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Emphasis at Level 8 Level 7: Design and Build
Level 8: Design and Analysis
Subjects The course is made up of the following subjects: Mechanics / Dynamics Engineering Design, (Analysis & Simulation) Engineering Materials Thermodynamics Fluid Mechanics Mathematics Control Engineering and Sustainability Operations Management Major Project
Subject Lecturers
Mechanics S1 (Sean Dalton) Dynamics S2 (Molua Donohoe) Engineering Design (Conall Doran) Engineering Materials S1 (David Tormey) Materials labs S1 (Molua Donohoe) TBC Thermodynamics S1(Declan Sheridan) Fluid Mechanics S2 (John Casserly) Mathematics YL (Leo Creedon) Ctrl Eng. and sustainability (Tom O Callaghan) Operations Mgmt. S2 (Louise O Gorman)
Subjects Credits Marks Breakdown
Timetable / Lab Rota
Refer on-line timetable for latest version
Timetable / Labs Rota
Some issues still to be resolved; Materials Lab to be added Labs rota (to be organised locally) Simulation lab to start tomorrow in E1019 Please advise of any other timetabling issues.
Mechanics/Dynamics 401/402 Mechanics will be covered in Semester1 Dynamics will be covered in Semester2 with 1
hr per week for preparatory material in S1
Calendar 2018-2019
Refer to college website for official version
Degree Award Levels
Degree classification First Class Honours (1.1) 70%+ Second Class Honours, Grade 1 (2.1) 60%+ Second Class Honours, Grade 2 (2.2) 50%+ Pass 40%+
Labs / Practicals
The practical aspects will be addressed in Materials Labs Analysis and Simulation lab ‘Simulation lab’ on Thursday morning covers: Mechanics labs in Semester 1 Dynamics labs in Semester 2 Emphasis here is primarily on using computer simulation tools i.e.
Finite Element Analysis and Mechanism/Motion simulation. This is independent of Engineering Des, Analysis and Sim with C Doran.
Final Year Project The Final Year Project is the most important part of the
course as it demonstrates your ability to apply the knowledge and skills gained over the duration of your studies; to work independently and in a methodical manner, in the delivery of a substantial technical project.
Important stages in this activity will include:
- Project selection - Interim presentation - Planning structure of thesis (title / chapter headings) - Submit unbound to ensure layout/formatting are OK - Have thesis proof read to catch errors. - Submission of final bound thesis - Engineering Expo - Final presentation
Final Year Project Continued… Year long / Individual project /10 credits Desirable for a project to have a practical aspect e.g.
physical testing or measurement. Projects may come from one of the following:
- List of projects presented by staff. - Ideas drawn from your own experience/interests. - Industrially based project.
It is essential that all projects contain a strong analytical / technical content.
It is essential that the engineering analysis carried out contains a level of mathematical treatment appropriate to a Bachelor of Engineering Honours degree in Mechanical Engineering.
Project Selection Selection process.
- Project list to be posted on web (Dates as per HO) - Meet to discuss project ideas with staff (as per HO) - Submit Project preferences (Dates as per HO) - Project / Supervisor allocation (Dates as per HO)
Project hand-out and project proposal form circulated Thesis writing guidelines to be circulated later Notes on referencing and plagiarism to be circulated
www.itsligo.ie/staff/sdalton
Project
In the meantime give some thought to project ideas of your own.
Dedicated project slot to be timetabled / possibly Tuesday afternoon!.
Workshop slot in second semester
Overview of Facilities Available
Facilities - Engineering Science Laboratory - Materials Laboratory - Hydraulics Laboratory - Engineering Workshops
Equipment - Tensile testing, Fatigue & Impact testing m/c - Mechanisms, Gears, Belts and clutches. - Microscope for analysis of material structure - Faro Arm / Micro-scribe measuring devices. - Co-ordinate Measuring Machine (CMM) - Reverse Engineering; laser scanner - Rapid prototyping machine.
Materials Testing Equipment
Equipment (reading clockwise) •Houndsfield tensile test m/c •Instron Fatigue test m/c •Microscope for mtls analisys •Strain gauge apparatus •Zwick Impact tester
Mechanics / Dynamics Equipment Equipment (reading clockwise) Assorted mechanisms Belt friction apparatus, Clutch apparatus, Acceleration of gear
Reverse Engineering
Reverse Engineering tools •Micro-scribe measuring arm •Laser scanner
Data logger
Labquest data logger can measure: •Temperature, •Acceleration, etc
Rapid Prototyping Rapid prototyping enables your
CAD model to be converted directly into a physical model.
Software Available
Computer Aided Design: Solid Works, Powershape Computer Aided Manufacture: Mastercam, Powermill Mechanism Analysis: Working Model 2d, SW-Motion. Finite Element Analysis Software: SW-Simul…, Ansys Thermal analysis: SW-Simulation, Ansys Computational fluid dynamics: SW-Floworks Data acquisition and instrument control: Labview Mathematical Modelling: Matlab, Simulink
Computer Aided Design
Examples of Computer Aided Design
Mechanics-Finite Element Analysis Finite element analysis enables the designer to
analyse the stresses in a component. When a force is applied to a component stresses are induced. Finite element analysis enables the stresses to be determined. Blue represent low stress and Red represents high stress.
Mechanics-Finite Element Analysis Optimisation using Finite element analysis
Dynamics-Mechanism Simulation 2d Mechanism Simulation enables the
user to evaluate the forces generated in a Mechanism using a simplified representation of the Mechanism.
Dynamics-Scotch Yoke Slider Crank 3d Mechanism simulation using Cosmos Motion
Dynamics - Mechanism Simulation Velocity and acceleration diagrams Mechanism Simulation
Dynamics - Vibrations Free vibrations Damped vibrations
Thermodynamics Thermal analysis
Fluid Mechanics - CFD Computational Fluid dynamics
Use of computer simulation
Computer simulation should never be taken at face value.
All analysis must be supported by manual calculation, or experimental work or both.
Sample project areas
Mechanism Analysis / Simulation - Stira folding attic stairs, McHale baler mechanism - Analysis of engine dynamics, Suspension simulation - Simulation of a door closing mechanism - Design / analysis of a can crusher.
Mechanics / Dynamics - Application of and reading of strain gauge data - Design/application of an accelerometer - Monitoring vehicle dynamics using an accelerometer
Software development - Customising CAD for the design of std components. - Automating CNC code generation for SW Hole tables - CNC simulation using Solid Works and VBA
Sample project areas Thermodynamics / Fluid Mechanics
- Cooling fin optimisation - Analysis of flow through a venturi - Analysis of flow over an aerofoil section - Wind tunnel testing / Lift and drag measurement
Renewable energy - Evaluation of heat pump applications
Design - Design of an Automatic guitar tuner - Design of an automatic wine bottle opener
Metrology / CAD/CAM - Geometric measurement using Microscribe - Reverse engineering - Analysis of cutting forces
Subject Lecturers
Mechanics (Sean Dalton) Dynamics (Molua Donohoe) Engineering Design (Conall Doran) Engineering Materials (David Tormey) Materials labs (Molua Donohoe) Thermodynamics (Declan Sheridan) Fluid Mechanics (John Casserly) Mathematics (Leo Creedon) Ctrl Eng. and Sustainability (Tom O Callaghan) Operations Management (Louise O Gorman)
Mechanics (S Dalton)
Slope and deflection of beams Thick cylinders Elastic plastic behaviour Complex strain Fatigue Failure Strain Energy Matrix solutions Finite element analysis (Simulation Labs)
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