Course Contents
1. ING-IND/17
- Occupational Health and Safety Management Systems;
- National and International Standards and Regulations: Legislative Decree 81/08 and ISO 45001.
2. ING-IND/16
- Composite Materials: Introduction and Classification of Composite Materials, Mechanical Behavior of Composite Materials (micromechanical models for continuous fiber composites, notes on lamination theory, Lamination Sequence Design);
- Manufacturing Processes of Composite Materials: Definition of Technological Schemes, Design and Modeling of Forming/Polymerization Processes.
- Open-Mold and Closed-Mold Processes (RIFT, RTM, Prepreg Vacuum Bagging);
- Robotic Manufacturing Processes (Filament Winding and Tape Placement).
- Product Qualification: Non-Destructive Testing and Mechanical Characterization Tests.
- Introduction to Additive Technologies for Metallic Materials;
- Hybrid Structures “MetalAM/CompositeFRP” with High Functional Performance.
- From Rapid Prototyping to Additive Manufacturing for Polymers: Polymeric Materials, Definition and Classification of Technologies and Prototypes, Design and Modeling of Additive Manufacturing Processes.
- Rapid Tooling and Rapid Casting.
- LASER Source and its Use.
- The Digital Twin of a Manufacturing Process: Definition, Analytical and Numerical Approach for the Assembly Process.
Engineering Approach to Safety:
- Definitions;
- Injury Prevention;
- Identification and Determination of Risk Factors;
- Prevention Stakeholders;
- Obligations, Responsibilities, Sanctions.
- Risk Analysis: Risk Events in Industrial Plants; Methods and Criteria for Risk Analysis and Evaluation.
- The Risk Assessment Document: Guidelines for Drafting.
- Safety Costs: Classification of Safety Costs; Management Criteria of Safety Costs.
- Safety Management Systems and National-International Standards: Legislative Decree 81/08 – the Unified Text on Health and Workplace Safety, and ISO 45001 – Occupational Health and Safety Management.
Content of the Exercises:
- the Course includes the Use of FEM/CAD Software for the Development of Practical Design Examples of Manufacturing Processes.
- Laboratory Sessions are also included for the Production, using Manual and/or Robotic Technologies, of Polymer Matrix Composite Components.
