| Name: |
Liu Haofei |
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| Gender: |
Male |
| Talent plan: |
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| Professional title: |
Lecturer |
| Post: |
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| Institution: |
Department of Mechanics |
Specialty: |
Solid mechanics |
| Email: |
hfliu@tju.edu.cn |
Personal website: |
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| Tel: |
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Fax: |
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| Office: |
Room 501 and 110, Building No. 36 Department of Mechanics |
| Education: |
2006.02–2010.06, Glasgow University, UK, Applied Math, Ph.D.
2004.09–2005.12, University of Manchester, UK, Thermal Power and Fluids Eng., M.Sc.
2000.09–2004.07, Hebei University of Technology, China, Thermal Power and Fluids Eng., B.Sc.
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| Academic experience: |
2013.05-now, Tianjin University, Lecturer
2014.07-2015.01, Georgia Institute of Technology, Visiting Assistant Professor
2012.04-2013.04, University of Connecticut, Postdoc
2010.07-2012.03, Worcester Polytechnic Institute, Postdoc
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| Research interest: |
1. Mechanical behaviors of cardiovascular soft tissues
2. Novel medical implants for cardiovascular disease
3. Numerical simulation of fluid-structure interactions (FSI)
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| Teaching: |
Elasticity
Engineering Mechanics
Training of Finite Element Software
Advanced Solid Mechanics (in English)
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| Academic position: |
Member of Chinese Society of Biomedical Engineering
Reviewer for the journals: Computer Methods in Applied Mechanics and Engineering、Biomedical Engineering Online
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| Academic achievement: |
[1] Zhang, L. B.; Cai, Z. X.; Liu, H. F. A novel approach for simulation of soil-tool interaction based on an arbitrary Lagrangian–Eulerian description, SOIL & TILLAGE RESEARCH, 2018, 178: 41~49
[2] Liu, Haofei; Sun, Wei. Numerical approximation of elasticity tensor associated with Green-Naghdi rate, JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME, 2017.8, 139(8)
[3] Liu, Haofei; Sun, Wei. Computational efficiency of numerical approximations of tangent moduli for finite element implementation of a fiber-reinforced hyperelastic material model, COMPUTER METHODS IN BIOMECHANICS AND BIOMEDICAL ENGINEERING, 2016.8.17, 19(11): 1171~1180
[4] Liu, H. F.; Luo, X. Y. ; Cai, Z. X. Stability and energy budget of pressure-driven collapsible channel flows , JOURNAL OF FLUID MECHANICS, 2012.8.25, 705: 348~370
[5]H Liu; M Cai; C Yang; J Zheng; R Bach; M Kural; K Billiar; D Muccigrosso; D Lu; D Tang. IVUS-based computational modeling and planar biaxial artery material properties for human coronary plaque vulnerability assessment, MOLECULAR AND CELLULAR BIOMECHANICS, 2012.3, 9(1): 77~94
[6] Liu, Haofei; Canton, Gador; Yuan, Chun; Yang, Chun; Billiar, Kristen; Teng, Zhongzhao; Hoffman, Allen H.; Tang, Dalin. Using In Vivo Cine and 3D Multi-Contrast MRI to Determine Human Atherosclerotic Carotid Artery Material Properties and Circumferential Shrinkage Rate and Their Impact on Stress/Strain Predictions, JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME, 2012.1, 134(1)
[7] Liu, H. F.; Luo, X. Y.; Cai, Z. X.; Pedley, T. J. Sensitivity of unsteady collapsible channel flows to modelling assumptions , COMMUNICATIONS IN NUMERICAL METHODS IN ENGINEERING, 2009.5, 25(5): 483~504
[8] Haofei Liu; Wei Sun. Approximation method to obtain elasticity tensor from Green-Naghdi rate of Kirchhoff stress, THE 11TH INTERNATIONAL SYMPOSIUM ON COMPUTER METHODS IN BIOMECHANICS AND BIOMEDICAL ENGINEERING, 2013.4.3-2013.4.7
[9] H Liu; M Cai; C Yang; J Zheng; R Bach; M Kural; K Billiar; D Muccigrosso; D Lu; D Tang. A framework to assess human coronary plaque vulnerability using intravascular ultrasound, on-site pressure, angiography, and anisotropic FSI models, ASME 2012 SUMMER BIOENGINEERING CONFERENCE, SBC2012, Fajardo, 2012.6.20-2012.6.23
[10] H. Liu; G. Canton; C. Yuan; M. Ferguson; C. Yang; K. Billiar; D. Tang. Determination of human carotid atherosclerotic plaquematerial properties non-invasively using in vivo cine and 3D magnetic resonance imaging and image-based modeling techniques, ASME 2011 SUMMER BIOENGINEERING CONFERENCE (SBC 2011) 2011.6.22 2011.6.25
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