湖南大学土木工程学院导师：林忠财 正文

[导师姓名]
林忠财

[所属院校]
湖南大学

[基本信息]
导师姓名：林忠财
性别：男
人气指数：5163
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

[通讯方式]
电子邮件：tcling@hnu.edu.cn
通讯地址：湖南大学，土木工程学院南楼A305办公室

[个人简述]
林忠财，男，1980年12月生，博士，教授。2016年4月当选香港混凝土学会会士（Fellow)。2012年获得英国伯明翰大学土木工程学院的讲师职位，任职将近两年。曾在香港理工大学担任两年半的博士后研究员、短期访问学者及研究员(Research Fellow)。致力于发展创新的科学材料和工程技术，专注于可持续发展和环境友好型的混凝土产品上。林忠财博士曾经担任美国联邦公路管理局的NRC Senior Research Associate以及香港纳米及先进材料研发院的项目主管，在绿色建筑材料和固体废弃物处置及利用方面开展了广泛深入的理论和应用研究，取得了一些在国际上广为认可的研究成果，其中有些研究成果已经被香港政府和企业所采用，产生了显著的社会和经济效益。主持7项科研项目共1,000万元人民币，参与完成5项研究项目。已发表SCI论文50（其中第一作者25篇）、国际期刊论文8篇和国际会议论文18篇, SCI引用714次，H-指数=18，累计影响因子达177。多个国际学术组织会员或理事会成员，已为十多个国际著名刊物审稿人。2次被聘为伯明翰大学博士学位答辩委员会成员，已先后多次被国内大学邀请作专题讲座。

[科研工作]
工作履历：Jun 2015 - Jan 2016United States National Academies(NRC)Senior Research AssociateFederal Highway Administration, USA (美国联邦公路管理局)Jun 2014 – May 2015Project Leader (项目主管)Nano and Advanced Materials Institute Limited, HK (香港纳米及先进材料研发院)Jan 2014 – June 2014Research Fellow (研究员)PolyU Technology & Consultancy Company Limited (香港理大科技及顧問有限公司)March 2012 – Dec 2013 Lecturer (大学讲师-终身职位)University of Birmingham, UK (英国伯明翰大学)June 2009 – Feb 2012 Postdoctoral Fellow (博士后研究员)The Hong Kong Polytechnic University, HK (香港理工大学)
PATENT (专利)：1. Rubberized Concrete Paving Blocks. Inventor: Hasanan Md Nor and Ling Tung Chai. Patent Number: MY-143982-A (Date of Grant: 29.07.2011) 2. Highway Accelerated Loading Instrument. Inventor: Hasanan Md Nor and Ling Tung Chai. Application Number: PI 2008 4370 (Date of Filling: 03.11.2008) 3. Multi-Layer Fabric Reinforced Cementitious Matrix and Application Method Thereof. LI Bo, LING Tung Chai, CHEN BM, Wan KT, LAM YK, SHAM MK, US Patent Application Number 6167 (Date of Filling: 10.12.2015)
Journal Papers – SCI(E) (SCI论文)1) Ling, T.C.*, Qu, L.*, Yang, J., Guo, L. Mo, K.H. (2018). Autoclaved lime-saline soil products: Reactivity assessments and effects of quartz sand. ASCE Journal of Materials in Civil Engineering, In press DOI 10.1061/(ASCE)MT.1943-5533.0002243. . 2) Shi, C.J.*, Wu, Z.M.*, Cao, Z.J., Ling, T.-C., Zheng, J.L. (2018). Performance of mortar prepared with recycled concrete aggregate enhanced by CO2 and pozzolan slurry. Cement and Concrete Composites, 86: 130-138.3) Ling, T.C., Kaliyavaradhan, S.K., Poon, C.S.* (2018). Global perspective on application of controlled low-strength material (CLSM) for trench backfilling - An overview. Construction and Building Materials, 158: 535-548. 4) Yao, Z.*, Ling, T.-C., Sarker, P.K., Su, W., Liu, J., Wu, W.* (2018). Recycling difficult-to-treat e-waste cathode-ray-tube glass as construction and building materials: A critical review. Renewable and Sustainable Energy Reviews, 81: 595-604.5) Guo, M.-Z., Ling, T.-C., Poon, C.S.* (2017). Photocatalytic NOx degradation of concrete surface layers intermixed and spray-coated with nano-TiO2: Influence of experimental factors. Cement and Concrete Composites, 83: 279-289.6) Lim, S. K., Tan C. S., Li, B.*, Ling, T.-C.*, Hossain, M. H., Poon, C. S. (2017). Utilizing high volumes quarry wastes in the production of lightweight foamed concrete. Construction and Building Materials, 151: 441-448. 7）Ling, T.C., Poon, C.S.* (2017) Spent fluorescent lamp glass as a substitute for fine aggregate in cement mortar. Journal of Cleaner Production, 161: 646-654.8) Kaliyavaradhan, S.K., Ling, T.C.* (2017). Potential of CO2 sequestration through construction and demolition (C&D) waste – An overview. Journal of CO2 Utilization, 20: 234-242. 9) Ling, T.C., Mo, K.H.*, Qu, L.*, Yang, J., Guo, L. (2017) Mechanical strength and durability performance of autoclaved lime-saline soil bricks. Construction and Building Materials, 146: 403-409. 10) Ong, S.K., Mo, K.H.*, Alengaram, U.J., Jumaat, M.Z., Ling, T.C. (2017) Valorization of wastes from power plant, steel-making and palm oil industries as partial sand substitute in concrete. Waste and Biomass Valorization, In Press DOI 10.1007/s12649-017-9937-6.11) Chen, B., Li, B.*, Gao, Y., Ling, T.-C., Lu, Z., Li, Z. (2017) Investigation on electrically conductive aggregates produced by incorporating carbon fiber and carbon black. Construction and Building Materials, 144: 106-114. 12) Mo, K.H.*, Ling, T.-C., Alengaram, U.J., Yap, S.P., Yuen, C.W. (2017) Overview of supplementary cementitious materials usage in lightweight aggregate concrete. Construction and Building Materials, 139: 403-418. 13) Pan, X.Y., Shi, Z.G., Shi, C.J.*, Ling, T.-C., Li, N. (2017) A review on concrete surface treatment Part I: Types and mechanisms. Construction and Building Materials, 132: 578-590. 14) Pan, X.Y., Shi, Z.G., Shi, C.J.*, Ling, T.-C., Li, N. (2017) A review on surface treatment for concrete – Part 2: Performance. Construction and Building Materials, 133: 81-90.15) Li, B., Ling, T.-C.*, Qu, L.*, Wang Y. (2016) Effects of a two-step heating process on the properties of lightweight aggregate prepared with sewage sludge and saline clay. Construction and Building Materials, 114: 119-126. 16) Ling, T.-C.*, Kou, S.-C., Poon, C.-S.* (2016) Precast architectural tiles produced by double-layer casting method. Cement and Concrete Composites, 66:73-81. 17) Guo, M.-Z., Chen, Z., Ling, T.-C., Poon, C.-S.* (2015) Effects of recycled glass on properties of architectural mortar before and after exposure to elevated temperatures. Journal of Cleaner Production, 101:158-164. 18) Zhao, X., Lim, S.-K., Tan, C.-S., Li, B., Ling, T.-C.*, Huang, R., Wang, Q. (2015) Properties of foamed mortar prepared with granulated blast-furnace slag. Materials, 8(2):462-473.19) Lim, S. K., Tan C. S.*, Zhao, X., Ling, T.-C. (2015) Strength and toughness of lightweight foamed concrete with different sand grading. KSCE Journal of Civil Engineering, 19(17):2191-2197. 20) Su, H., Yang, J.*, Ling, T.-C., Ghataora, G. S., Dirar, S. (2015) Properties of concrete prepared with waste tyre rubber particles of uniform and varying sizes. Journal of Cleaner Production, 91:288-296. 21) Ling, T.-C.*, Poon, C.-S.* (2014) Feasible use of large volumes of GGBS in 100% recycled glass architectural mortar. Cement and Concrete Composites, 53:350-356. 22) Ling, T.-C.*, Poon, C.-S.* (2014) Use of recycled CRT funnel glass as fine aggregate in dry-mixed concrete paving blocks. Journal of Cleaner Production, 68: 209-215. 23) Ling, T.-C.*, Poon, C.-S* (2014). Use of CRT funnel glass in concrete blocks prepared with different aggregate-to-cement ratios. Proceedings of the ICE-Green Materials, 2(1): 43-51. 24) Ling, T.-C., Poon, C.-S.* (2014) High temperatures properties of barite concrete with CRT funnel glass. Fire and Materials, 38(2): 279-289.25) Xiao, Z, Ling, T.-C., Poon, C.-S.*, Kou, S.-C., Wang, Q, Huang, R. (2013) Properties of partition wall blocks prepared with high percentages of recycled clay brick after exposure to elevated temperatures. Construction and Building Materials, 49:56-61. 26) Ling, T.-C., Poon, C.-S.*, Lam, W.-S., Chan, T.-P., Fung, K.-L. (2013) X-ray radiation-shielding properties of cement mortar prepared with different types of aggregate. Materials and Structures, 46(7): 1133-1141. 27) Ling, T.-C., Poon, C.-S.* (2013). Use of phase change materials for thermal heat storage in concrete- an overview. Construction and Building Materials, 46: 55-62. 28) Zhao, H.*, Poon, C.S., Ling, T.C. (2013) Utilizing recycled cathode ray tube funnel glass sand as river sand replacement in the high-density concrete. Journal of Cleaner Production, 51: 184-190. 29) Ling, T.-C., Poon, C.-S.* (2013) Stress-strain behaviour of fire exposed self-compacting glass concrete. Fire and Materials, 37(4): 297-310.30) Gou, M.-Z., Ling, T.-C., Poon, C.-S.* (2013) Nano-TiO2-based architectural mortar for NO removal and bacteria inactivation: Influence of coating and weathering conditions. Cement and Concrete Composites, 36: 101-108. 31) Ling, T.-C., Poon, C.-S.* (2013) Effects of particle size of treated CRT funnel glass on properties of cement mortar. Materials and Structures, 46(1-2): 25-34.32) Ling, T.-C., Poon, C.-S.* Wong, H.-K. (2013) Management and recycling of waste glass in concrete products: Current situations in Hong Kong. Resources, Conservation and Recycling, 70: 25-31. 33) Hui, Z.*, Poon, C.S., Ling, T.C. (2013) Properties of mortar prepared with recycled cathode ray tube funnel glass sand at different mineral admixture. Construction and Building Materials, 40: 951-960.34) Lee, G., Poon, C.-S.*, Wong, Y.-L., Ling, T.-C. (2013) Effects of recycled fine glass aggregates on the properties of dry-mixed concrete blocks. Construction and Building Materials, 38: 638-643.35) Ling, T.-C., Poon, C.-S.* (2012) Development of a method for recycling of CRT funnel glass. Environmental Technology, 33(22): 2531-2537. (Special Issue: Advance Treatment Technologies for Waste Recycling: Selected papers) 36) Ling, T.-C., Poon, C.-S.* (2012) Feasible use of recycled CRT funnel glass as heavyweight fine aggregate in barite concrete. Journal of Cleaner Production, 33:42-49. 37) Ling, T.-C., Poon, C.-S.* (2012) A comparative study on the feasible use of recycled beverage and CRT funnel glass as fine aggregate in cement mortar. Journal of Cleaner Production, 29-30:46-52. 38) Gou, M.-Z., Ling, T.-C., Poon, C.-S.* (2012) TiO2-based self-compacting glass mortar: Comparison of photocatalytic nitrogen oxide removal and bacteria inactivation. Building and Environment, 53:1-6. 39) Ling, T.-C., Poon, C.-S.*, Kou, S.-C. (2012) Influence of recycled glass content and curing conditions on the properties of self-compacting concrete after exposure to elevated temperatures. Cement and Concrete Composites, 34(2): 265-272. 40) Ling, T.-C., Poon, C.-S.*, Lam, W.-S., Chan, T.-P., Fung, K.K.-L. (2012) Utilization of recycled cathode ray tubes glass in cement mortar for X-ray radiation-shielding applications. Journal of Hazardous Materials, 199-200: 321-327. 41) Ling, T.-C.* (2012) Effects of compaction method and rubber content on the properties of concrete paving blocks. Construction and Building Materials, 28(1): 164-175. 42) Ling, T.-C., Poon, C.-S.*, Kou, S.-C. (2011) Feasibility of using recycled glass in architectural cement mortars. Cement and Concrete Composites, 33 (8): 848-854. 43) Ling, T.-C., Poon, C.-S.* (2011) Utilization of recycled glass derived from cathode ray tube glass as fine aggregate in cement mortar. Journal of Hazardous Materials, 192 (2): 451-456. 44) Ling, T.-C.* (2011) Prediction of density and compressive strength for rubberized concrete blocks. Construction and Building Materials, 25 (11): 4303-4306. 45) Xiao, Z., Ling, T.-C., Kou, S.-C., Wang, Q.-Y., Poon, C.-S.* (2011) Use of wastes derived from earthquakes for the production of concrete masonry partition wall blocks. Waste Management, 31(8): 1859-1866. 46) Lim, S.K.*, Ling, T.C., Hussin, M.W. (2011) Ground-granulated blast-furnace slag as potential filler in polyester grout: compressive strength development. ACI Materials Journals, 108 (2): 120-127. 47) Ling, T.-C., Poon, C.-S.* (2011) Properties of architectural mortar prepared with recycled glass with different particle sizes. Materials and Design, 32 (5): 2675-2684. 48) Lee, G., Ling, T.-C., Wong, Y.-L., Poon, C.-S.* (2011) Effects of crushed glass cullet sizes, casting methods and pozzolanic materials on ASR of concrete blocks. Construction and Building Materials, 25 (5): 2611-2618. 49) Ling, T.-C.*, Nor, H.M., Hainin, M.R., Chik, A.A. (2009) Laboratory performance of crumb rubber concrete block pavement. International Journal of Pavement Engineering, 10 (5): 361-374. 50) Ling, T.-C., Nor, H.M., Hainin, M.R.* (2009) Properties of crumb rubber concrete paving blocks with SBR latex. Road Materials and Pavement Design, 10 (1): 213-222. 51) Lim, S.K.*, Hussin, M.W., Zakaria, F., Ling, T.C. (2009) GGBFS as potential filler in polyester grout: Flexural strength and toughness. Construction and Building Materials, 23 (5): 2007-2015. Refereed International Journal Papers (国际期刊论文)52) Lim, S.K., Ling, T.C.*, Hussin, M.W. (2012) Strength properties of self-compacting mortar mixed with GGBFS. Proceedings of the ICE-Construction Materials, 165(2):87-98. 53) Ling, T.-C.* (2012) Feasible use of crumb rubber in concrete paving blocks in a plant production setting. Magazine of Concrete Plant International, 5:88-93. 54) Poon, C.S.*, Ling, T.C.B. (2010) Use of recycled glass in architectural mortar. Wuhan Ligong Daxue Xuebao/Journal of Wuhan University of Technology, 32 (17): 231-235.55) Ling, T.C.*, Nor, H.M., Lim, S.K. (2010) Using recycled tyres in concrete paving blocks. Proceedings of the ICE- Waste and Resources Management, 163 (1): 37-45. 56) Ling, T.-C.*, Nor, H.M., Hainin, M.R., Lim, S.-K. (2010) Long term strength of rubberised concrete paving blocks. Proceedings of the ICE- Construction Materials, 163 (1): 19-26. 57) Ling, T.-C.*, Nor, H.M., Chow, M.-F. (2008) Permanent deformation of concrete block pavements under highway accelerated loading instrument. Road Engineering Association of Asia and Australia (REAAA) Journal, 15 (1-2): 59-65. 58) Puan, O.C., Mustaffar, M., Ling, T.-C.* (2007) Automated pavement imaging program (APIP) for pavement cracks classification and quantification. Malaysia Journal of Civil Engineering, 19 (1): 1-16. 59) Mudiyono, R., Nor, H.M., Hainin, M.R., Ling, T.-C.* (2007) Performance of concrete paving blocks pavement on sloped road section. International Journal of Pavement, 6 (1-2-3): 136-145.Conference Papers (会议论文)1) Senthil Kumar Kaliyavaradhan, Tung-Chai Ling. Challenges and potential applications of powder waste derived from cement based materials – A Review. The 9th International Symposium on Cement and Concrete (ISCC2017), 1-3 November 2017, Wuhan, China.2) Sarra DRISSI, Tung-Chai Ling, Anissa EDDHAHAK, Sabine CARé, Jamel NEJI. Damage Effect of Microencapsulated Phase Change Material (MPCM) Capsules on the Properties of Concrete. The 9th International Symposium on Cement and Concrete (ISCC2017), 1-3 November 2017, Wuhan, China.3) Ling, T.-C. Liu, Y, Senthil Kumar K. Feasible use of recycled concrete aggregates in self-compacting concrete – A review. International Conference on Advances in Construction Materials and Systems (ICACMS-2017)- 71st RILEM Annual Week, 3-8 September 2017, The Leela Palace Hotel, Chennai, India. (RILEM Proceedings PRO 118, Vol. 2, pp.137-145)4) Poon, C.-S., Ling, T.-C. Self-compacting glass mortar: Their value-added properties and potential applications. Third International Symposium on Design, Performance, and Use of Self-Consolidating Concrete SCC’2014, 5-8 June 2014, Xiamen, China (Keynote Paper). 5) Poon, C.-S., Ling, T.-C. Recycling of waste cathode ray tubes glass in Hong Kong. World Congress of International Solid Waste Association ISWA, 17-20 October 2011, Daegu, Korea. 6) Ling, T.-C., Poon, C.-S. Recycling of glass derived from cathode ray tubes as fine aggregates in cement mortar. International Conference on Solid Waste. Moving Towards Sustainable Resources Management, 2-6 May 2011, Hong Kong.7) Poon, C.-S., Ling, T.-C. The study in the area of recycling of waste glass in Hong Kong. The 7th Experts Meeting, The Society of Solid Waste Management Experts in Asia and Pacific Island (SWAPI), 15-17 September 2010, Taipei, Taiwan. 8) Ling, T.-C., Poon, C.-S. Recycled glass in architectural mortar. The 1st International Conference on Sustainable Construction Materials: Design, Performance and Application. 10th-12th August 2010. Wuhan, China. 9) Mustaffar, M., Ling, T.-C., Puan, O.C. Automatic pavement imaging program (APIP) for pavement cracks and classification and quantification: A photogrammetric approach. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. XXXVII. Part B4. Beijing 2008 XXI Congress, Society of Photogrammetry and Remote Sensing, 3-11 July 2008. Beijing, China.10) Ling, T.-C., Nor, H.M. Effect of curing conditions on the compressive strength of crumb rubber concrete paving blocks. World Engineering Congress 2007. 5th –9th August 2007. Pulau Penang, Malaysia. 11）Ling, T.-C., Nor, H.M., Chow, M.-F. Highway accelerated loading instrument (HALI) testing of permanent deformation in concrete block pavement 7th Malaysia Road Conference 2007. 17th – 19th July 2007. Kuala Lumpur, Malaysia. (Best Paper Award) 12) Ling, T.-C., Nor, H.M. Properties of crumb rubber concrete paving blocks with and without facing layer. Persidangan Kebangsaan AWAM’07. 29th – 31st May 2007. Pulau Langkawi, Malaysia.13) Ling, T.-C., Nor, H.M. Plant trail production process and monitoring of crumb rubber concrete paver. National Seminar on Civil Engineering Research (SEPKA). 19th – 20th December 2006. Universiti Teknologi Malayisa, Skudai, Malaysia.14) Ling, T.-C., Nor, H.M., Hainin, M.R., Chow, M.-F. Highway accelerated loading instrument (HALI) for concrete block pavement. National Seminar on Civil Engineering Research (SEPKA). 19th – 20th December 2006. Universiti Teknologi Malayisa, Skudai, Malaysia.15) Ling, T.-C., Nor, H.M. Granulated waste tyres in concrete paving block. Asia-Pacific Structural Engineering and Construction Conference (APSEC 2006). 5th–6th September 2006. Kuala Lumpur, Malaysia.16) Ling, T.-C., Nor, H.M., Mudiyono, R. The effect of cement and water cement ratio on concrete paving block. 1st Regional Postgraduate Conference on Engineering and Science (RPCES). 26th – 27th July 2006. Universiti Teknologi Malayisa, Skudai, Malaysia.17) Mudiyono, R., Nor, H.M., Ling, T.-C. The effect of joint width between blocks in concrete block pavement. 1st Regional Postgraduate Conference on Engineering and Science (RPCES). 26th – 27th July 2006. Universiti Teknologi Malayisa, Skudai, Malaysia.18) Mustaffar, M., Puan, O.C., Ling, T.-C. Application of digital photogrammetry to quantification of road surface distresses. 6th Malaysia Road Conference. 16th – 18th August 2004. Kuala Lumpur, Malaysia.Technical Report (科研项目报告)1) Hasanan Md. Nor, Abd. Aziz Abd. Muti, and Othman Che Puan, Abdul Aziz Chik, Che Ros Ismail, Tung-Chai Ling and Rachmat Mudiyono (2008). Development of New Technologies of Interlocking Concrete Block Pavements (ICBP). Project Report. Faculty of Civil Engineering, Skudai, Johor. (Unpublished)

[教育背景]
2008 Ph.D(Civil Engineering), Universiti Teknologi Malaysia, Skudai, Malaysia.
博士（土木工程）马来西亚理工大学 论文题目:橡胶混凝土铺路砖的工程性质和结构性能；
2005 M.Eng. (Highway & Traffic), Universiti Teknologi Malaysia, Skudai, Malaysia.
工程硕士（公路及交通工程) 马来西亚理工大学 论文题目:使用近距数码摄影测量和图像处理技术来评估路面裂缝和蜕变；
2003 B.Eng.(Civil), Universiti Teknologi Malaysia, Skudai, Malaysia.
学士（土木工程）马来西亚理工大学 论文题目:使用近距数碼摄影测量來估计岩石的表面粗糙度 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

湖南大学

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