Additive Manufacturing A Tool for Industrial Revolution 4.0 Woodhead Publishing Reviews: Mechanical Engineering Series
Coordonnateurs : Manjaiah M., Raghavendra K., Balashanmugam N., Davim J. Paulo
Additive Manufacturing: A Tool for Industrial Revolution 4.0 explores the latest developments, underlying mechanisms, challenges and opportunities for 3D printing in a digital manufacturing environment. It uses an international panel of experts to explain how additive manufacturing processes have been successfully integrated with industry 4.0 technologies for increased technical capabilities, efficiency, flexibility and sustainability. The full manufacturing product cycle is addressed, including design, materials, mechanical properties, and measurement. Future directions for this important technological intersection are also explored. This book will interest researchers and industrial professionals in industrial engineering, digital manufacturing, advanced manufacturing, data science applications, and computer engineering.
1. Introduction to Additive Manufacturing and Industrial Revolution 4.0 2. Basic Principles of the Additive Manufacturing Process 3. Developments in Additive Manufacturing Technology 4. Review on 3D Printing of Medical Parts 5.Software Interface Issues in Consideration of Additive Manufacturing Machines and Processes 6. Role of Additive Manufacturing in the Era of Industry 4.0 7. Perspectives on Additive Manufacturing in Industry 4.0 8. Additive Manufacturing of Titanium Alloys: Microstructure and Texture Evolution, Defect Formation and Mechanical Response 9. Wire Arc Additive Manufacturing: Approaches and Future Perspectives 10. Materials for Additive Manufacturing and 4D Printing 11. Polymeric Materials for 3D Printing 12. In-Situ Monitoring of Metal Additive Manufacturing Process: A Review
K Raghavendra is an Associate Professor at the Centre for Incubation, Innovation, Research, and Consultancy of Jyothy Institute of Technology, Bengaluru, India. His research focus is on non-conventional machining.
N Balashanmugam is Joint Director of the Central Manufacturing Technology Institute (CMTI), Bengaluru, India. His work focuses on ways of helping heavy industry to adapt to the challenges and opportunities presented by digital transformation, with particular emphasis on manufacturing.
J. Paulo Davim is a full professor at the University of Aveiro, Portugal. He is also distinguished as an honorary professor in several universities and colleges in China, India, and Spain. He is the series editor of Elsevier’s Woodhead Publishing Reviews: Mechanical Engineering Series.
- Addresses a wide range of additive manufacturing technology, including processes, controls and operation
- Explains many new and sustainable additive manufacturing methods
- Provides detailed descriptions on how to modernize and optimize conventional additive manufacturing methodologies in order to take full advantage of synergies with industry 4.0
Date de parution : 07-2021
Ouvrage de 324 p.
15x22.8 cm
Thème d’Additive Manufacturing :
Mots-clés :
3D materials; 3D printing; 3D printing software; AM machine–human interface; AM process dynamics; AM software issues and corrections; Additive manufacturing; Additive manufacturing (AM); Alginate; Artificial intelligence; Artificial intelligence (AI); Big data; Biomaterials; Biopolymers; CAD modeling; Camera-based inspection in AM; Cellulose; Cloud computing; Crystallographic texture formation; Defect inspection in AM process; Design and development; Digital manufacturing; Digital twin; Direct AM; Direct energy deposition (DED); Elastomers; Engineering properties and 4D printing; Fourth industrial revolution (Industry 40); Hydrogels; In situ monitoring; Indirect AM; Industry 12; Industry 12; Industry Revolution 40; Internet of Things (IoT); IoT; Material properties; Materials; Mechanical properties; Medical 3D printing; Melt pool monitoring; Microstructure evolution; Pandemic; Plasma; Polyurethanes; Porosity; Printing methods; Process monitoring in AM; Quality check during AM process; Real-time inspection of AM; Residual stress; Reverse engineering; Robotics; STL file; Sensors; Sensors for AM process; Structure-processing-property correlation; Supply chain; Sustainability; Thin wall; Ti-6Al-4V alloy; Tissue engineering; Vision inspection in AM; Wire arc additive manufacturing (WAAM)