Computational Technologies in Materials Science (e-bog) af -
Davim, J. Paulo (redaktør)

Computational Technologies in Materials Science e-bog

436,85 DKK (inkl. moms 546,06 DKK)
Advanced materials are essential for economic security and human well-being, with applications in industries aimed at addressing challenges in clean energy, national security, and human welfare. Yet, it can take years to move a material to the market after its initial discovery. Computational techniques have accelerated the exploration and development of materials, offering the chance to move n...
E-bog 436,85 DKK
Forfattere Davim, J. Paulo (redaktør)
Forlag CRC Press
Udgivet 6 oktober 2021
Længde 238 sider
Genrer Physics
Sprog English
Format epub
Beskyttelse LCP
ISBN 9781000459838
Advanced materials are essential for economic security and human well-being, with applications in industries aimed at addressing challenges in clean energy, national security, and human welfare. Yet, it can take years to move a material to the market after its initial discovery. Computational techniques have accelerated the exploration and development of materials, offering the chance to move new materials to the market quickly. Computational Technologies in Materials Science addresses topics related to AI, machine learning, deep learning, and cloud computing in materials science. It explores characterization and fabrication of materials, machine-learning-based models, and computational intelligence for the synthesis and identification of materials. This booka Covers material testing and development using computational intelligence Highlights the technologies to integrate computational intelligence and materials science Details case studies and detailed applications Investigates challenges in developing and using computational intelligence in materials science Analyzes historic changes that are taking place in designing materials.a This book encourages material researchers and academics to develop novel theories and sustainable computational techniques and explores the potential for computational intelligence to replace traditional materials research.