Microindentation Techniques in Materials Science and Engineering: A Symposium Sponsored by ASTM Committee E-4 on Metallography and by the International Metallographic Society, Philadelphia, PA, 15-18 July 1984 |
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Contents
Introduction | 2 |
Indentation of Brittle Materialsdavid b Marshall | 26 |
Characterization of Submicrometre Surface Layers by Indentation | 47 |
Vickers Indentation Curves of Elastoplastic Materials | 72 |
Measurement of Hardness at Indentation Depths as Low | 90 |
Dislocation Aspects of Plastic Flow and Cracking at Indentations | 109 |
Some Cautionary | 129 |
Use of the Indentation Size Effect on Microhardness for Materials | 160 |
Use of the Scanning Electron Microscope in Microhardness Testing | 196 |
Applications of Microindentation Methods in Tribology Research | 209 |
Review of Scratch Test Studies of Abrasion Mechanisms | 227 |
Microindentation Hardness Measurements on Metal Powder | 243 |
Indentation Hardness of SurfaceCoated Materialsolof vingsbo | 257 |
Indentation Test for PolymerFilmCoated Computer Board | 272 |
Knoop Microhardness Testing of Paint Filmswalter w walker | 286 |
| 298 | |
Other editions - View all
Microindentation Techniques in Materials Science and Engineering: A ... P. J. Blau No preview available - 1986 |
Common terms and phrases
abrasive particles alloy American Society annealed applied load ASTM ASTM International behavior brittle calculated carbide ceramics coating copper crack decreases dentation diameter diamond dislocation displacement effect elastic recovery elastic-plastic elastoplastic electrodeposited electropolished experimental film fixed-depth fracture friction geometry hardening hardness number hardness tester hardness values increase indentation creep indentation depth indentation diagonal indentation hardness Ion Implantation Journal of Materials Knoop indentations Kosel layer Materials Science mechanical Metals microhardness microindentation hardness testing Microindentation Techniques microscope microstructure modulus mounting materials Mulhearn nickel observed obtained occurs optical parameters plane plastic deformation polished powder particles pressure produced pyramidal indenter quartz range ratio scanning electron microscope scratch tests shear shown in Fig shows silicon single crystals solids specimen stainless steel standard strain substrate surface Tabor tensile stress test block thickness tion tool tribology Vickers indentation wear work-hardened yield stress Young's modulus
Bibliographic information
| Title | Microindentation Techniques in Materials Science and Engineering: A Symposium Sponsored by ASTM Committee E-4 on Metallography and by the International Metallographic Society, Philadelphia, PA, 15-18 July 1984 ASTM STP 889 Issue 889 of ASTM special technical publication, ISSN 0066-0558 Volume 889 of American Society for Testing and Materials: ASTM special technical publication Journal of ASTM International: Selected technical papers STP 889 |
| Author | P. J. Blau |
| Editors | P. J. Blau, Brian R. Lawn |
| Contributor | American Society for Testing and Materials. Committee E-4 on Metallography |
| Edition | illustrated |
| Publisher | ASTM International, 1986 |
| ISBN | 0803104413, 9780803104419 |
| Length | 303 pages |
| Subjects | › Technology & Engineering / General |
| Export Citation | BiBTeX EndNote RefMan |