At the end of this course, the students; 1) An ability to apply knowledge of mathematics, science, and engineering 2) An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability 3) An ability to identify, formulate, and solve engineering problems 4) An understanding of professional and ethical responsibility
MODE OF DELIVERY
Face to face
PRE-REQUISITES OF THE COURSE
No
RECOMMENDED OPTIONAL PROGRAMME COMPONENT
None
COURSE DEFINITION
Introduction to analysis of low speed impact, Rigid body theory for collinear impact, Rigid body theory for planar or 2D collisions, 3D Impact of Rough Rigid Bodies, Rigid body impact with discrete modeling of compliance for the contact region, Continuum modeling of local deformation near the contact area, Axial impact on slender deformable bodies, Impact on assemblies of rigid elements, Collision against flexible structures
COURSE CONTENTS
WEEK
TOPICS
1st Week
Introduction to analysis of low speed impact,
2nd Week
Rigid body theory for collinear impact
3rd Week
Rigid body theory for planar or 2D collisions
4th Week
3D Impact of Rough Rigid Bodies
5th Week
Rigid body impact with discrete modeling of compliance for the contact region
6th Week
Continuum modeling of local deformation near the contact area
7th Week
Axial impact on slender deformable bodies
8th Week
MİDTERM
9th Week
Collision against flexible structures
10th Week
Impact on assemblies of rigid elements
11th Week
Shaped charge explosives
12th Week
Penetration and perforation
13th Week
Penetration mechanisms
14th Week
Applications
RECOMENDED OR REQUIRED READING
Impact Mechanics, W.J. Stronge, Cambridge University press