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Kari Santaoja is a Senior University Lecturer emeritus of Mechanical Engineering, Aalto University, Finland. He is a member of the Finnish Association for Structural Mechanics. J. N. Reddy is a Distinguished Professor, Regents Professor, and holder of the O'Donnell Foundation Chair IV of Mechanical Engineering at Texas A & M University. He is internationally recognized for his research and education in applied and computational mechanics, and is the author of several hundred journal articles and twenty-four textbooks, including Finite Element and Finite Volume Methods for Heat Transfer and Fluid Dynamics (Cambridge University Press: 2022); Introduction to Continuum Mechanics (Cambridge University Press: 2013); and Principles of Continuum Mechanics (Cambridge University Press: 2009). He has been awarded The Leonardo da Vinci Award, the IACM (Gauss-Newton) Medal, the ASME Timoshenko Medal, the ASCE Theodore von Karman Medal, and the USACM John von Neumann Medal, among others. He is a member of the US National Academy of Engineering and a foreign member of five other academies.
'An indispensable resource for engineers and researchers alike, Continuum Thermodynamics and Material Modelling by Kari Santaoja and J. N. Reddy navigates the complexities of material behavior with unparalleled clarity. A masterful blend of theory and application, this book is set to redefine the landscape of engineering education. This book is a must-read for those eager to elevate their understanding of engineering principles.' George Z. Voyiadjis, Louisiana State University 'This book accomplishes what few textbooks at its level even attempt: systematically incorporating thermodynamics into continuum mechanics. The authors take special care to connect continuum thermodynamics with thermostatics, which most readers will have encountered through previous study. Detailed analyses of classical material models, such as heat conduction, creep, and fluid mechanics, highlight the utility of the approach.' Myron B. Allen, University of Wyoming 'This is the only book covering continuum mechanics and thermodynamics, or 'continuum thermodynamics,' from the fundamental principles that first-year graduate students can understand. This is essential for students and scientists researching fatigue and damage modelling. Chapters 6, 7, and 8 cover continuum thermodynamics fundamentals. The application of continuum thermodynamics is discussed in Chapters 9, 10, and 11. Hence, I strongly recommend this book for the graduate mechanics curriculum as an essential book.' Sameer B. Mulani, University of Alabama 'This book provides a bridge from standard continuum mechanics to the state of the art in material modeling theory. Without compromising on pedagogy, the authors skillfully introduce the concepts and historical motivations of non-equilibrium thermodynamics in the context of material modelling. The detailed derivations and broad scope of applications - ranging from damage mechanics to fluids - make this text a valuable resource for the novice as well as the experienced practitioner.' Brandon Runnels, Iowa State University
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