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Teacher
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CICCONI PAOLO
(syllabus)
1. Engineering Design
• Phases of the Engineering Design
• Product Configuration and modularity. Differences between Configure-to-Order e Engineer-to-Order.
2. Product Lifecycle Management – PLM
• Introduction to Product Life Cycle Management (PLM), tools and methods.
3. Geometrical Modeling and CAD tools
• CAD feature-based modeling, parameters management.
• Annotations on 3D models – Product and Manufacturing Information (PMI).
• Basic concepts on surface modeling.
4. Application Programming Interface
• Programming languages for CAD integration.
• Development examples.
5. Computer-Aided Engineering tools
• CAE systems and applications.
• CAD/CAE interoperability.
• Finite Element Methods (FEM) and numerical tools.
• Structural simulations.
6. Design Optimization tools
• Parametrical optimization: tools and methods.
• Multi-Objective Optimization.
• Topological Optimization in FEM analysis.
• Examples.
7. Reverse Engineering
• Optical instruments for 3D survey.
• 3D scanner: a test case.
8. Design for Additive Manufacturing – DfAM
• 3D printing technologies. Additive Manufacturing from metal powders.
• Design of lattice structures.
• Support structures and orientation.
• Design for Additive Manufacturing: phases, tool, and product development.
• CAD/CAE tools for the additive project.
9. Design for X
• Design for X: definition. Examples of Design for Assembly and Design for Disassembly, etc.
• Concepts of Life Cycle Assessment for the industrial sector.
• Ecodesign methods based on Life Cycle Assessment analysis (Design for Sustainability).
10. 3D Piping modeling
• Design of 3D piping models using CAD software.
(reference books)
Online documentation on the Moodle site of the course.
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Università Roma Tre