Swapnil Moon
Swapnil Moon
Senior University Lecturer, Mechanical and Industrial Engr
Education
Ph.D.; New Jersey Institute of Technology; Mechanical Engineering; 2014
M.S.; New Jersey Institute of Technology; Mechanical Engineering; 2009
B.S.; Nagpur University; Mechanical Engineering; 2005
M.S.; New Jersey Institute of Technology; Mechanical Engineering; 2009
B.S.; Nagpur University; Mechanical Engineering; 2005
2025 Spring Courses
FED 101 - ME - FUNDAMENTALS OF ENGR DESIGN
ME 430 - INTRO COMPUTER AIDED DES
ME 635 - COMPUTER-AIDED DESIGN
ME 405 - MECHANICAL LABORATORY II
ME 738 - COMPUTER AIDED ENGINEERING
ME 430 - INTRO COMPUTER AIDED DES
ME 635 - COMPUTER-AIDED DESIGN
ME 405 - MECHANICAL LABORATORY II
ME 738 - COMPUTER AIDED ENGINEERING
Past Courses
FED 101: FUND ENGINEERNG DESIGN I
FED 101: FUNDAMENTALS OF ENGINEERING DESIGN
FED 101: FUNDAMENTALS OF ENGR DESIGN
FED 101: ME - FUNDAMENTALS OF ENGINEERING DESIGN
FED 101: ME - FUNDAMENTALS OF ENGR DESIGN
FED 101: MIE - FUNDAMENTALS OF ENGINEERING DESIGN - HONORS
ME 403: MECH SYSTEMS DESIGN I
ME 405: MECHANICAL LAB II
ME 405: MECHANICAL LABORATORY II
ME 430: INTRO COMPUTER AIDED DES
ME 430: INTRODUCTION TO COMPUTER-AIDED DESIGN
ME 441: COMP SIM & ANALY MECH ENGR
ME 635: COMPUTER-AIDED DESIGN
ME 738: COMPUTER AIDED ENGINEERING
FED 101: FUNDAMENTALS OF ENGINEERING DESIGN
FED 101: FUNDAMENTALS OF ENGR DESIGN
FED 101: ME - FUNDAMENTALS OF ENGINEERING DESIGN
FED 101: ME - FUNDAMENTALS OF ENGR DESIGN
FED 101: MIE - FUNDAMENTALS OF ENGINEERING DESIGN - HONORS
ME 403: MECH SYSTEMS DESIGN I
ME 405: MECHANICAL LAB II
ME 405: MECHANICAL LABORATORY II
ME 430: INTRO COMPUTER AIDED DES
ME 430: INTRODUCTION TO COMPUTER-AIDED DESIGN
ME 441: COMP SIM & ANALY MECH ENGR
ME 635: COMPUTER-AIDED DESIGN
ME 738: COMPUTER AIDED ENGINEERING
Conference Paper
“Constitutive Modeling of Viscoelastic Photo-Adaptable Thermally Activated Shape Memory Polymers”
ASME International Mechanical Engineering Congress and Exposition, January (1st Quarter/Winter) 2022.
ASME International Mechanical Engineering Congress and Exposition, January (1st Quarter/Winter) 2022.
Journal Article
Lisa L Walsh, Deborah A Lichti, Christina M Zambrano-Varghese, Ashish D. Borgaonkar, Jaskirat S. Sodhi, Swapnil Moon, Emma R Wester, Kristine L Callis-Duehl. 2021. “Why and how science students in the United States think their peers cheat more frequently online: perspectives during the COVID-19 pandemic.” International Journal for Educational Integrity, vol. 17, no. 1, pp. 1--18.
Aayush Prasad, Swapnil Moon, I. Joga Rao. 2021. “ I. J. Rao Thermo-mechanical modeling of viscoelastic crystallizable shape memory polymers.” International Journal of Engineering Science, vol. 167, pp. 30.
Swapnil Moon, I. J. Moon, Fangda Cui. 2019. “A thermodynamic framework for the modeling of crystallizable triple shape memory polymers.” International Journal of Engineering Science, vol. 134, pp. 30.
fangda Cui, Swapnil Moon, I. J. Rao. 2017. “Modeling the mechanical behavior of crystallizable shape memory polymers: incorporating temperature-dependent viscoelasticity.” International Journal of Advances in Engineering Sciences and Applied Mathematics, Springer, vol. 9, no. 1, pp. 21-29.
Fangda Cui, Swapnil Moon, I. Joga Rao. 2016. “Modeling the Viscoelastic Behavior of Amorphous Shape Memory Polymers at an Elevated Temperature.” Fluids, vol. 1, no. 2.
Swapnil Moon, I. Joga Rao, Shawn A. Chester. 2016. “Triple Shape Memory Polymers: Constitutive Modeling and Numerical Simulation.” Journal of Applied Mechanics, vol. 83, no. 7.
Swapnil Moon, Fangda Cui, I. J. Rao. 2015. “Constitutive modeling of the mechanics associated with triple shape memory polymers.” International Journal of Engineering Science, vol. 96, pp. 86-110.
Aayush Prasad, Swapnil Moon, I. Joga Rao. 2021. “ I. J. Rao Thermo-mechanical modeling of viscoelastic crystallizable shape memory polymers.” International Journal of Engineering Science, vol. 167, pp. 30.
Swapnil Moon, I. J. Moon, Fangda Cui. 2019. “A thermodynamic framework for the modeling of crystallizable triple shape memory polymers.” International Journal of Engineering Science, vol. 134, pp. 30.
fangda Cui, Swapnil Moon, I. J. Rao. 2017. “Modeling the mechanical behavior of crystallizable shape memory polymers: incorporating temperature-dependent viscoelasticity.” International Journal of Advances in Engineering Sciences and Applied Mathematics, Springer, vol. 9, no. 1, pp. 21-29.
Fangda Cui, Swapnil Moon, I. Joga Rao. 2016. “Modeling the Viscoelastic Behavior of Amorphous Shape Memory Polymers at an Elevated Temperature.” Fluids, vol. 1, no. 2.
Swapnil Moon, I. Joga Rao, Shawn A. Chester. 2016. “Triple Shape Memory Polymers: Constitutive Modeling and Numerical Simulation.” Journal of Applied Mechanics, vol. 83, no. 7.
Swapnil Moon, Fangda Cui, I. J. Rao. 2015. “Constitutive modeling of the mechanics associated with triple shape memory polymers.” International Journal of Engineering Science, vol. 96, pp. 86-110.
Conference Proceeding
“Fantastic cheats: Where and how to find them? how to tackle them?”
2020.
2020.