Module Details
Module Code: |
DSGN H3601 |
Module Title:
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Advanced Manufacturing
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Title:
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Advanced Manufacturing
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Module Level:: |
7 |
Module Coordinator: |
Cathal Nolan
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Module Author:: |
Andrew Keppel
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Module Description: |
The aim of this module is to provide students with an in-depth understanding of manufacturing, the design process and computer integrated engineering. A key element of the module is to develop the student’s team working ability. Part of the assessment for this module is a group based project (in groups or four or five) to model and present a significant engineering artifact such as, for example, a complete car or aircraft.
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Learning Outcomes |
On successful completion of this module the learner will be able to: |
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Learning Outcome Description |
LO1 |
Develop, test and validate and implement advanced parametric CAD Modeling. |
LO2 |
Describe and implement various computer aided methods; |
LO3 |
Understand the significance of the engineering design process and the part it plays in the manufacture of products and components; |
LO4 |
Understand the significance of parametric modelling & computer aided manufacture and the part they play in the design of products and components; |
LO5 |
To work effectively as part of a team in an engineering project environment. |
Dependencies |
Module Recommendations
This is prior learning (or a practical skill) that is recommended before enrolment in this module.
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No recommendations listed |
Co-requisite Modules
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No Co-requisite modules listed |
Additional Requisite Information
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No Co Requisites listed
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Indicative Content |
Advanced CAD Modelling & Design
o Part and Assembly design using industry standard parametric modelers,
o Design of parts for CNC manufacture and simulation
o CAM principles and techniques,
o Assembly methodologies, contextual based part design. Assembly configurations, Product data management.
o Advanced Parametric equations, advanced excel based design tables, motion analysis.
o Geometric tolerancing and Design with model-based definition in accordance with ISO 1101-2017.
o Generation of professional engineering production drawings, templates
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Advanced Manufacturing methods.
o Conversational programming
o Machine setting & tool selection & fixturing
o Computer aided manufacture and implementation (Milling up to 3+2 and turning up to mill turn)
o in-process and post-process Inspection (manual & automated)
o Other technologies such as; Wire EDM, Turning centres, hybrid manufacture
o 5 Axis simultaneous machining
o Introduction to automated probing
o CMM and manufacturing intent
o Control systems & FMS + IOT
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Computer integrated engineering
o Computer aided methods and implementation
o Parametric modellers
o Implementation of Computer integrated manufacturing
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Automation and Control Technologies:
o Material Handling and Identification Technologies
o Fundamentals of NC Technology
o Computer Numerical Control
o Distributed Numerical Control
o Applications of NC
o NC Part Programming
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Product Design and CAD/CAM in the Production System:
o Product Design and CAD
o CAD System Hardware
o CAM, CAD/CAM, and CIM
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Process Planning and Concurrent Engineering:
o Process Planning
o Computer-Aided Process Planning
o Concurrent Engineering and Design for Manufacturing
o Advanced Manufacturing Planning
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Production Planning and Control Systems:
o Aggregate Production Planning and the Master Production Schedule
o Material Requirements Planning
o Capacity Planning
o Shop Floor Control
o Inventory Control
o Extensions of MRP
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Module Content & Assessment
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Assessment Breakdown | % |
Continuous Assessment | 50.00% |
Project | 50.00% |
AssessmentsFull Time
No End of Module Formal Examination |
Reassessment Requirement |
Repeat the module
The assessment of this module is inextricably linked to the delivery. The student must reattend the module in its entirety in order to be reassessed.
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Reassessment Description Learners that fail but achieve a minimum final percentage of 30% in the module will be eligible for one or more of the following: Submit assignment, Re-submit components, Practical examination or Presentation.
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SETU Carlow Campus reserves the right to alter the nature and timings of assessment
Module Workload
Workload: Full Time |
Workload Type |
Workload Category |
Contact Type |
Workload Description |
Frequency |
Average Weekly Learner Workload |
Hours |
Lab/Lecture |
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Contact |
No Description |
12 Weeks per Stage |
2.00 |
24 |
Laboratory |
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Contact |
students will be required to attend onsite lab classes |
12 Weeks per Stage |
4.00 |
48 |
Estimated Learner Hours |
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Non Contact |
No Description |
15 Weeks per Stage |
11.87 |
178 |
Total Weekly Contact Hours |
6.00 |
Module Resources
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Recommended Book Resources |
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Mikell P. Groover. Automation, Production Systems, and Computer-Integrated Manufacturing, Pearson Education (US), p.840, [ISBN: 0132070731].
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Principles of Modern Manufacturing, John Wiley & Sons Ltd, p.1024, [ISBN: 0470505923].
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Serope Kalpakjian,Steven R. Schmid. Manufacturing Engineering and Technology, Prentice Hall, p.1295, [ISBN: 0-13-148965-8].
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Jack Campanella. Principles of Quality Costs, Asq Press, p.219, [ISBN: 087389443X].
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Johannes Ledolter,Claude Burrill. Statistical Quality Control, John Wiley & Sons Incorporated, p.526, [ISBN: 0471183784].
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Stewart C. Black... [et al.]. Principles of engineering manufacture, Arnold ;, London, [ISBN: 0-470-23558-6].
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Robin E. McDermott, Raymond J. Mikulak, Michael R. Beauregard. The basics of FMEA, Quality Resources, New York, [ISBN: 0527763209].
| This module does not have any article/paper resources |
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This module does not have any other resources |
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