Welcome Prof.Qian Yongmei from Jilin Jianzhu University to be committee member!


Pro.Qian Yongmei, Department of Civil Engineering, Jilin Jianzhu University

Research Area:New Type Concrete Structure, Pile Foundation, Wood Replacing Structure, Green Building

Research experience:
Achievements
Honours:The young talents with outstanding contribution in Jilin province, The top innovative talents in Jilin Province, The leading professor of discipline of Jilin Province.
Papers: Published more than 80 papers in the areas of pile foundation and green buildings. Twenty-four of them were retrieved by SCI or EI COMPENDEX.
Research: As a main researcher or project leader, led 12 research projects which includes 5 national projects and 7 provincial projects. Nine of the 12 projects have been completed and Three of them are still ongoing.
Prizes: Won national graduation department level prize on 1 project and province level prize on 5 projects as a master researcher and project leader.   
Patents:  As a main inventor, obtained 7 patents including 5 patent of invention, 4 patents for utility models.
Teaching Materials: Chief editor or subeditor, published 9 books in the areas of structural engineering and civil engineering English.
Publications (chief papers of first author)
n  Theoretical Research on Soil-Layer Thickness of Fine Powder Sand under Plate Affecting Failure Behavior of the MEEP pile on the Vertical Loads,Journal of the Balkan Tribological Association, Vol.22, No2A, July 2016,(SCI)
n  Research on Influence of Adjacent Clay-Layer Thickness for the Failure Behavior and Performance of the MEEP Pile Under Vertical Compression,Journal of the Balkan Tribological Association, Vol.22, No2A, July 2016,(SCI)
n  Analyzing the Number of Bearing Plate of  Meep Pile for Affecting the Bearing Capability of Single Pile, Journal of the Balkan Tribological Association, Vol.22, No4(I-II), December 2016, (SCI)
n  The Test Study of Clay Soil Moisture Content Affecting Uplift Failure of the Concrete Expanded-Plate Pile,Journal of the Balkan Tribological Association, Vol.22, No.4(Ⅳ), December 2016, (SCI)
The Test Study of Moisture Contentof  Clay Soil  Affecting Compressive Failure of the Cepplate PileJournal of the Balkan Tribological Association, Vol.22, No.4(Ⅳ),  December 2016, (SCI)
n  Experimental Research on Failure Behavior of Soil around the Pile of the Push-extend Multi-under-reamed Pile under Compression, TELKOMNIKA Indonesia Journal of Electrical Engineering, Vol.11, No.4, April 2013, (EI)
n  The research on collapse state and stress performance of push-extend multi-under-reamed concrete pouring pile in the fine powder sand, Energy Education Science and Technology, Vol.32 (4), July 2014, (EI)
n  The Research on the Affect of Collapse State and Bearing Capacity of the Soil Layer Properties Adjacent to  the Bearing Plate of the Multi-Extruded-Expanded-Plates Pile, The Open Civil Engineering Journal, Vols.9, December 2014, (EI)
n  Research on Feasibility of Controlling Crack Resistance of the Concrete Expanded-Plates Pile under Vertical Tension, The Open Engineering Construction and Technology , Vols.9, January 2015, (EI)
n  Analysis of the effect of the space of the bearing plate on the uplift bearing capacity of the concrete plates-expanded pile, The Open Civil Engineering Journal, Vols.9, September 2015, (EI)
n  The Analysis of the Vertical uplift bearing capacity of Single the CEP Pile, The Open Civil Engineering Journal, Vols.9, September 2015, (EI)
n  Analysis of Soil Characteristics Affecting Failure Behavior and Bearing Capacity of the Concrete Expanded-Plates Pile, The Open Construction and Building Technology Journal, Vols.9, September 2015, (EI)
Researchs (National projects)
n  Research on the failure principle and the ultimate bearing capacity of the Push-extend Multi-under-reamed Pile based on sliding line theory. This work was financially supported by National Natural Science Foundation of China (50878096), 2008, Completed (2012).
n  Research on mechanical behavior of concrete confined by prestressing tendons under local compression. This work was financially supported by National Natural Science Foundation of China (51178205),2011, Completed (2015).
n  Research on Pile and Soil Working together and ultimate bearing capacity at sliding failure behavior about the Push-extend Multi-under-reamed Pile under Vertical Tension. This work was financially supported by National Natural Science Foundation of China (51278224), 2012, Completed (2016).
n  Research on integration design of applying the solar energy in the green multi-storey residential building at the north-east region. This work was financially supported by National Natural Science Foundation of China (51478205),2014, Ongoing.
n  Research on failure principle of soil surrounding the pile and the pullout-resistance bearing capacity of concrete expanded-plate pile under horizontal load. This work was financially supported by National Natural Science Foundation of China (51678275),2016, Ongoing.
Patents (Invention)
n  The test method of on site observation about concrete expanded-plate pile with half-section under compression, No.ZL201410040654.7,2015/9/9.
n  The specimens and test methods of model test in undisturbed soil on concrete expanded-plate pile with half-section, No.ZL201410040655.1,2015/8/12.
n  The multipurpose loading platform for small scale model test with half-section pile under vertical compression and tension, No.ZL201510565512.7,2017/4/5.
n  The test device for small scale model test with half-section pile under vertical compression, No.201510565510.8,2015/9/8.
█    The detachable sampler for model test of undisturbed soil on half-section pile, No.20160363132.X,2016/6/30.