Course/Module
Demonstrator, BE1-HEiM Engineering in Medicine. (Undergraduate)
Supervisor, L2 Mechanics Design Project. (Undergraduate)
Supervisor, L3 Mechanics Design Project. (Undergraduate)
Stress Analysis 3A - MECH60014
Aims
The aim of the course is to reinforce the student's knowledge of stress analysis, to extend this knowledge to more advanced theories and techniques and to apply these to practical problems. Most of these will be developments of methods which have been previously acquired but applied to more sophisticated problems. New areas of thermal stresses, plastic deformation and residual stresses will be treated and a new technique of analysis using energy methods will also be introduced and developed.
ECTS units: 5
Role
Lecturer
Stress Analysis 3 - MECH96039
Aims
The aim of the course is to reinforce the student's knowledge of stress analysis, to extend this knowledge to more advanced theories and techniques and to apply these to practical problems. Most of these will be developments of methods which have been previously acquired but applied to more sophisticated problems. New areas of thermal stresses, plastic deformation and residual stresses will be treated and a new technique of analysis using energy methods will also be introduced and developed.
ECTS units: 6
Contributing to Course Elements: 6 to ME3-LCTVS or ME4-LCTVS
Role
Lecturer
Stress Analysis 3 - MECH96015
Aims
The aim of the course is to reinforce the student's knowledge of stress analysis, to extend this knowledge to more advanced theories and techniques and to apply these to practical problems. Most of these will be developments of methods which have been previously acquired but applied to more sophisticated problems. New areas of thermal stresses, plastic deformation and residual stresses will be treated and a new technique of analysis using energy methods will also be introduced and developed.
ECTS units: 5
Role
Lecturer