Digital Twins of Advanced Materials Processing
Digital twins represent an emerging technology of immense potential across various industries. Their significance is particularly pronounced within Industry 4.0 and smart manufacturing paradigms, which strive to elevate efficiency and quality through seamless digital integration. By amassing and scrutinizing extensive data streams, digital twins empower data-centric decision-making—a pivotal asset in contemporary industry. Digital Twins of Advanced Materials Processing bridges the gap in comprehensive resources concerning advanced materials processing, a domain characterized by rapid evolution. It provides pragmatic remedies and real-world case studies, catering to tangible implementation needs. Moreover, digital twins hold the capacity to amplify efficiency and innovation within materials processing—a perspective deeply explored within this book, rendering it invaluable for professionals, researchers, and students alike. The prospects of employing digital twins in materials processing span diverse horizons: refining materials innovation, streamlining processes, enabling data-driven maintenance, enhancing product quality, and unearthing insights rooted in data. The book also undertakes the challenge of addressing key issues encompassing data amalgamation and integrity, model validation and calibration, software and data safeguarding, scalability, and cost considerations.
1146251530
Digital Twins of Advanced Materials Processing
Digital twins represent an emerging technology of immense potential across various industries. Their significance is particularly pronounced within Industry 4.0 and smart manufacturing paradigms, which strive to elevate efficiency and quality through seamless digital integration. By amassing and scrutinizing extensive data streams, digital twins empower data-centric decision-making—a pivotal asset in contemporary industry. Digital Twins of Advanced Materials Processing bridges the gap in comprehensive resources concerning advanced materials processing, a domain characterized by rapid evolution. It provides pragmatic remedies and real-world case studies, catering to tangible implementation needs. Moreover, digital twins hold the capacity to amplify efficiency and innovation within materials processing—a perspective deeply explored within this book, rendering it invaluable for professionals, researchers, and students alike. The prospects of employing digital twins in materials processing span diverse horizons: refining materials innovation, streamlining processes, enabling data-driven maintenance, enhancing product quality, and unearthing insights rooted in data. The book also undertakes the challenge of addressing key issues encompassing data amalgamation and integrity, model validation and calibration, software and data safeguarding, scalability, and cost considerations.
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Digital Twins of Advanced Materials Processing

Digital Twins of Advanced Materials Processing

Digital Twins of Advanced Materials Processing
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Digital Twins of Advanced Materials Processing

Digital Twins of Advanced Materials Processing

Overview

Digital twins represent an emerging technology of immense potential across various industries. Their significance is particularly pronounced within Industry 4.0 and smart manufacturing paradigms, which strive to elevate efficiency and quality through seamless digital integration. By amassing and scrutinizing extensive data streams, digital twins empower data-centric decision-making—a pivotal asset in contemporary industry. Digital Twins of Advanced Materials Processing bridges the gap in comprehensive resources concerning advanced materials processing, a domain characterized by rapid evolution. It provides pragmatic remedies and real-world case studies, catering to tangible implementation needs. Moreover, digital twins hold the capacity to amplify efficiency and innovation within materials processing—a perspective deeply explored within this book, rendering it invaluable for professionals, researchers, and students alike. The prospects of employing digital twins in materials processing span diverse horizons: refining materials innovation, streamlining processes, enabling data-driven maintenance, enhancing product quality, and unearthing insights rooted in data. The book also undertakes the challenge of addressing key issues encompassing data amalgamation and integrity, model validation and calibration, software and data safeguarding, scalability, and cost considerations.

Product Details

ISBN-13: 9780443329180
Publisher: Elsevier Science
Publication date: 01/01/2026
Pages: 300
Product dimensions: 6.00(w) x 9.00(h) x (d)

About the Author

Dr. DebRoy is a Professor of Materials Science and Engineering at Penn State. He is the author of a 2023 Wiley textbook (in press) on “Theory and Practice of Additive Manufacturing”, a book for everyone on “Innovations in Everyday Engineering Materials”, five edited books, and over 380 well-cited technical articles. His work has been recognized by over 20 scholastic awards including a Fulbright Distinguished Chair in Brazil from the US State Department, the UK Royal Academy of Engineering's Distinguished Visiting Fellowship at Cambridge University, and Penn State's highest scholastic award, the Faculty Scholar medal. He has served as a Distinguished Visiting Professor at IIT Bombay, Aditya Birla Chair at IISc, Bangalore, Visiting Professor at the African University of Science and Technology at Abuja, Nigeria, and Visiting Professor at KTH, Stockholm. He is a Founding Editor of the journal “Science and Technology of Welding and Joining”.

Dr. Mukherjee is a Postdoctoral Scholar at the Pennsylvania State University and will serve as Assistant Professor at Iowa State starting August 2023. He is the author of many papers in leading journals including Nature Reviews Materials, Nature Materials, and Progress in Materials Science. He edited a book entitled “The Science and Technology of 3D Printing” (MDPI, 2021), and his textbook on “Theory and Practice of Additive Manufacturing” will be published by Wiley in October 2023. He served as a Guest Editor for the journals “Computational Materials Science”, “Materials”, and “Science and Technology of Welding and Joining”. He is an Editorial Board Member of the journal “Science and Technology of Welding and Joining” and “Welding Journal”.

Table of Contents

1. Introduction
2. Building blocks of a digital twin
3. Mechanistic models
4. Surrogate and reduced order models
5. Machine learning and deep learning
6. Statistical models
7. Control models
8. Testing and case studies
9. Current status, research needs, and outlook

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From the Publisher

Centres on digital twins—virtual replicas of physical processes and products. They facilitate high-quality manufacturing through optimized processes, unleashing novel avenues for innovation rooted in scientific principles and eliminating the need for trial and error testing

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Related Subjects

Science & Technology
Engineering
Mechanical Engineering & Dynamics
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Science & Technology
Engineering
Mechanical Engineering & Dynamics
Mechanical Engineering - General & Miscellaneous

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