2010Civil Engineering Georgia Institute of Technology博士
2006Civil Engineering Georgia Institute of Technology硕士
2005Civil Engineering Georgia Institute of Technology学士
2010.1 – 2012.8 Senior Research Engineer at Materials Technologies Corporation, Atlanta, GA
Research and development on projects with NASA, NAVAIR, and the U.S. Air Force
2010.1 – 2011.5 Postdoctoral Fellow at Georgia Institute of Technology
Mechanics, Materials, and Structures
Multi-disciplinary research applications (aerospace, biological, civil, electrical, material, and mechanical systems) with focus on combination of structural analysis, mechanics of materials, and materials science
Computational analysis of foot and ankle, orthotics, control of the structure and development of control mechanisms
Non-destructive evaluation (NDE) of structures (including the human structure). i.e. force sensor development, infrared thermography, etc.
Development of Rapid Reconfigurable Manufacturing Systems
Development of analytical and stochastic tools to predict damage evolution, damage mechanisms, and failure in structures
Specialty: Structural analysis, computational and experimental mechanics and materials science
“Foreign Professor Stimulant Fund,” Principal Investigator for Shanghai Jiao Tong University Grant in 2016. Amount: 127,000 USD (800,000RMB).
“Multi Scale, Region Specific Modeling of the Plantar Soft Tissue,” Principal Investigator for National Science Foundation of China (NSFC) funded Young International Scientist Grant in 2016, Amount: 60,000 USD (400,000RMB). Contract #: 51550110233.
“Parameter Specific Efficacy of Foot Orthotics, and the Development of a Tunable Stiffness Orthosis for Biomechanical Investigations,” Principal Investigator for National Science Foundation of China (NSFC) funded Young Scientist Grant in 2016, Amount: 39,200 USD (247,000RMB). Contract #: 51505282.
Foot and Ankle Modeling, Soft Tissue and Contact Mechanics, Principal Investigator (PI) for State Key Laboratory of Mechanical System and Vibration, Shanghai Jiao Tong University funded project in 2015, Amount: $30,000 USD (200,000RMB).
Exercise Load Measurement Insole (ELMI), Technical Principal Investigator (PI)for NASA funded Phase I SBIR in 2012, Amount: $100,000. Contract # 11-1 X12.02-8627.
Bayesian Reliability Assessment of Non-Destructive Evaluation systems (BRANDE), PI for Air Force funded Phase I SBIR in 2011-2012, Amount: $150,000. Contract # FA8650-11-M-5181.
Thermoelastic Residual Stress Analysis System (THERSA), PI for NAVAIR funded Phase I SBIR in 2011, Amount: $80,000. Contract # N68335-11-C-0014.
Coating Enhanced Thermal Analysis Techniques–DURACON-IR, PI for NASA funded Phase I SBIR in 2011, Amount: $100,000. Contract # NNX11CG38P.
Portable IR based Inspection System (PIRIS), Technical Principal Investigator (PI) for The National Aeronautics and Space Administration (NASA)funded Phase I Small Business Innovation Research (SBIR) in 2010, Amount: $100,000. Contract # NNX10CE55P.
1.Johnson, S., Kang, L., Akil, H., 2016 “Mechanical Behavior of Jute Hybrid Bio-Composites,” Composites Part B: Engineering , http://dx.doi.org/10.1016/j.compositesb.2015.12.052. In Press 1/31/2015.
2.Qaiser, Z. , Qureshi, O., Johnson, S., 2015, “Thin walled circular beams with sinusoidal embedded patterns under axial impacts,” Thin Walled Structures. 99; 76-82. DOI: 10.1016/j.tws.2015.11.005.
3.Rashidi, M., Johnson, S., Zhigang, Y., 2015, “Theoretical Study of Moving Magnetic Beads on an Inclined Plane and its Application in the Ratchet Separation Technique,” Journal of Magnetism and Magnetic Materials, 398; 13-19. DOI: 10.1016/j.jmmm.2015.08.124.
4.Johnson,S., Popil, R., 2015, “Corrugated Board Bonding Defect Characterization,” International Journal of Adhesion and Adhesives. * 59(2015) 105-114. DOI: 10.1016/j.ijadhadh.2015.02.03.
5. Jafari, S., Rashidi, M., Johnson, S., 2014, “Analytical Solution of the Nonlinear Vibration of Euler-Bernoulli Beams via the Homotopy Analysis Method and Differential Transform Method,” International Journal of Applied Mathematics and Mechanics, 10 (9) : 96-110.
6. Johnson, S., 2014, “Thermoelastic Stress Analysis for Detecting and Characterizing Static Damage Initiation in Composite Lap Shear Joints,” Composites Part B: Engineering, 56, 740-748.
7.Johnson, S., Wei, B.S., Haj-Ali, R., 2010, “A Stochastic Fatigue Damage Model for Composite Single Lap Shear Joints Based on Markov Chains and Thermoelastic Stress Analysis,” Fatigue and Fracture of Engineering Materials and Structures 33 (12) 897-910.
8. Wei, B.S., Johnson, S., Haj-Ali, R, 2009, “A Stochastic Fatigue Damage Method for Composite Materials Based on Markov Chains and Infrared Thermography,” International Journal of Fatigue 32 (2) 350-360.
9. Haj-Ali, R., Wei, B.S., Johnson, S. and El-Hajjar, R., 2007, “Thermoelastic and Infrared-Thermography Methods for Surface Strains in Cracked Orthotropic Composite Materials,” Engineering Fracture Mechanics (EI, SCI), 75 (1) 58-75.
Introduction to Engineering
Statics and Mechanics of Materials
Materials Science and Engineering
Mechanics of Materials
Mechanics of Composite Materials
2015 Candle Light Teaching Award, Presented by Shanghai Jiao Tong University
2005 Graduated with Highest Honor, Georgia Institute of Technology
2005 Presidents Undergraduate Research Award, Presented by Georgia Institute of Technology