Fundamentals of Nanoindentation and Nanotribology II: Symposium Held November 28-30, 2000, Boston, Massachusetts, U.S.A
, by Baker, Shefford P.; Cook, Robert F.; Corcoran, Sean G.; Moody, Neville R.
- ISBN: 9781558995598 | 1558995595
- Cover: Hardcover
- Copyright: 6/1/2001
| Preface | p. xi |
| Acknowledgments | p. xiii |
| Materials Research Society Symposium Proceedings | p. xiv |
| Modeling and Simulations | |
| A Scaling Approach to Modeling Indentation Measurements | p. Q1.1 |
| Finite Element Modeling of Nanoindentation Measurements of Crystalline and Amorphous Si | p. Q1.2 |
| A Finite Element Study on the Nanoindentation of Thin Films | p. Q1.3 |
| Load-Displacement Behavior During Sharp Indentation of Viscous-Elastic-Plastic Materials | p. Q1.5 |
| Scanning Probe Methods | |
| Shear Modulation Force Microscopy Studies on Cross-Linked Elastomer Thin Films | p. Q2.2 |
| Thermomechanical Formation and Thermal Sensing of Nanometer-Scale Indentations in PMMA Thin Films for Parallel and Dense AFM Data Storage | p. Q2.3 |
| New Methods | |
| Sub-Micrometer Spatially Resolved Measurements of Mechanical Properties and Correlation to Microstructure and Composition | p. Q3.2 |
| On the Measurement of Stress-Strain Curves by Spherical Indentation | p. Q3.4 |
| Modulus Determination of Polymer Matrix Composites: Comparison of Nanoindentation and Dynamic Mechanical Analysis | p. Q3.5 |
| Determination of the Real Indenter Shape for Nanoindentation/Nanotribology Tests by Surface Metrological and Analytical Investigations | p. Q3.6 |
| 3D FIB and AFM Mapping of Nanoindentation Zones | p. Q3.7 |
| Three-Dimensional Contact Mechanics Studies of ZDOL Hard Disk Lubricants | p. Q3.9 |
| Deformation and Deformation Mechanisms | |
| Film Fracture Phenomena During Indentation | p. Q4.2 |
| Probing the Critical Stress Intensity Factor for Slip Transfer Across Grain Boundaries by Subgranular Indentation | p. Q4.10 |
| Deformation and Deformation Mechanisms II | |
| Dislocation Configurations Around Nanoindentations in Reconstructed Au(001) | p. Q5.2 |
| Microstructure and Mechanical Properties of Electroplated Cu Thin Films | p. Q5.3 |
| Mechanical Properties of As-Grown and Ion-Beam-Modified GaN Films | p. Q5.5 |
| Adhesion | |
| Adhesion Quantification of Post-CMP Copper to Amorphous SiN Passivation by Nanoindentation | p. Q6.1 |
| Adhesive Failure of a Thin Epoxy Film on an Aluminized Substrate | p. Q6.3 |
| Epoxy/Aluminum Adhesion as Measured by Contact Mechanics (JKR) in the Presence of an Organic Contaminant | p. Q6.4 |
| Adhesion of a Rigid Cylinder to an Incompressible Film | p. Q6.5 |
| Nanoindentation and Nanotribology | |
| The Effects of Creep on Elastic Modulus Measurement Using Nanoindentation | p. Q7.1 |
| Nanoindentation Evaluation of Brittle Films on Metals | p. Q7.6 |
| 3D Mapping of Subsurface Cracks in Alumina Using FIB | p. Q7.7 |
| Spherical Indentation and Flow Property Measurement-Finite Element Simulation | p. Q7.9 |
| Nanoindentation of Poly(methyl methacrylate) | p. Q7.10 |
| Correlation of Nanoindentation and Conventional Mechanical Property Measurements | p. Q7.11 |
| Mechanism of Al-Cu-Fe Quasicrystal Plastic Deformation Studied by Instrumented Sharp Indentation | p. Q7.12 |
| Plastic Zone Development Around Nanoindentations | p. Q7.14 |
| Determining the Area Function of Spherical Indenters for Nanoindentation | p. Q7.17 |
| Nanoscratch Deformation Response of Carbon Nitride Thin Films | p. Q7.19 |
| Effect of Film Thickness on the Nanoindentation Measurements of Hard Diamondlike Carbon Films Prepared by Pulsed Laser Deposition | p. Q7.20 |
| Nanoindentation Measurements of Mechanical Properties of Polystyrene Thin Films | p. Q7.21 |
| Nanoindentation of Pressure Quenched Fullerenes and Zirconium Metal From a Diamond Anvil Cell | p. Q7.24 |
| Limits of Strength in Indentation | |
| Physical Origin of a Size Effect in Nanoindentation | p. Q8.4 |
| Effect of Surface Steps on Dislocation Structure During Nanoindentation | p. Q8.8 |
| Identification of Pressure-Induced Phase Transformation Using Nanoindentation | p. Q8.9 |
| Mechanical Deformation of Crystalline Silicon During Nanoindentation | p. Q8.10 |
| An Assessment of the Mechanical Strengths of Aluminide-Based Thin Coatings | p. Q8.11 |
| Nanotribology | |
| Fundamental Aspects of Friction and Wear Contacts in W[left angle bracket]100[right angle bracket] Surfaces | p. Q9.1 |
| Nanomechanics Using an Ultra-Small Amplitude AFM | p. Q9.2 |
| Influence of Tipradius and Substrate on the Nanotribological Characterization of Thin DLC Coatings | p. Q9.3 |
| Computational Nanotribology: SAMs for MEMS | p. Q9.5 |
| Author Index | |
| Subject Index | |
| Table of Contents provided by Syndetics. All Rights Reserved. |
What is included with this book?
The New copy of this book will include any supplemental materials advertised. Please check the title of the book to determine if it should include any access cards, study guides, lab manuals, CDs, etc.
The Used, Rental and eBook copies of this book are not guaranteed to include any supplemental materials. Typically, only the book itself is included. This is true even if the title states it includes any access cards, study guides, lab manuals, CDs, etc.
Please wait while the item is added to your bag...
