FREE SHIPPING BOTH WAYS
ON EVERY ORDER!
LIST PRICE:
$115.00

OUR PRICE:
$91.08

You may extend rentals at any time.


Mechanical Behavior at Small Scalls-Experiments and Modeling: Volume 1224

ISBN: 9781605111971 | 160511197X
Format: Hardcover
Publisher: Cambridge Univ Pr
Pub. Date: 9/30/2010

Why Rent from Knetbooks?

Because Knetbooks knows college students. Our rental program is designed to save you time and money. Whether you need a textbook for a semester, quarter or even a summer session, we have an option for you. Simply select a rental period, enter your information and your book will be on its way!

Top 5 reasons to order all your textbooks from Knetbooks:

  • We have the lowest prices on thousands of popular textbooks
  • Free shipping both ways on ALL orders
  • Most orders ship within 48 hours
  • Need your book longer than expected? Extending your rental is simple
  • Our customer support team is always here to help
This book combines the proceedings of Mechanical Behavior of Nanomaterials - Experiments and Modeling, and Plasticity in Confined Volumes - Modeling and Experiments. These two symposia brought together researchers to exchange ideas about the mechanical behavior of materials where size, be it microstructural or geometric, plays an important role. Firstly it focuses on understanding the mechanical behavior of nanostructured materials, such as nanoscale thin films, nanowires, nanotubes, and nanoparticles, as well as nanoporous, nanograined and nanotwinned materials. Such materials with submicron length scales are important building blocks for next-generation functional devices and materials systems. The second focus is on understanding how micron and submicron external and internal microstructural-length scales play a defining role in the strength and ductility of a material. Modern simulation methods have revealed a diverse range of atomic and mesoscale processes that can contribute to the emergent plasticity of such complex materials. Topics include: nanostructured materials; polymers and composites; simulations and modeling and microcompression and nanoindentation.


Please wait while this item is added to your cart...