职称:副教授(硕士生/博士后导师)
学位:博士
研究领域:
1)水泥基材料流变学与颗粒学
2)建筑3D打印技术
3)建筑材料机器学习与人工智能
4)固废资源化利用
5)高性能混凝土与功能混凝土
6)FRP增强结构与组合结构
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(结构工程方向)[085900]
办公室:广州大学大学城校区工程实验北楼3楼317室
E-mail:liguleo@gzhu.edu.cn;ligu123@qq.com
个人简历:
李古,香港大学博士,斯坦福“全球前2%顶尖科学家榜单”入选者,现任广州大学“百人计划青年杰出人才”副教授、硕士生/博士后导师,曾在广东工业大学和香港大学任职,目前主要从事混凝土材料与结构的教育教学、基础研究、技术开发与工程应用等工作。
主持/参与各类课题20余项(包括国家自然科学基金、广东省自然科学基金、广东省教育厅普通高校特色创新项目、广州市科技计划、香港研究资助局项目等)。发表学术论文160余篇,包括SCI论文60余篇(中国科学院一区论文24篇,ESI高被引4篇),论文Google Scholar引用超过2000次、h指数37。获授权专利20项,参编标准1项。获广东省“青年提升”、广州市“珠江科技新星”、广东省科技进步二等奖2项(排名分别第3、第5)、中国混凝土与水泥制品协会“混凝土科学技术奖”2项(排名分别第1、第6)、中国产学研合作促进会“产学研合作创新成果奖”(排名第4)、中国建筑材料联合会“预拌砂浆行业科技杰出贡献奖”(排名第2)、建筑材料工业技术情报研究所“建筑材料创新奖”2项(排名分别第4、第6)、广东省硅酸盐学会“青年科技奖”、香港工程师学会“青年工程师/学者最佳论文提名奖”等多个人才称号/奖项。担任国内外20余个权威组织机构的会士/委员/理事/专家/高级会员,包括:香港混凝土学会(HKCI)会士,RILEM技术分委会委员,FIB高级会员,美国混凝土学会(ACI)高级会员,亚洲混凝土联合会(ACF)高级会员,中国建筑学会分委会委员,中国大坝工程学会分委会委员,国家建筑工程技术研究中心分委会委员,中国力学学会工业流变学专业组成员,中国硅酸盐学会分会委员,中国绿色建材产业发展联盟委员,中国建材工业经济研究会专委会专家,大湾区教育融合发展智库特邀专家,广东省硅酸盐学会常务理事等;在16个期刊任编委/青年编委等职,包括《Advanced Fiber Materials》、《Buildings》、《Frontiers in Materials》、《Journal of Infrastructure Preservation and Resilience》、《Sustainable Structures》、《Green Energy and Resources》、《Journal of Intelligent Construction》、《Advanced Powder Materials》、《Journal of Road Engineering》、《Advances in Bridge Engineering》、《西南交通大学学报》、《硅酸盐通报》、《材料研究与应用》、《矿产保护与利用》、《市政技术》等,是国内外30余个权威期刊的杰出/特邀审稿人;也是数个国内外会议的组委会/学术委员会委员,并受邀在多个国内外会议作大会/特邀/分会报告和担任分会主席。
教育背景:
2005-2009,中山大学,理论与应用力学(力学2+2)专业,本科
2007-2009,香港大学,土木工程专业,本科,工学学士(香港大学与中山大学联合培养)
2009-2013,香港大学,土木工程专业,博士
职业经历:
2014-2021,广东工业大学,土木与交通工程学院,土木工程系,“青年百人”副教授/土木工程材料实验室建设主任/土木工程系主任
2014-2021,香港大学,工程学院,土木工程系,高级研究助理(Senior Research Assistant)/副研究员(Research Associate)
2021至今,广州大学,土木工程学院,工程材料所,“百人计划青年杰出人才”副教授
学术与社会兼职(节选):
会士,香港混凝土学会(HKCI)
委员, 国际材料与结构研究实验联合会(RILEM), 285-TMS和PFC技术委员会
高级会员, 国际结构混凝土联合会(FIB)
高级会员,美国混凝土学会(ACI)
高级会员, 亚洲混凝土联合会(ACF)
常务理事/专家,广东省硅酸盐学会
委员/专家, 中国绿色建材产业发展联盟, 固废资源化智库
委员, 国家建筑工程技术研究中心, 建筑工程与材料测试技术专家委员会
委员, 中国建筑学会, 新材料结构学术委员会
委员, 中国大坝工程学会,大坝混凝土与岩石断裂力学专业委员会
委员, 广东省土木建筑学会, 建筑材料专业委员会
委员/专家, 广州市建筑业联合会, 专家委员会
委员, 中国硅酸盐学会, 混凝土与水泥制品分会, 青年委员会
委员, 中国硅酸盐学会, 固废与生态材料分会, 青年工作委员会
委员, 广东省材料研究学会,青年工作委员会
会员单位代表人, 中国混凝土与水泥制品协会,教育与人力资源工作委员会理事单位/3D打印分会会员单位
成员单位负责人, 广东先进水泥基材料产业技术创新联盟
评议专家, 国家自然科学基金委员会
评审专家, 广东省基础与应用基础研究项目评审专家库
评审专家, 广东省高层次人才评审专家库
评审专家, 广州市科技项目专家库
评审专家, 佛山市科技金融协会专家库
评价委员会委员/专家, 广东省硅酸盐学会, 广东省无机材料(非金属)专业技术人员水平评价会
特邀评分专家, 泰晤士高等教育《世界大学排名》(Times Higher Education World University Rankings) 学术声誉调查
特邀评分专家, 科睿唯安《U.S. News 世界最佳大学排名》(U.S. News Best Global Universities Rankings) 学术声誉调查
· 编委, 国际期刊《Buildings》
· 编委/审稿编辑, 国际期刊《Frontiers in Materials》
· 青年编委, 国际期刊《Advanced Fiber Materials》
· 青年编委, 国际期刊《Journal of Infrastructure Preservation and Resilience》
· 青年编委, 国际期刊《Sustainable Structures》
· 青年编委, 国际期刊《Green Energy and Resources》
· 青年编委, 国际期刊《Advanced Powder Materials》
· 青年学术编辑, 国际期刊《Journal of Road Engineering》
· 青年编委/特刊客座编辑, 国际期刊《Journal of Intelligent Construction》
· 客座编辑, 国际期刊《Advances in Bridge Engineering》
· 编委, 国内期刊《新材料•新装饰》
· 青年编委, 国内期刊《西南交通大学学报》
· 青年编委, 国内期刊《硅酸盐通报》
· 青年编委, 国内期刊《材料研究与应用》
· 青年编委, 国内期刊《矿产保护与利用》
· 青年编委/优秀论文评审专家, 国内期刊《市政技术》
荣誉与称号:
1. 2014, 广东工业大学“青年百人”称号
2. 2015, “广东电网公司技术创新奖一等奖”、”茂名供电局创新奖一等奖”,获奖项目“导电砂浆在变电站静电和电磁防护方面的应用”,排名第2
3. 2016,第十六届全国现代结构工程学术研讨会学术委员会“中通钢构杯”中青年优秀论文奖, 获奖论文“聚丙烯纤维长度对新拌混凝土性能的影响”
4. 2017,广东省硅酸盐学会“青年科技奖”
5. 2019, 广州市科学技术局“广州市珠江科技新星”称号
6. 2019, 香港工程师学会The HKIE Outstanding Paper Award for Young Engineers/Researchers 2019 (Shortlist) (香港工程师学会青年工程师/学者最佳论文提名奖)
7. 2020, 中国混凝土与水泥制品协会“混凝土科学技术奖”, 排名第1
8. 2021, 中国建筑材料联合会预拌砂浆分会“预拌砂浆行业科技杰出贡献奖”, 排名第2
9. 2021, 入选斯坦福大学“全球前2%顶尖科学家榜单-2021年度科学影响力排行榜”, 在Building & Construction领域全球排名432位
10. 2021, 广州大学“百人计划青年杰出人才”称号
11. 2022, 广东省人民政府“广东省科技进步奖”二等奖,排名第3
12. 2022, 建筑材料工业技术情报研究所“建筑材料创新奖”,排名第4
13. 2023, 建筑材料工业技术情报研究所“建筑材料创新奖”,排名第6
14. 2021, 入选斯坦福大学“全球前2%顶尖科学家榜单-2023年度科学影响力排行榜”, 在Building & Construction领域全球排名431位
15. 2023, 《Journal of Intelligent Construction》编辑部“Special Contribution Award 2023”(2023特殊贡献奖)
16. 2023, 中国混凝土与水泥制品协会“混凝土科学技术奖(技术进步类)”,排名第6
17. 2024, 中国产学研合作促进会“产学研合作创新成果奖”, 排名第4
18. 2024, 广东省人民政府“广东省科技进步奖”二等奖,排名第5
科研项目:
纵向(节选)
1. 2015至2018, 广东省自然科学基金, “基于膜厚度理论下的砂浆流变性能关键因素研究”, 主持, 结题.
2. 2016至2018, 广州市科技计划项目, “基于膜厚度理论的自密实混凝土流变性能研究”, 主持, 结题.
3. 2017至2019, 国家自然科学基金, “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”,主持, 结题.
4. 2018至2019, 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”, 主持, 结题.
5. 2019至2021, 广州市科技计划项目, “纤维自密实混凝土流变性能关键因素研究”,主持, 结题.
6. 2021至2023, 广东省自然科学基金, “湿热海洋腐蚀环境下的纳米改性水泥基材料耐久性能研究”,主持, 结题.
7. 2023至2025, 广州市科技计划项目, “利用海洋地材的建筑3D打印材料性能研究”, 主持, 在研.
8. 2024至2026, 广东省基础与应用基础研究基金自然科学基金项目, “海水珊瑚骨料3D打印混凝土的性能影响机理研究”, 主持, 在研.
横向(节选)
1. 2014至2015, 广东电网公司创新项目, “导电砂浆在变电站静电和电磁防护方面的应用——材料配比及测试”, 主持,结题.
2. 2017至2018, 广州电力设计院科技项目, “轻质高强预制装配式电缆沟、井的研究和应用——技术服务”, 主持, 结题.
论文成果(节选):
[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, 中国科学院1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, 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, 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, 中国科学院1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, 中国科学院1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, pp514-521. (SCI收录, 中国科学院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,1July 2015, 85, pp 113-119. (SCI收录, 中国科学院1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, 中国科学院1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,中国科技期刊卓越行动计划入选期刊)
[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)
[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, 中国科学院1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, 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)
[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, 中国科学院1区Top期刊,JCR Q1)
[15] Li L.G.,Huang Z.H.,NgP.L.*,ZhuJ.,KwanA.K.H.,Effects ofmicro-silica andnano-silica onfreshproperties ofmortar.Materials Science-Medziagotyra, December 2017,23(4), pp 362-371. (SCI收录)
[16] 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,pp337-347. (SCI收录, 中国科学院1区Top期刊,JCR Q1)
[17] 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,pp757-777. (SCI收录,中国科学院1区Top期刊,JCR Q1)
[18] 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 March2018,166, pp423-432. (SCI收录,中国科学院1区Top期刊,JCR Q1)
[19] 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 April2018, 328, pp 75-83. (SCI收录, 中国科学院2区,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 April2018, 168,pp622-632. (SCI收录,中国科学院1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,中国科学院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 June2018,174, pp586-593. (SCI收录,中国科学院1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,October2018, 93, pp 196-204. (SCI收录,中国科学院1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,中国科学院1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,pp388-396. (SCI收录,中国科学院2区,JCR Q1)
[26] Li L.G.*, Zhuo H.X., Zhu J., Kwan A.K.H., Packing density of mortar containingpolypropylene, carbon or basalt fibres underdry andwetconditions.Powder Technology. 15 January 2019, 342,pp433-440. (SCI收录,中国科学院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, pp55-65. (SCI收录,ESI高被引论文,中国科学院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,中国科学院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 ofcrushedoystershell onstrength anddurability ofmarineconcrete containingflyash andblastfurnaceslag.Materials Science-Medziagotyra, March2019, 25(1), pp 97-107. (SCI收录)
[30] Li L.G., Lin Z.H., Chen G.M.*, Kwan A.K.H., Li Z.H.,Reutilization ofclaybrickwaste inmortar: Pastereplacement versuscementreplacement.Journal of Materials in Civil Engineering, 1 July 2019,31(7),Article04019129.(SCI收录,JCR Q2)
[31] Li L.G.*,Zhuo Z.Y.,Zhu J.,Chen J.J.,Kwan A.K.H.,Reutilizing ceramic polishing waste as powder filler in mortar to reduce cement content by 33% and increase strength by 85%.Powder Technology, October 2019,355, pp119-126.(SCI收录, 中国科学院2区,JCR Q1)
[32] Li L.G.*, Zheng J.Y., Ng P.L., Zhu J.*, Kwan A.K.H., Cementing efficiencies and synergistic roles of silica fume and nano-silica in sulphate and chloride resistance of concrete.Construction and Building Materials, 30 October 2019,223, pp.965-975.(SCI收录,中国科学院1区Top期刊,JCR Q1)
[33] Li L.G.*, Chen Z.P., Ouyang Y., Zhu J., Chu S.H., Kwan A.K.H., Synergistic effects of steel fibres and expansive agent on steel bar-concrete bond. Cement & Concrete Composites, November 2019, 104, Article 103380. (SCI收录,中国科学院1区Top期刊, JCR Q1)
[34] Li L.G., Zeng K.L., Ouyang Y.*, Kwan A.K.H., Basalt fibre-reinforcedmortar:Rheology modelling based onwater film thickness and fibre content.Construction and Building Materials,30 December 2019, 229, Article 116857. (SCI收录,中国科学院1区Top期刊,JCR Q1)
[35] Li L.G.*, Chen X.Q., Chu S.H., Ouyang Y.,Kwan A.K.H.,Seawater cement paste: Effects of seawater and roles of water film thickness and superplasticizer dosage.Construction and Building Materials,30 December 2019, 229, Article 116862. (SCI收录,中国科学院1区Top期刊,JCR Q1)
[36] Li L.G.*,Zhuo Z.Y., Zhu J., Kwan A.K.H.,Adding ceramic polishing waste as paste substitute to improve sulphate and shrinkage resistances of mortar.Powder Technology, 15 February 2020, 362, pp 149-156. (SCI收录,中国科学院2区,JCR Q1)
[37] Ouyang Y., Zeng J.J.*,Li, L.G., Kwan A.K.H., Influence of concrete mix proportions on axial performance of concrete-filled steel tubes made with self-compacting concrete.Advances in Structural Engineering,April 2020.23(5), pp 835-846. (SCI收录)
[38] Li L.G.*,Zhuo Z.Y., Kwan A.K.H., Zhang T.S., Lu D.G.,Cementing efficiency factors of ceramic polishing residue in compressive strength and chloride resistance of mortar.Powder Technology,1 May 2020, 367,pp163-171.(SCI收录,中国科学院2区,JCR Q1)
[39] Chen J.J.,*, Li Q.H., Ng P.L.*,Li L.G., Kwan A.K.H.,Cementequivalence ofmetakaolin forworkability, cohesiveness,strength andsorptivity ofconcrete.Materials, 2 April 2020, 13(7), Article 1646. (SCI收录,JCR Q2)
[40] Li L.G., Lin Z.H., Chen G.M.*, Kwan A.K.H.,Reutilizing clay brick dust as paste substitution to produce environment-friendly durable mortar.Journal of Cleaner Production,20 November 2020,274,Article122787.(SCI收录,中国科学院1区Top期刊,JCR Q1)
[41] Cai Y., Kwan A.K.H.*, Li L.G.,Circular concrete filled steel tubes made of eco-concrete with limestone fines added as cementitious paste replacement.Structures,December 2020, 28,pp69-79.(SCI收录,JCR Q2)
[42] Li L.G.*,Zheng J.Y., Ng P.L.*, Kwan A.K.H.,Synergistic cementing efficiencies of nano-silica and micro-silica in carbonation resistance and sorptivity of concrete.Journal of Building Engineering, January 2021, 33, Article 101862.(SCI收录,ESI高被引论文,JCR Q1)
[43] Li L.G.*, Feng J.J., Zhu J., Chu S.H., Kwan A.K.H.,Pervious concrete: Effects of porosity on permeability and strength.Magazine of Concrete Research, January 2021, 73(2), pp 69-79.(SCI收录,ESI高被引论文,JCR Q2)
[44] Chu S.H.*, Li L.G., Kwan A.K.H.,Development of extrudable high strength fiber reinforced concrete incorporating nano calcium carbonate,Additive Manufacturing, 21January 2021, 37,Article 101617. (SCI收录,ESI高被引论文,中国科学院1区Top期刊,JCR Q1)
[45] Li L.G.*, Xiao B.F., Fang Z.Q., Xiong Z.*, Chu S.H., Kwan A.K.H.,Feasibility of glass/basalt fiber reinforced seawater coral sand mortar for 3D printing.Additive Manufacturing, 21January 2021, 37,Article 101684.(SCI收录, 中国科学院1区Top期刊,JCR Q1)
[46] Chu S.H.*, Ye H., Huang L., Li L.G.,Carbon fiber reinforced geopolymer (FRG) mix design based on liquid film thickness,Construction and Building Materials,1 February 2021, 269, Article121278 (SCI收录, 中国科学院1区Top期刊,JCR Q1)
[47] Xiong Z.*, Zeng Y.,Li L.G., Kwan A.K.H., He, S.H.,Experimental study on the effects of glass fibres and expansive agent on the bond behaviour of glass/basalt FRP bars in seawater sea-sand concrete.Construction and Building Materials, 8 March 2021, 274, Article 122100. (SCI收录, 中国科学院1区Top期刊,JCR Q1)
[48] Chen G.M., Lin Z.H., Li L.G.*, He J.L., Kwan A.K.H., Compressivebehaviour of concreteincorporating claybrick fines added by paste replacement method.Journal of Materials in Civil Engineering, July 2021, 33(7),Article 04021141.(SCI收录,中国科学院4区,JCR Q2)
[49] Chu S.H.*, Chen J.J., Li L.G., Ng P.L., Kwan A.K.H.,Roles of packing density and slurry film thickness in synergistic effects of metakaolin and silica fume.Powder Technology,July 2021, 387, pp575-583.(SCI收录,中国科学院2区,JCR Q1)
[50] Xiong Z.*, He S.H., Kwan A.K.H., Li L.G., Zeng Y.,Compressive behaviour of seawater sea-sand concrete containing glass fibres and expansive agents.Construction and Building Materials, 19 July 2021, 292,Article 123309.(SCI收录, 中国科学院1区Top期刊,JCR Q1)
[51] Li L.G., Ouyang Y., Ng P.L.*, Zeng K.L., Kwan A.K.H.,Influences of fiber length and water film thickness on fresh properties of basalt fiber-reinforced mortar (纤维长度与水膜厚度对玄武岩纤维增强砂浆新拌性能的影响研究).Journal of Zhejiang University-Science A, 2021, 22(5), pp 344-356. (SCI收录, 中国科技期刊卓越行动计划入选期刊)
[52] Li L.G.*, Feng J.J., Lu Z.C., Xie H.Z., Xiao B.F., Kwan A.K.H., Jiao C.J., Effects of aggregate bulking and film thicknesses on water permeability and strength of pervious concrete. Powder Technology, January 2022, 396, pp 743-753. (SCI收录, ESI高被引论文, 光盘版, 中科院2区Top期刊, JCR Q1)
[53] Luo T.*, Yi Y., Sun Q.*, Li L.G., Tang L., Hua C. The effects of adding molybdenum tailings as cementitious paste replacement on the fluidity, mechanical properties and micro-structure of concrete. Journal of Building Engineering, 7 October 2022, 62, Article 105377. (SCI收录, 中科院2区, JCR Q1)
[54] Xie H.Z., Li L.G.*, Liu F., Kwan A.K.H. Recycling Old Concrete as Waste Concrete Powder for Use in Pervious Concrete: Effects on Permeability, Strength and Eco-Friendliness. Buildings, 8 December 2022, 12(12), Article 2172. (SCI收录, 中科院3区, JCR Q2)
[55] Li L.G., Ng P.L.*, Zeng K.L., Xie H.Z., Cheng C.M., Kwan A.K.H. Experimental Study and Modelling of Fresh Behaviours of Basalt Fibre-Reinforced Mortar Based on Average Water Film Thickness and Fibre Factor. Materials, 7 March 2023, 16(6), Article 2137. (SCI收录, 中科院3区, JCR Q2)
[56] Xie H.Z.*, Li L.G.*, Ng P.L., Liu F., Effects of Solid Waste Reutilization on Performance of Pervious Concrete: A Review. Sustainability, 1 April 2023, 15(7), Article 6105. (SCI收录, 中科院3区, JCR Q2)
[57] Li L.G.*, Xiao B.F., Cheng C.M.*, Xie H.Z., Kwan A.K.H., Adding Glass Fibers to 3D Printable Mortar: Effects on Printability and Material Anisotropy. Buildings, September 2023, 13(9), Article 2295. (SCI收录, 中科院3区, JCR Q2)
[58] Li L.G.*, Lai Q., Zeng G.X., Li Y.J., Xie H.Z., Kwan A.K.H., Combined effects of micro and nano Fe3O4 on workability, strength, packing, microstructure and EM wave absorbing properties of mortar. Construction and Building Materials, 24 November 2023, 406, 133407. (SCI收录, 中科院1区Top期刊, JCR Q1)
[59] Li L.G.*, Lu Z.C., Ng P.L., Chen Z.P., Deng X., Reusing Waste Concrete Recycled Powder in Mortar: Paste Substitution versus Cement Substitution. Journal of Materials in Civil Engineering, 23 February 2024, 36(5): 04024073. (SCI收录, 中科院3区, JCR Q2)
[60] Li L.G.*, Chen S.Y., Ma J., Ng P.L.*, Synergistic effects of single-walled carbon nanotube and carbon fiber on performance of conductive mortar. Journal of Building Engineering, 1 September 2024, 92, Article 109784. (SCI收录, 中科院2区, JCR Q1)
[61] Li L.G.*, Xiao B.F., Yu J., Fresh behaviours of glass fibre reinforced mortar: experimental study and modeling based on average water film thickness and fibre/cement ratio. Advances in Cement Research, 27 May 2024, (Ahead of Print) (SCI收录, 中科院4区, JCR Q3)
[62] Li L.G.*, Zhang G.H., Feasibility of underwater 3D printing: Effects of anti-washout admixtures on printability and strength of mortar. Journal of Building Engineering, 1 November 2024, 96, 110434. (SCI收录, 中科院2区, JCR Q1)