Deformation Mechanisms, Microstructure Evolution and Mechanical Properties of Nanoscale Materials
Deformation Mechanisms, Microstructure Evolution and Mechanical Properties of Nanoscale Materials
Ting Zhu , Georgia Institute of Technology
Blythe G. Clark , Sandia National Laboratories, New Mexico
Daniel S. Gianola , University of Pennsylvania
Alfonso H. W. Ngan , The University of Hong Kong
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Symposium P, “Deformation Mechanisms, Microstructure Evolution, and Mechanical Properties of Nanoscale Materials,” was held Nov. 29–Dec. 3 at the 2010 MRS Fall Meeting in Boston, Massachusetts. This resultant volume addresses the topic of materials used in next-generation technological devices. These devices are used for a variety of applications—ranging from biomedical to space to energy-related—and will be subjected to non-ambient temperatures and high stresses and pressures. A variety of advanced nanomaterials and nanoscaled architectures have been proposed to meet these stringent demands. However, a complete understanding of the mechanisms that govern deformation at these scales is still elusive. This volume focuses on providing the state-of-the-art research on the mechanical response of nano- and microscale components that may comprise these devices and highlights emerging topics in novel mechanical testing techniques, in situ microscopy, high- and low-temperature deformation mechanisms, and mechanical property characterization of materials, as well as recent advances in atomistic and multiscale modeling of nanomaterials.
Product details
May 2011Hardback
9781605112749
214 pages
235 × 160 × 17 mm
0.43kg
163 b/w illus. 19 tables
Unavailable - out of print January 2016
Table of Contents
- 1. Nanometer scale mechanical behavior of grain boundaries Kyung-Suk Kim
- 2. Correlation between adhesion strength and thin film/substrate mechanical properties using the nano-scratch technique Bo Zhou
- 3. Bottom-up modeling of the elastic properties of organosilicate glasses and their relation to composition and network defects Jan Knaup
- 4. Evaluation of crack growth retardation effect due to nano-scale voids based on molecular dynamics method Toshihiro Kameda
- 5. Synthetic control over the structure and symmetry of carbon nanotubes: towards biomedical applications Michael Lowry
- 6. A phase-field - finite element model for instabilities in multilayer thin films Mohsen Asle Zaeem
- 7. Interphase energies and nonequilibrium growth of γ-precipitates in Al-Ag: a DFT study Daniel Finkenstadt
- 8. Influence of nanoindenter tip radius on the estimation of the elastic modulus Karim Gadelrab
- 9. Inception of plasticity in the presence of vacancies in FCC single crystals: indenter size effect David Bahr
- 10. NanoLAB triboprobe: characterizing dynamic wear, friction and fatigue at the nanoscale Aiden Lockwood
- 11. Nondeterministic multiscale modeling of biomimetic crack self-healing in nanocrystalline solids under mechanical loading Eduard Karpov
- 12. Deformation mechanisms, microstructure and mechanical properties of nanoscale crystalline and noncrystalline materials in different temperature ranges Yuliy Milman
- 13. Thermo-mechanical behavior at nano scale and size effects in shape memory alloys Jose San Juan
- 14. Nanoscale deformation of MEMS materials Aiden Lockwood
- 15. Pressure-induced nano-crystallization of Y2O3 Stuart Deutsch
- 16. Reaction pathway analysis of homogeneous dislocation nucleation in a perfect molybdenum crystal Hasan Saeed
- 17. Atomistic study of the mechanical properties of metallic-glass nanowires K. Shintani
- 18. Atomistic study of the mechanical stability of multi-layered graphene nanobridges K. Shintani
- 19. In situ spectroscopy and modeling of deformation behavior of nanoscale interfacial materials A. Suzuki
- 20. Micro/nano structure and morphology of multi-phase polymer/oxide composites prepared by powder melt processing Giorgiana Giancola
- 21. Influence of processing conditions on mechanical and structural properties of DLC produced by FIB-CVD method Naomichi Sakamoto
- 22. Effect of Ag content on electrical conductivity and tensile properties of Cu-Ti-Ag alloys Taek-Kyun Jung
- 23. Size effect on bending properties of diamond-like carbon nanopillar fabricated by focused ion-beam assisted chemical vapor deposition Yasuo Kogo
- 24. Density functional theory calculations of properties of the grain boundaries in aluminum Marek Muzyk
- 25. Strengthening effect of twin boundaries in bcc crystal evaluated through a micro-bending test Masato Sone
- 26. Mechanical behavior on micro-compression test in ultra-low carbon steel produced by high pressure torsion Masato Sone
- 27. Characterizing the role of deformation during electrochemical etching of metallic films Anil Kumar
- 28. Modeling the dislocation-void interaction in a dislocation dynamics simulation Sylvain Queyreau
- 29. Nanoindentation-induced deformation near grain boundaries of corrosion resistant nickel alloys William Herbert
- 30. Profiling of the mechanical properties of ultralow-k films using nanoindentation techniques Holm Geisler.
