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李古

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    李古(Leo Gu Li),男,香港大学博士,广东工业大学土木工程系主任、珠江科技新星,“青年百人”副教授、“培英育才计划”培养对象、硕士生导师、土木工程材料实验室建设主任,香港大学土木工程系副研究员(Research Associate),香港混凝土学会(HKCI)Fellow,美国混凝土学会(ACI)会员,中国硅酸盐学会固废分会会员,环境地球化学与健康学会(SEGH)会员,广东省硅酸盐学会会员,广东企业科技特派员,广州市建筑业联合会专家。2009年本科毕业于香港大学和中山大学,获香港大学土木工程工学学士学位;2013年研究生毕业于香港大学,获博士学位。目前主要从事混凝土材料与结构等领域的科研与教学工作,主持国家自然科学基金1项、广东省自然科学基金项目1项、广东省普通高校特色创新项目1项、广州市科技计划项目2项、校级人才项目2项,以及横向研究项目多项,并作为主要合作研究者参与香港研究资助局项目4项、香港建筑业议会资助项目2项、国家自然科学基金3项。目前已在J. Clean. Prod.、Cem. Concr. Compos.、Constr. Build. Mater.、Powder Technol.等在内的国内外期刊发表学术论文80余篇,其中SCI论文29篇(第一或通讯作者21篇),获授权专利10项,获“广东省硅酸盐学会青年科技奖”、“‘中通钢构杯’中青年优秀论文奖”等奖项,是Constr. Build. Mater.、Powder Technol.、J. Environ. Manage.等权威期刊的杰出/特邀审稿人。

 

 

联系方式:

电邮:ligu123@qq.com;ligu@gdut.edu.cn

办公地点:大学城广东工业大学实验2号楼513-5

通讯地址:广州番禺区大学城外环西路100号广东工业大学土木与交通工程学院(邮编:510006)

 

 

研究方向:

1)高性能混凝土与自密实混凝土

2)纳米改性混凝土

3)再生混凝土与固废物资源化利用

4)纤维增强混凝土

5)新型海工建材与海水海砂混凝土

6)建筑3D打印技术

7)水泥基材料流变学、颗粒学与耐久性研究等

 

 

招生专业:

土木工程、结构工程、无机非金属材料等。

*可推荐优秀研究生前往香港大学任研究助理进行短期学习交流。

 

 

获奖与荣誉(节。?/strong>:

[1]  2011-05,ARUP Research Prize 2011(2011奥雅纳研究奖),获奖题目:“Basic Research on the High-Performance Concrete for Hong Kong(香港高性能混凝土的基础研究)”。

[2]  2014-04,广东工业大学“青年百人”。

[3]  2016-07,论文《聚丙烯纤维长度对新拌混凝土性能的影响》获“中通钢构杯”中青年优秀论文奖,作者:李古、赵镇伟、谢燕、江镇鑫、方智全、杨鲜华、陈上勇、付豪,获奖者:李古,颁奖单位:第十六届全国现代结构工程学术研讨会。

[4]  2017-12,2017年“广东省硅酸盐学会青年科技奖”。

[5]  2017-07,广东工业大学,第三批“培英育才计划”(科研第二层次)。

[6]  2019-04,广州市科学技术局,“珠江科技新星”。

 

 

纵向科研项目(节。:

[1]  2014至2019,广东工业大学“青年百人计划”启动项目,“高性能混凝土及相关材料的性能研究和开发应用”,项目编号:220413508,项目主持,在研。

[2]  2015/08至2018/08,广东省自然科学基金-博士启动,“基于膜厚度理论下的砂浆流变性能关键因素研究”,项目编号:2015A030310282,项目主持,结题。

[3]  2016/4/1至2018/3/31,广州市科技计划项目-一般项目,“基于膜厚度理论的自密实混凝土流变性能研究”,项目编号:201607010329,项目主持,结题。

[4]  2017/01至2019/12,国家自然科学基金-青年基金,“基于膜厚度理论的自密实混凝土流变性能关键影响因素研究”,项目编号:51608131,项目主持,在研。

[5]  2017/7至2021/7,广东工业大学“培英育才计划”(科研第二层次),项目编号:220411336,项目主持,在研。

[6]  2018/1至2019/12,广东省教育厅-广东省普通高校特色创新项目,“湿热海洋环境下构筑物纳米改性水泥基材料保护层的性能研究”,项目编号:2017KTSCX061,项目主持,在研。

[7]  2019/04/01至2021/03/31,广州市科技计划项目-创新环境建设计划-珠江科技新星专题,“纤维自密实混凝土流变性能关键因素研究”,项目主持,在研。

[8]  2012至2013,香港建造业议会(Construction Industry Council,CIC),“混凝土和水泥砂浆生产用河砂替代品研究(第一阶段)(Research on River Sand Substitutes for Concrete Production and Cement Sand Mortar Production - Phase One)”,项目核心成员,结题。

[9]  2013至2014,香港建造业议会(Construction Industry Council,CIC),“混凝土和水泥砂浆生产用河砂替代品研究(第二阶段)(Research on River Sand Substitutes for Concrete Production and Cement Sand Mortar Production - Phase Two)”,项目核心成员,结题。

[10]2017/01至2019/12,国家自然科学基金-青年基金,项目编号:11602060,“亚热带海洋环境下橡胶混凝土轴压及断裂性能的退化机理研究”,项目核心成员,在研。

[11]2017/01至2020/12,国家自然科学基金-面上项目,项目编号:51678161,“FRP约束再生骨料混凝土力学性能研究”,项目核心成员,在研。

[12]2017/07至2020/06,广东省应用型科技研发及重大科技成果转化专项(应用型科技研发扶持),“建筑垃圾再生装配式混凝土构件关键技术研发与产业化”,项目编号:2017B020238006,文件编号:粤科规财字[2017]151号,项目核心成员,在研。

[13]2018/01至2021/12,国家自然科学基金-面上项目,项目编号:51778150,“预制节段UHPC梁接缝直剪破坏机理和设计理论研究”,项目核心成员,在研。

[14]2009至2012,香港研究资助局(Research Grants Council,RGC),“自密实混凝土的性能及生产稳定性研究(Performance and robustness of self-consolidating concrete)”,项目编号:713309,项目参与,结题。

[15]2014至2017,香港研究资助局(Research Grants Council,RGC),“通过优化骨料级配生产低浆体体积高性能混凝土的研究(Optimizing aggregate proportions for the production of high-performance concrete with low cementitious paste volume)”,项目编号:17203514,项目参与,结题。

 

 

期刊论文(节。:

[1]  Li L.G., Kwan A.K.H.*, Mortar design based on water film thickness, Construction and Building Materials, May 2011, 25, pp 2381-2390. (SCI收录,中科院2区Top期刊,JCR Q1)

[2]  Kwan A.K.H.*, Li L.G., Fung W.W.S., Wet packing of blended fine and coarse aggregate, Materials and Structures, June 2012, 45(6), pp 817-828. (SCI收录,中科院3区,JCR Q1)

[3]  Kwan A.K.H.*, Li L.G., Combined effects of water film thickness and paste film thickness on rheology of mortar, Materials and Structures, September 2012, 45(9), pp 1359-1374. (SCI收录,中科院3区,JCR Q1)

[4]  Li L.G., Kwan A.K.H.*, Concrete mix design based on water film thickness and paste film thickness, Cement & Concrete Composites, May 2013, 39, pp 33-42. (SCI收录,中科院2区Top期刊,JCR Q1)

[5]  Kwan A.K.H.*, Li L.G., Combined effects of water film, paste film and mortar film thicknesses on fresh properties of concrete, Construction and Building Materials, January 2014, 50, pp 598–608. (SCI收录,中科院2区Top期刊,JCR Q1)

[6]  Li L.G., Kwan A.K.H.*, Packing density of concrete mix under dry and wet conditions, Powder Technology, February 2014, 253, pp 514-521. (SCI收录,光盘版,中科院2区,JCR Q1)

[7]  Li L.G., Kwan A.K.H.*, Effects of superplasticizer type on packing density, water film thickness and flowability of cementitious paste, Construction and Building Materials, July 2015, 85, pp 113-119. (SCI收录,中科院2区Top期刊,JCR Q1)

[8]  Li L.G., Kwan A.K.H.*, Adding limestone fines as cementitious paste replacement to improve tensile strength, stiffness and durability of concrete, Cement & Concrete Composites, July 2015, 60, pp 17-24. (SCI收录,中科院2区Top期刊,JCR Q1)

[9]  Ng P.L.*, Kwan A.K.H., Li L.G., Packing and film thickness theories for the mix design of high-performance concrete. Journal of Zhejiang University-Science A, October 2016, 17(10), pp 759-781. (SCI收录,中科院4区,JCR Q3)

[10] Li L.G.*, Zhu J., Zhao Z.W., Kwan A.K.H., Roles of water film thickness and polypropylene fibre content in fresh properties of mortar. Advances in Cement Research, February 2017, 29(2), pp 71-80. (SCI收录,中科院4区,JCR Q3)

[11] Li L.G.*, Huang Z.H., Zhu J., Kwan A.K.H., Chen H.Y., Synergistic effects of micro-silica and nano-silica on strength and microstructure of mortar. Construction and Building Materials, 1 June 2017, 140, pp 229-238. (SCI收录,中科院2区Top期刊,JCR Q1)

[12] Li L.G.*, Chen J.J., Kwan A.K.H., Roles of packing density and water film thickness in strength and durability of limestone fines concrete. Magazine of Concrete Research, June 2017, 69(12), pp 595-605. (SCI收录,中科院4区,JCR Q2)

[13] Li L.G.*, Kwan A.K.H., Roles of superplasticiser dosage, water film thickness and slurry film thickness in flowability of cementitious paste. Advances in Cement Research, July 2017, 29(7), pp 287-301. (SCI收录,中科院4区,JCR Q3)

[14] Chen J.J.*, Li L.G., Ng P.L., Kwan A.K.H., Effects of superfine zeolite on strength, flowability and cohesiveness of cementitious paste. Cement & Concrete Composites, October 2017, 83, pp 101-110. (SCI收录,中科院2区Top期刊,JCR Q1)

[15] Li L.G.*, Zhu J., Huang Z.H., Kwan A.K.H., Li L.J., Combined effects of micro-silica and nano-silica on durability of mortar. Construction and Building Materials, 30 December 2017, 157, pp 337–347. (SCI收录,中科院2区Top期刊,JCR Q1)

[16] Li L.G., Lin C.J., Chen G.M.*, Kwan A.K.H., Jiang T., Effects of packing on compressive behaviour of recycled aggregate concrete. Construction and Building Materials, 30 December 2017, 157, pp 757-777. (SCI收录,中科院2区Top期刊,JCR Q1)

[17] Li L.G., Huang Z.H., Ng P.L.*, Zhu J., Kwan A.K.H., Effects of micro-silica and nano-silica on fresh properties of mortar. Materials Science-Medziagotyra, December 2017, 23(4), pp 362-371. (SCI收录,中科院4区,JCR Q4)

[18] Chen J.J.*, Ng P.L., Li L.G., Kwan A.K.H., Use of superfine zeolite in conjunction with silica fume - Effects on rheology and strength of cementitious paste. Powder Technology, 1 April 2018, 328, pp 75-83. (SCI收录,光盘版,中科院2区,JCR Q1)

[19] Li L.G.*, Huang Z.H., Tan Y.P., Kwan A.K.H., Liu F., Use of marble dust as paste replacement for recycling waste and improving durability and dimensional stability of mortar. Construction and Building Materials, 30 March 2018, 166, pp 423-432. (SCI收录,中科院2区Top期刊,JCR Q1)

[20] Li L.G.*, Zheng J.Y., Zhu J., Kwan A.K.H., Combined usage of micro-silica and nano-silica in concrete: SP demand, cementing efficiencies and synergistic effect. Construction and Building Materials, 20 April 2018, 168, pp 622-632. (SCI收录,中科院2区Top期刊,JCR Q1)

[21] Li L.G.*, Wang Y.M., Tan Y.P., Kwan A.K.H., Li L.J., Adding granite dust as paste replacement to improve durability and dimensional stability of mortar. Powder Technology, 15 June 2018, 333, pp 269-276. (SCI收录,光盘版,中科院2区,JCR Q1)

[22] Li L.G., Zhao Z.W., Zhu J.*, Kwan A.K.H., Zeng K.L., Combined effects of water film thickness and polypropylene fibre length on fresh properties of mortar. Construction and Building Materials, 20 June 2018, 174, pp 586-593. (SCI收录,中科院2区Top期刊,JCR Q1)

[23] Li L.G.*, Chu S.H., Zeng K.L., Zhu J., Kwan A.K.H., Roles of water film thickness and fibre factor in workability of polypropylene fibre reinforced mortar. Cement & Concrete Composites, October 2018, 93, pp 196-204. (SCI收录,中科院2区Top期刊,JCR Q1)

[24] Chu S.H., Li L.G., Kwan A.K.H.*, Fibre factors governing the fresh and hardened properties of steel FRC, Construction and Building Materials, 20 October 2018, 186, pp 1228-1238. (SCI收录,中科院2区Top期刊,JCR Q1)

[25] Li L.G.*, Wang Y.M., Tan Y.P., Kwan A.K.H., Filler technology of adding granite dust to reduce cement content and increase strength of mortar, Powder Technology, 15 January 2019, 342, pp 388-396. (SCI收录,光盘版,中科院2区,JCR Q1)

[26] Li L.G.*, Zhuo H.X., Zhu J., Kwan A.K.H., Packing density of mortar containing polypropylene, carbon or basalt fibres under dry and wet conditions, Powder Technology. 15 January 2019, 342, pp 433-440. (SCI收录,光盘版,中科院2区,JCR Q1)

[27] Li L.G.*, Huang Z.H., Tan Y.P., Kwan A.K.H., Chen H.Y., Recycling of marble dust as paste replacement for improving strength, microstructure and eco-friendliness of mortar, Journal of Cleaner Production. 10 February 2019, 210, pp 55-65. (SCI收录,中科院1区Top期刊,JCR Q1)

[28] Chen J.J.*, Ng P.L., Kwan A.K.H., Li L.G., Lowering cement content in mortar by adding superfine zeolite as cement replacement and optimizing mixture proportions, Journal of Cleaner Production. 10 February 2019, 210, pp 66-76. (SCI收录,中科院1区Top期刊,JCR Q1)

[29] Chen H.Y., Li L.G.*, Lai Z.M., Kwan A.K.H., Chen P.M., Ng P.L., Effects of crushed oyster shell on strength and durability of marine concrete containing fly ash and blastfurnace slag, Materials Science-Medziagotyra, March 2019, 25(1), pp 97-107. (SCI收录,中科院4区,JCR Q4)


 

 

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