廖进京
一、 基本信息
廖进京,博士,特聘副教授,土木工程学科骨干高层次人才,博士毕业于澳大利亚墨尔本大学。主要研究方向为FRP增强UHPC结构、FRP约束混凝土、钢管混凝土、结构抗爆、生物力学等。近五年发表SCI论文近50篇,H-index为18。主持广东省基础与应用基础面上项目1项。
二、 研究方向
FRP增强UHPC结构、FRP约束混凝土、钢管混凝土、结构抗爆、生物力学、海洋工程等。
三、 教育经历
2018-2021,墨尔本大学,哲学博士(Ph.D.)
2015-2017,西澳大利亚大学,研究型硕士(M.Phil.)
2009-2012,西澳大利亚大学,一等荣誉学士(B.Eng. 1st Hons.)
四、 工作经历
2023/05-至今,东莞理工6T体育
,生态环境与建筑工程6T体育
,特聘副教授
2021/05-2023/04,广东工业大学,土木工程6T体育
交通工程系,博士后
2012/02-2017/10,阿特金斯(ATKINS),Energy - Oil & Gas, 海洋结构工程师
五、 科研项目
1.广东省自然科学基金面上项目,新型FRP增强轻质UHPC漂浮式风机平台的板构件在随机波浪荷载下的疲劳性能研究,2024A1515011318,15万元,主持。
2. 广东省省级科技计划项目,漂浮结构FRP格栅增强超高性能海水海砂混凝土薄板基本性能研发,2021A0505060008,10万元,参与。
3. Australian Research Council (ARC) Discovery project, Interaction between consolidation and lubrication of biological joints,DP180100915,35万澳大利亚元,参与(主研)。
六、 代表性研究成果
土木工程方向:
·Liao JJ, Zeng JJ*, Zheng Y, Liu Y*, Zhuge Y, Zhang L. Constitutive models of ultra-high performance concrete (UHPC) under true tri-axial compression and an analysis-oriented model for FRP-confined UHPC. Engineering Structures 2024: 305; 117656.
·Liao JJ, Zeng JJ*, Xiang HY, Dai HS, Zeng WQ, Zhou JK, Zhang L. Behavior of hybrid FRP-concrete-steel double-skin tubular beams with ultra-high strength concrete and PBL shear connectors under bending. Engineering Structures 2023: 295; 116865.
·Liao JJ, Lin XC, Zhu DH, Zheng Y, Zeng JJ*, Ma CL, Zhao HC. Behavior of FRP grid-reinforced ultra-high performance concrete (UHPC) pipes under lateral compression. Case Studies in Construction Materials 2023: 19; e02189.
·Liao JJ, Zeng JJ*, Zhuge Y*, Zheng Y, Ma G, Zhang L. FRP-confined concrete columns with a stress reduction-recovery behavior: A state-of-the-art review, design recommendations and model assessments. Composite Structures 2023: 321; 117313.
·Liao JJ, Zeng JJ*, Dai HS, Chen WJ, Zhou JK. A constitutive model of expansive concrete and steel fiber-reinforced expansive concrete under tri-axial compression, Composite Structures 2023: 320; 117212.
·Liao JJ, Zeng JJ*, Lin XC, Zhuge Y, He SH. Punching shear behavior of FRP grid-reinforced ultra-high performance concrete (UHPC) slabs. Journal of Composites for Construction 2023: 27(4); 04023031.
·Liao JJ, Zeng JJ*, Quach WM*, Zhou JK. Axial compressive behavior and model assessment of FRP-confined seawater sea-sand concrete-filled stainless steel tubular stub columns. Composite Structures 2023: 311; 116782.
·Liao JJ, Zeng JJ, Long YL*, Cai J*, Ouyang Y. Behavior of square and rectangular concrete-filled steel tube (CFST) columns with horizontal reinforcing bars under eccentric compression. Engineering Structures 2022: 271; 114899.
·Liao JJ, Zeng JJ*, Jiang C, Li JX, Yuan JS. Stress-strain behavior and design-oriented model for FRP spiral strip-confined concrete. Composite Structures 2022: 293; 115747.
·Liao JJ, Zeng JJ*, Bai YL, Zhang L. Bond strength of GFRP bars to high strength and ultra-high strength fiber reinforced seawater sea-sand concrete (SSC). Composite Structures 2022: 281; 115013.
·Liao JJ, Zeng JJ*, Gong QM, Quach QM*, Gao WY, Zhang L. Design-oriented stress-strain model for FRP-confined ultra-high performance concrete (UHPC). Construction and Building Materials 2022: 318; 126200.
·Liao JJ, Yang KY, Zeng JJ*, Quach WM*, Ye YY, Zhang L. Compressive behavior of FRP-confined ultra-high performance concrete (UHPC) in circular columns. Engineering Structures 2021: 249; 113246.
·Liao JJ, Li YL, Ouyang Y, Zeng JJ*. Axial compression tests on elliptical high strength steel tubes filled with self-compacting concrete of different mix proportions. Journal of Building Engineering 2021: 40; 102678.
·Liao JJ*, Ma G. The blast alleviation effects of a hybrid barrier system with triple energy absorbers. Marine Structures 2018: 61; 540–559.
·Liao JJ*, Ma G. Energy absorption of the ring stiffened tubes and the application in blast wall design. Structural Engineering and Mechanics, 2018; 66(6): 713–727.
生物力学方向:
·Liao JJ, Liu X*, Miramini S, Zhang L. Influences of variability and uncertainty in vertical and horizontal surface roughness on articular cartilage lubrication. Computers in Biology and Medicine, 2022; 148: 105904.
·Liao JJ, Smith DW, Miramini S, Gardiner BS, Zhang L*. Investigation of role of cartilage surface polymer brush border in lubrication of biological joints. Friction, 2022; 10(1): 110–127.
·Liao JJ, Smith DW, Miramini S, Gardiner BS, Zhang L*. A Probabilistic failure risk approach to the problem of articular cartilage lubrication. Computer Methods and Programs in Biomedicine, 2021; 203: 106053.
·Liao JJ, Smith DW, Miramini S, Gardiner BS, Zhang L*. A coupled contact model of cartilage lubrication in the mixed-mode regime under static compression. Tribology International, 2020; 145: 106185.
·Liao JJ, Miramini S, Liu X, Zhang L*. Computational study on synovial fluid flow behaviour in cartilage contact gap under osteoarthritic condition. Computers in Biology and Medicine, 2020; 123: 103915.
·Liao JJ, Smith DW, Miramini S, Thibbotuwawa N, Gardiner BS, Zhang L*. The investigation of fluid flow in cartilage contact gap. Journal of the Mechanical Behavior of Biomedical Materials, 2019; 95: 153–164.
七、社会工作
《Buildings》Special Issue: Research on the Performance of Traditional, New and Potential Building Materials,特刊编辑。
Buildings, Polymers, Engineering Structures, Case studies in Construction Materials, Computers in Biology and Medicine等期刊审稿人。
八、 联系方式
地址:广东省东莞市松山湖大学路1号东莞理工6T体育
邮编:523808
邮箱:liaojinjing@play6t.com
