Caricamento in corso...
Direct and Indirect Metal Additive Manufacturing processes
02DNEUQ
A.A. 2025/26
Course Language
Inglese
Degree programme(s)
Doctorate Research in Ingegneria Gestionale E Della Produzione - Torino
Course structure
| Teaching | Hours |
|---|---|
| Lezioni | 15 |
Lecturers
| Teacher | Status | SSD | h.Les | h.Ex | h.Lab | h.Tut | Years teaching |
|---|---|---|---|---|---|---|---|
| Saboori Abdollah | Professore Associato | IIND-04/A | 15 | 0 | 0 | 0 | 4 |
Co-lectures
Context
| SSD | CFU | Activities | Area context | *** N/A *** | 3 |
|---|
Il corso si propone di offrire un’esplorazione approfondita dei processi di manifattura additiva, affrontando sia gli aspetti legati alla formatura che quelli relativi alla consolidazione. I partecipanti acquisiranno una conoscenza completa dei processi AM diretti e indiretti, con particolare attenzione alla comprensione dei meccanismi fondamentali di consolidazione, delle tecniche di ottimizzazione e delle loro molteplici applicazioni. Il programma non si limiterà a fornire le basi teoriche, ma prenderà in considerazione anche aspetti pratici, permettendo ai partecipanti di effettuare confronti consapevoli tra le diverse tecnologie additive. L’obiettivo del corso è promuovere una comprensione approfondita delle complessità coinvolte nella manifattura additiva, fornendo ai partecipanti le conoscenze e le competenze necessarie per affrontare con successo l’evoluzione di questa tecnologia all’avanguardia.
Inoltre, verrà dato ampio spazio anche agli aspetti pratici, grazie alla possibilità di operare su diversi sistemi di manifattura additiva metallica installati presso l’Integrated Additive Manufacturing Center (IAM @ Polito).
The course aims to provide an in-depth exploration of additive manufacturing processes, covering both shaping and consolidation aspects. Participants will gain comprehensive insights into both direct and indirect AM processes, with a focus on understanding their fundamental consolidation mechanisms, optimization techniques, and diverse applications. The curriculum will not only introduce the theoretical underpinnings but also consider practical considerations, enabling participants to make informed comparisons between various AM technologies. The course aims to foster a comprehensive understanding of the intricacies involved in additive manufacturing, equipping participants with the knowledge and skills necessary to navigate the evolving landscape of this cutting-edge technology. Through a detailed exploration of shaping and consolidation, participants will be well-prepared to apply their knowledge in real-world scenarios, making informed decisions and contributions to the field of additive manufacturing.
Furthermore, the practical aspects will also be privileged through the possibility of operating on different metal AM systems installed at the Integrated Additive Manufacturing Center (IAM @ Polito).
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This course provides an in-depth understanding of metal additive manufacturing (AM) processes, with a focus on both direct and indirect techniques. Participants will explore the fundamental principles, classification, mechanisms, and application domains of the main AM processes used in the production of metallic components. Emphasis will be placed on the relationships between processing parameters, resulting microstructures, and material properties, as well as on the latest industrial post-processing techniques and emerging trends. Through a combination of theoretical lectures and case study analyses, the course aims to equip doctoral candidates with a comprehensive knowledge of the current and future landscape of metal AM technologies.
Learning Objectives:
By the end of the course, students will be able to:
- Explain the basic principles and classification of metal AM processes.
- Distinguish between direct and indirect metal AM processes in terms of mechanisms, capabilities, and limitations.
- Evaluate the potential and industrial applicability of various AM techniques.
- Understand the influence of process parameters on the microstructure and properties of AM components.
- Identify suitable post-processing techniques for enhancing the performance and quality of AM parts.
- Analyze the current trends and future developments in metal AM technologies.
Course Program:
1. Introduction to Metal Additive Manufacturing
2. Classification of Metal AM Processes
3. Direct Additive Manufacturing Processes
4. Indirect Additive Manufacturing Processes
5. Comparative Analysis of Direct vs. Indirect Processes
6. Potential, Limitations, and Applications of AM Technologies
7. Post-processing of Metal AM Parts
8. Process–Structure–Properties Relationships
9. Emerging Trends in Metal AM
This course provides an in-depth understanding of metal additive manufacturing (AM) processes, with a focus on both direct and indirect techniques. Participants will explore the fundamental principles, classification, mechanisms, and application domains of the main AM processes used in the production of metallic components. Emphasis will be placed on the relationships between processing parameters, resulting microstructures, and material properties, as well as on the latest industrial post-processing techniques and emerging trends. Through a combination of theoretical lectures and case study analyses, the course aims to equip doctoral candidates with a comprehensive knowledge of the current and future landscape of metal AM technologies.
Learning Objectives:
By the end of the course, students will be able to:
- Explain the basic principles and classification of metal AM processes.
- Distinguish between direct and indirect metal AM processes in terms of mechanisms, capabilities, and limitations.
- Evaluate the potential and industrial applicability of various AM techniques.
- Understand the influence of process parameters on the microstructure and properties of AM components.
- Identify suitable post-processing techniques for enhancing the performance and quality of AM parts.
- Analyze the current trends and future developments in metal AM technologies.
Course Program:
1. Introduction to Metal Additive Manufacturing
2. Classification of Metal AM Processes
3. Direct Additive Manufacturing Processes
4. Indirect Additive Manufacturing Processes
5. Comparative Analysis of Direct vs. Indirect Processes
6. Potential, Limitations, and Applications of AM Technologies
7. Post-processing of Metal AM Parts
8. Process–Structure–Properties Relationships
9. Emerging Trends in Metal AM
In presenza
On site
Presentazione report scritto
Written report presentation
P.D.2-2 - Giugno
P.D.2-2 - June