Liu J (刘坚), Xu S*. Fire damaged ultra-high performance concrete (UHPC) under coupled axial static and impact loading. Cement and Concrete Composites (JCR-Q1), 2022. 126: 104340.

[38] Yuan P, Xu S*, Liu J (刘坚), Su Y, Li J, Qu K, Liu C, Wu C*. Experimental investigation of G-HPC-based sandwich walls incorporated with metallic tube core under contact explosion. Archives of Civil and Mechanical Engineering (JCR-Q1), 2022. 22(4): 155.

[39] Qu K, Wu C*, Liu J (刘坚), Yao Y*, Deng Y, Yi C. Ballistic performance of multi-layered aluminium and UHMWPE fibre laminate targets subjected to hypervelocity impact by tungsten alloy ball. Composite Structures (JCR-Q1), 2020. 253: 112785.

[40] Liu K*, Wu C*, Li X, Li Q, Fang J, Liu J (刘坚). A modified HJC model for improved dynamic response of brittle materials under blasting loads. Computers and Geotechnics (JCR-Q1), 2020. 123: 103584.

[41] Peng Y*, Wu C, Li J, Liu J (刘坚), Liang X. Mesoscale analysis on ultra-high performance steel fibre reinforced concrete slabs under contact explosions. Composite Structures (JCR-Q1), 2019. 228: 111322.

[42] Meng Q*, Wu C*, Su Y, Li J, Liu J (刘坚), Pang J. Experimental and numerical investigation of blast resistant capacity of high performance geopolymer concrete panels. Composites Part B: Engineering (JCR-Q1), 2019. 171: 9-19.

[43] Meng Q*, Wu C*, Su Y, Li J, Liu J (刘坚), Pang J. A study of steel wire mesh reinforced high performance geopolymer concrete slabs under blast loading. Journal of Cleaner Production (JCR-Q1), 2019. 210: 1150-1163.

[44] Shao R, Wu C*, Su Y, Liu Z, Liu J (刘坚), Xu S. Numerical analysis on impact response of ultra-high strength concrete protected with composite materials against steel ogive-nosed projectile penetration. Composite Structures (JCR-Q1). 2019. 220: 861-74.

[45] Shao R, Wu C*, Su Y, Liu Z, Liu J (刘坚), Chen G, Xu S. Experimental and numerical investigations of penetration resistance of ultra-high strength concrete protected with ceramic balls subjected to projectile impact. Ceramics International (JCR-Q1), 2019. 45(6): 7961-7975.

[46] Shao R, Wu C*, Liu Z*, Su Y, Liu J (刘坚), Chen G, Xu S. Penetration resistance of ultra-high-strength concrete protected with layers of high-toughness and lightweight energy absorption materials. Composite Structures (JCR-Q1), 2018. 185: 807-820.