Information of Supervisors for International Students
Name | Kai LIU | ||
Title/Position | Professor | Highest Education Qualification | Doctor |
Phone | 15155170190 | liukai@hfut.edu.cn | |
Office | School of Automobile and Transportation Engineering | ||
Opening Position | Master Doctor Post-doc | ||
Education/ Academic Background | BA:Sept.2000-July.2004. School of Transportation,Wuhan University ofTechnology. MA:Sept.2004-May.2007. School of Civil Engineering and Construction,Chongqing Jiaotong University. PH.D:Sep.2007-June.2010. HighwaySchool,Chang’an University. Post-Doc:Dec.2010-June.2013. College of Civil Engineering.Hefei University ofTechnology. Visiting Scholar:Sept.2016-Sept.2017. Michigan Technological University. | ||
Working Experience | July.2010-Aug.2016. Lecturer.School of Transportation Engineering, HefeiUniversity of Technology. Aug.2016-Dec.2020. Associate Professor.School of Automotive and Transportation Engineering,Hefei University of Technology. Dec.2020 up to now.Professor. School of Automotive and TransportationEngineering, Hefei University of Technology. | ||
Research Field | Key technologies of intelligent road traffic infrastructure design and vehicle road coordination (self-healing, pit self repair, thermal milling, thermal regeneration, dynamic wireless charging); Development and application of intelligent perception, detection, operation and maintenance equipment (vehicle); New technologies and materials for transportation infrastructure maintenance; | ||
Representative Research Output | Ⅰ、Paper Publications:Overview:I have published more than 80 papers, of which more than 30 are the first author or corresponding author indexed by SCI, 2 of which is an ESI highly cited paper, 20 of which are classified in JCR Q1.[1]Kai Liu, Chaoliang Fu, Peixin Xu, et al. An eco-friendliness inductiveasphalt mixture comprising waste steel shavings and waste ferrites. Journal of Cleaner Production. DOI:10.1016/j.jclepro.2020.124639.(IF=9.297) TOP,ESI Highly Cited Paper. [4]Kai Liu, Chaoliang Fu, Hao Wang, et al. Exploring the energy-savingpotential of electromagnetic induction pavement via magnetic concentrating technique. Energy. DOI: 10.1016/j.energy.2020.118650.(IF=7.147)TOP. [6]Kai Liu, Dongling Dai, Chaoliang Fu, et al. Induction heating of asphalt mixtures with waste steel shavings. Construction and Building Materials. DOI: 10.1016/j.conbuildmat.2019.117368. (IF=6.141)TOP [7]Kai Liu, Lin Lu, Fang Wang, et al. Theoretical and experimental study on multi-phase model of thermal conductivity for fiber reinforced concrete. Construction and Building Materials. DOI: 10.1016/j.conbuildmat.2017.05.043. (IF=6.141)TOP. [8]Kai Liu, Dongling Dai, Chaoliang Fu, et al. Structural investigation ofthe snow-melting heated bridge deck based on the thermal field distribution. Applied Thermal Engineering. DOI: 10.1016/j.applthermaleng.2019.114132. (IF=5.295)TOP. [9]Kai Liu, Dongling Dai, Shengming Pan, et al. Numerical investigationan thermal predictions of asphalt pavement containing inductive materialsunder alternating magnetic field. International Journal of Thermal Sciences.DOI: 10.1016/j.ijthermalsci.2020.106353. (IF=3.744). [10]Kai Liu, Chaoliang Fu, Hongzhou Xie, et al. Design of electric heat pipe embedding schemes for snow-melting pavement based on mechanicalproperties in cold regions. Cold Regions Science and Technology. DOI:10.1016/j.coldregions.2019.102806. (IF=3.726). [1]An electromagnetic sounding device and its power coil current controlmethod.2020.11.06.China. ZL201811056013.5.[2]An intelligent dynamic wireless charging system for automobile, 2019.10.11.China. ZL201811055594.0. [5]A detection method of pavement self-adjusting NDT Trolley Based on ultrasonic pulse.2020.12.29. China. ZL201811056462.X. [8]A feeding device of pavement joint filling machine and using method.2018.01.09.China. ZL201610328481.8. [9]A measuring device and method for water permeability coefficient of Asphalt Pavement. 2017.06.30. China. ZL201510309399.6. [10]A tester for interlaminar shear strength of pavement structure. 2016.07.06. China. ZL201410522400.9. Ⅲ、Published Books、Standards/Specifications、Construction Methods [3]Anhui Province Standard: Guide for standardization of expressway construction in Anhui Province (DB 34/T2155-2015). Third editor in chief.2014. [4]Jiangsu Province Standard: Production technology and application regulations for dry recycling of waste tire tire asphalt mixture in urban roads.(DB32/T3492-2021). First editor in chief.2015. [5]China Highway Construction Association Standard: Technical specification for design and construction of highway asphalt composite gravel seal.(T/CHCA 003-2021). First editor in chief.2021. [6]China Highway Construction Association Standard: Technical specification for road dry-process waste tire rubber powder asphalt pavement. (T/CHCA 005-2021). First editor in chief.2021. [7]Highway construction method of China Highway Construction Association: The construction method of composite heat conduction functional layer on heating cable melting ice and snow bridge deck (GGG(皖)C3151-2014). Third editor in chief.2021. [8]Highway construction method of China Highway Construction Association: Construction method of high viscous rubber asphalt composite crushed stone sealing layer and surface layer. (GGG(苏)F3583-2021). Second editor in chief.2014. | ||
Awards and Honors | Ⅰ、Teaching Achievement Awards [1]The first prize. Anhui Teaching Achievement Award: Construction andpractice of comprehensive talent training system for transportation collegestudents guided by the innovative ability. 2019. Ranked first. [2]The second prize. Anhui Teaching Achievement Award: Construction and practice of intelligent transportation undergraduate training system for sustainable development needs, Ranked second. [3]The third prize. Anhui Teaching Achievement Award: Cooperative training mechanism and practice of Transportation Engineering Postgraduates.2019. Ranked fourth. Ⅱ、Scientific Research Awards [1]The first prize. Hubei Science and Technology Award (Technological Invention Award). Key preparation technologies and application of conductive asphalt pavement materials. 2020. Ranked third. [2]Excellence award. The 7th Anhui Patent Award. A mudstone filling subgrade structure and its construction method. 2020. Ranked second. [3]The third prize. Science and Technology Award of China Transportation Association. 2019. Ranked second. [4]The first prize. Anhui Traffic Science and Technology Progress Award. Energy conversion type fast-melting ice and snow bridge deck pavement anti-skid technology. 2019. Ranked second. [5]The second prize. Highway Science and Technology Innovation Achievement Award of China Highway Construction Association. Research on construction technology of paving composite functional layer on bridge deck with fast conduction of heating cable. 2014. Ranked second. [6]The second prize. Anhui Traffic Science and Technology Progress Award. The key technology of highway mudstone subgrade construction. 2015. Ranked second. | ||
Sponsored Research Programs | Overview:I have presided over 10 national-level programs such as National Natural Science Fund Program and China Postdoctoral Science Foundation Grant Program, and more than 20 programs sponsored bythe Provincial Department of Communications and enterprises.[2]Youth program of National Natural Science Foundation of China: Study on structural optimization and fatigue behavior of thermal melting snow and ice pavement under snow disaster and freezing(51108150). 2012-2014. [3]The 5th Special Financial Grant Program of China Postdoctoral Science Foundation: Study on Evaluation and prediction method of residual lifeof thermal melting ice and snow pavement structure(2012T50539). 2012-2013. [4]The 50th General Financial Grant Program of China Postdoctoral Science Foundation: Study on mechanical behavior of thermal melting snow and ice pavement damage and deterioration(2011M501377). 2011-2012. [5]Special Program of Scientific Frontier Innovation of Hefei University of Technology: Study on "electric-magnetic-electric-thermal" energy conversion behavior of induction heated asphalt pavement(PA2020GDKC0007). 2020-2021. [6]Jiangsu Transportation Science and Technology Program: Research on key technologies of design, construction and maintenance of high elastic rubber asphalt mixture(W2020JSKF0139). 2019-2023. [7]Tianjin Transportation Science and Technology Program: Key parameters and technical development of dynamic fatigue test of polymer mixture(W2019JSKF0747). 2019-2020. [8]Jiangsu Transportation Science and Technology Program:Development of subgrade and pavement structure and construction method,(W2019JSZR0322),2019-2019, [9]Application Cultivation Program of Hefei University of Technology: Key technology of rapid and minimally invasive repair of tunnel and roadby grouting(JZ2016YYPY0058),2016-2017. [10]Technology program of Japan TEIJIN Investment Co., Ltd: Development and evaluation of road performance of TEIJIN heating cable (W2016JSFW0064),2015-2016. | ||
Social Affiliations | [1]Peer review expert of National Natural Science Foundation of China. [2]Expert in the field of environmental protection, energy conservation and equipment of Hefei Development and Reform Commission. [3]Member of the Committee of Anhui Highway Society. [4]Expert of Anhui Traffic Engineering Committee. [5]Member of the Technical Committee of Pavement Maintenance Technology and Materials, Asphalt and Other Cement Processing, Characterization and Performance of World Transport Conference. [6]Outstanding reviewers of CRST, CBM, Chinese Journal of Highway and Transport; Reviewers of APPLIED ENERGY, APPLIED THERMAL ENGINEERING、JOURNAL OF CLEANER PRODUCTION、INT J HEAT MASS TRAN、CBM、JMCE、CRST、IJPE、Journal of Transportation Engineering, Highway Transportation Science and Technology, Vibration and Impact and so on. | ||
Overseas Research/Academic Experiences | Sept.2016-Sept.2017. Visiting Scholar,Michigan Technological University. | ||
