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
2024 Fall Courses
ME 430 - INTRO COMPUTER AIDED DES
ME 635 - COMPUTER-AIDED DESIGN
FED 101 - MIE - FUNDAMENTALS OF ENGINEERING DESIGN - HONORS
FED 101 - ME - FUNDAMENTALS OF ENGINEERING DESIGN
ME 635 - COMPUTER-AIDED DESIGN
FED 101 - MIE - FUNDAMENTALS OF ENGINEERING DESIGN - HONORS
FED 101 - ME - FUNDAMENTALS OF ENGINEERING DESIGN
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
Walsh, Lisa L, & Lichti, Deborah A, & Zambrano-Varghese, Christina M, & Borgaonkar, Ashish D., & Sodhi, Jaskirat S., & Moon, Swapnil, & Wester, Emma R, & Callis-Duehl, Kristine L (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, 17(1), 1--18.
Prasad, Aayush , & Moon, Swapnil, & Rao, I. Joga (2021). I. J. Rao Thermo-mechanical modeling of viscoelastic crystallizable shape memory polymers. International Journal of Engineering Science, 167, 30.
Moon, Swapnil, & Moon, I. J., & Cui, Fangda (2019). A thermodynamic framework for the modeling of crystallizable triple shape memory polymers. International Journal of Engineering Science, 134, 30.
Cui, fangda, & Moon, Swapnil, & Rao, I. J. (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, 9(1), 21-29.
Cui, Fangda, & Moon, Swapnil, & Rao, I. Joga (2016). Modeling the Viscoelastic Behavior of Amorphous Shape Memory Polymers at an Elevated Temperature. Fluids, 1(2),
Moon, Swapnil, & Rao, I. Joga, & Chester, Shawn A. (2016). Triple Shape Memory Polymers: Constitutive Modeling and Numerical Simulation. Journal of Applied Mechanics, 83(7),
Moon, Swapnil, & Cui, Fangda, & Rao, I. J. (2015). Constitutive modeling of the mechanics associated with triple shape memory polymers. International Journal of Engineering Science, 96, 86-110.
Prasad, Aayush , & Moon, Swapnil, & Rao, I. Joga (2021). I. J. Rao Thermo-mechanical modeling of viscoelastic crystallizable shape memory polymers. International Journal of Engineering Science, 167, 30.
Moon, Swapnil, & Moon, I. J., & Cui, Fangda (2019). A thermodynamic framework for the modeling of crystallizable triple shape memory polymers. International Journal of Engineering Science, 134, 30.
Cui, fangda, & Moon, Swapnil, & Rao, I. J. (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, 9(1), 21-29.
Cui, Fangda, & Moon, Swapnil, & Rao, I. Joga (2016). Modeling the Viscoelastic Behavior of Amorphous Shape Memory Polymers at an Elevated Temperature. Fluids, 1(2),
Moon, Swapnil, & Rao, I. Joga, & Chester, Shawn A. (2016). Triple Shape Memory Polymers: Constitutive Modeling and Numerical Simulation. Journal of Applied Mechanics, 83(7),
Moon, Swapnil, & Cui, Fangda, & Rao, I. J. (2015). Constitutive modeling of the mechanics associated with triple shape memory polymers. International Journal of Engineering Science, 96, 86-110.
Conference Proceeding
Fantastic cheats: Where and how to find them? how to tackle them?
2020
2020