Theory of dislocations
By: Anderson, Peter Martin.
Contributor(s): Hirth, John Price | Lothe, Jens.
Publisher: Cambridge Cambridge University Press 2017Edition: 3rd.Description: xx, 699p.ISBN: 9780521864367.Subject(s): Dislocations in crystals | Crystals | Crystals -- DefectsDDC classification: 548.842 | An23t3| Item type | Current location | Collection | Call number | Status | Date due | Barcode | Item holds |
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Books
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PK Kelkar Library, IIT Kanpur | General Stacks | 548.842 An23t3 (Browse shelf) | Available | A183221 |
Browsing PK Kelkar Library, IIT Kanpur Shelves , Collection code: General Stacks Close shelf browser
| 548.84 T314 TEXTUREN IN FORSCHUNG UND PRAXIS (TEXTURES IN RESEARCH AND PACTICE) | 548.84082 M564d DIRECT OBSERVATION OF IMPERFECTIONS IN CRYSTALS | 548.84082 M564d DIRECT OBSERVATION OF IMPERFECTIONS IN CRYSTALS | 548.842 An23t3 Theory of dislocations | 548.842 B322 DEFECTS AND TRANSPORT IN OXIDES | 548.842 B87C COMPUTER SIMULATIONS OF DISLOCATIONS | 548.842 C889 CRYSTAL LATTICE DEFECTS AND DISLOCATION DYNAMICS |
Theory of Dislocations provides unparalleled coverage of the fundamentals of dislocation theory, with applications to specific metal and ionic crystals. Rather than citing final results, step-by-step developments are provided to offer an in-depth understanding of the topic. The text provides the solid theoretical foundation for researchers to develop modeling and computational approaches to discrete dislocation plasticity, yet it covers important experimental observations related to the effects of crystal structure, temperature, nucleation mechanisms, and specific systems. This new edition incorporates significant advances in theory, experimental observations of dislocations, and new findings from first principles and atomistic treatments of dislocations. Also included are new discussions on thin films, deformation in nanostructured systems, and connection to crystal plasticity and strain gradient continuum formulations. Several new computer programs and worked problems allow the reader to understand, visualize, and implement dislocation theory concepts.
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