Thermal Spreading and Contact Resistance - (Wiley-Asme Press) by Yuri S Muzychka & M Michael Yovanovich (Hardcover)

About the Book

"Thermal engineering applications involve the process of heat transfer, when energy either enters or leaves a system through a smaller area of contact that can be either perfect or imperfect. If it is perfect, thermal spreading (or constriction) occurs. If it is imperfect, the thermal transport occurs over a much smaller region of real contact within the apparent area of contact. This is contact resistance. It's a phenomenon that is important for engineers to understand for many industry applications in the fields of mechanical, aerospace, chemical, and nuclear engineering, with particularly critical applications in areas like electronics cooling, aerospace systems, and tribology"--

Book Synopsis

Single source reference on how applying thermal spreading and contact resistance can solve problems across a variety of engineering fields

Thermal Spreading and Contact Resistance offers comprehensive coverage of the key information that engineers need to know to understand thermal spreading and contact resistance, including numerous predictive models for determining thermal spreading resistance and contact conductance of mechanical joints and interfaces, plus detailed examples throughout the book.

Written by two of the leading experts in the field, Thermal Spreading and Contact Resistance includes information on:

• Contact conductance, mass transfer, transport from super-hydrophobic surfaces, droplet/surface phase change problems, and tribology applications such as sliding surfaces and roller bearings
• Heat transfer in micro-devices and thermal spreaders, orthotropic systems, and multi-source applications for electronics thermal management applications
• Fundamental principles, thermal spreading in isotropic half-space regions, circular flux tubes and disc spreaders, and rectangular flux channels and compound spreaders
• Systems with non-uniform sink plane conductance, transient spreading resistance, and contact resistance between both non-conforming and conforming rough surfaces

Providing comprehensive coverage of the subject, Thermal Spreading and Contact Resistance is an essential resource for mechanical, aerospace, and chemical engineers working on research in the fields of heat transfer, thermal management of electronics, and tribology, as well as thermal engineers and researchers in the field of thermal physics.

From the Back Cover

Thermal Spreading and Contact Resistance: Fundamentals and Applications

Single source reference on how applying thermal spreading and contact resistance can solve problems across a variety of engineering fields

Thermal Spreading and Contact Resistance: Fundamentals and Applications offers comprehensive coverage of the key information that engineers need to know to understand thermal spreading and contact resistance, including numerous predictive models for determining thermal spreading resistance and contact conductance of mechanical joints and interfaces, plus detailed examples throughout the book.

Written by two of the leading experts in the field, Thermal Spreading and Contact Resistance: Fundamentals and Applications includes information on:

• Contact conductance, mass transfer, transport from super-hydrophobic surfaces, droplet/surface phase change problems, and tribology applications such as sliding surfaces and roller bearings
• Heat transfer in micro-devices and thermal spreaders, orthotropic systems, and multi-source applications for electronics thermal management applications
• Fundamental principles, thermal spreading in isotropic half-space regions, circular flux tubes and disc spreaders, and rectangular flux channels and compound spreaders
• Systems with non-uniform sink plane conductance, transient spreading resistance, and contact resistance between both non-conforming and conforming rough surfaces

Providing comprehensive coverage of the subject, Thermal Spreading and Contact Resistance: Fundamentals and Applications is an essential resource for mechanical, aerospace, and chemical engineers working on research in the fields of heat transfer, thermal management of electronics, and tribology, as well as thermal engineers and researchers in the field of thermal physics.

About the Author

Yuri S. Muzychka is a Professor of Mechanical Engineering at Memorial University of Newfoundland, Canada. He is a Fellow of ASME, CSME, and the Engineering Institute of Canada (EIC) and has published over 250 journal and conference proceedings papers, in addition to three handbook chapters.

M. Michael Yovanovich is a Distinguished Professor Emeritus at the University of Waterloo, Canada. He is a fellow of ASME, CSME, AIAA, AAAS, and RSC. He has published seven handbook chapters and over 350 journal and conference proceedings papers, and has given over 150 keynote lectures.