{"product_id":"defect-structure-in-nanomaterials-paperback-9780081016602","title":"Defect Structure in Nanomaterials (Paperback \/ softback) 9780081016602","description":"\u003cfont face=\"Georgia\"\u003e\r\n\u003cp\u003e\u003cfont size=\"6\"\u003eDefect Structure in Nanomaterials\u003c\/font\u003e\u003cbr\u003e\r\n\r\n\r\n\r\n\r\n\r\n\u003c\/p\u003e\n\u003cp\u003e\u003cfont size=\"4\"\u003eJ Gubicza (Author)\u003c\/font\u003e\u003c\/p\u003e\r\n\r\n\u003cp\u003e\u003cfont size=\"3\"\u003e9780081016602, Elsevier Science\u003c\/font\u003e\u003c\/p\u003e\r\n\r\n\u003cp\u003e\u003cfont size=\"3\"\u003ePaperback \/ softback, published 19 August 2016\u003c\/font\u003e\u003c\/p\u003e\r\n\r\n\u003cp\u003e\u003cfont size=\"3\"\u003e388 pages\u003cbr\u003e23.3 x 15.6 x 2.5 cm, 0.55 kg\u003c\/font\u003e\u003c\/p\u003e\r\n\r\n\r\n\r\n\u003cp align=\"justify\"\u003e\u003cem\u003e\u003cfont size=\"3\"\u003e\"Serves as a useful reference for academics, materials and physics researchers, materials, mechanical and physics engineers, professional in related industries with nanomaterials and nanotechnology.\" \u003cb\u003e--International Journal of Materials Engineering Innovation\u003c\/b\u003e\u003c\/font\u003e\u003c\/em\u003e\u003c\/p\u003e\r\n\r\n\u003cp align=\"justify\"\u003e\u003cstrong\u003e\u003cfont size=\"3\"\u003eNanomaterials exhibit unique mechanical and physical properties compared to their coarse-grained counterparts, and are consequently a major focus of current scientific research. Defect structure in nanomaterials provides a detailed overview of the processing methods, defect structure and defect-related mechanical and physical properties of a wide range of nanomaterials. The book begins with a review of the production methods of nanomaterials, including severe plastic deformation, powder metallurgy and electrodeposition. The lattice defect structures formed during the synthesis of nanomaterials are characterised in detail. Special attention is paid to the lattice defects in low stacking fault energy nanomaterials and metal – carbon nanotube composites. Topics covered in the second part of the book include a discussion of the thermal stability of defect structure in nanomaterials and a study of the influence of lattice defects on mechanical and hydrogen storage properties.\u003c\/font\u003e\u003c\/strong\u003e\u003c\/p\u003e\r\n\r\n\u003cp\u003e\u003cfont size=\"3\"\u003e\u003cp\u003eList of figures\u003c\/p\u003e \u003cp\u003eList of tables\u003c\/p\u003e \u003cp\u003ePreface\u003c\/p\u003e \u003cp\u003eAbout the author\u003c\/p\u003e \u003cp\u003eChapter 1: Processing methods for nanomaterials\u003c\/p\u003e \u003cp\u003eAbstract:\u003c\/p\u003e \u003cp\u003e1.1 Processing of bulk nanomaterials by severe plastic deformation\u003c\/p\u003e \u003cp\u003e1.2 Processing of nanomaterials by powder metallurgy\u003c\/p\u003e \u003cp\u003e1.3 Production of nanomaterials by electrodeposition\u003c\/p\u003e \u003cp\u003e1.4 Nanocrystallisation of bulk amorphous alloys\u003c\/p\u003e \u003cp\u003eChapter 2: Defect structure in bulk nanomaterials processed by severe plastic deformation\u003c\/p\u003e \u003cp\u003eAbstract:\u003c\/p\u003e \u003cp\u003e2.1 Evolution of dislocation structure and grain size during SPD-processing\u003c\/p\u003e \u003cp\u003e2.2 Comparison of defect structures formed by different routes of bulk SPD\u003c\/p\u003e \u003cp\u003e2.3 Maximum dislocation density and minimum grain size achievable by SPD of bulk metallic materials\u003c\/p\u003e \u003cp\u003e2.4 Excess vacancy concentration due to SPD\u003c\/p\u003e \u003cp\u003eChapter 3: Defect structure in low stacking fault energy nanomaterialsm\u003c\/p\u003e \u003cp\u003eAbstract:\u003c\/p\u003e \u003cp\u003e3.1 Effect of low stacking fault energy on cross-slip and climb of dislocations\u003c\/p\u003e \u003cp\u003e3.2 Defect structure developed in SPD-processed low stacking fault energy pure Ag\u003c\/p\u003e \u003cp\u003e3.3 Effect of low stacking fault energy on defect structure in ultrafine-grained alloys\u003c\/p\u003e \u003cp\u003e3.4 Grain-refinement mechanisms in low stacking fault energy alloys\u003c\/p\u003e \u003cp\u003eChapter 4: Defects in nanomaterials processed by powder metallurgy\u003c\/p\u003e \u003cp\u003eAbstract:\u003c\/p\u003e \u003cp\u003e4.1 Development of defect structure during milling\u003c\/p\u003e \u003cp\u003e4.2 Defect structure in nanopowders produced by bottom-up approaches\u003c\/p\u003e \u003cp\u003e4.3 Effect of consolidation conditions on microstructure of sintered metals\u003c\/p\u003e \u003cp\u003e4.4 Defect structure in metals sintered from blends of powders with different particle sizes\u003c\/p\u003e \u003cp\u003e4.5 Evolution of microstructure during consolidation of diamond and ceramic nanopowders\u003c\/p\u003e \u003cp\u003eChapter 5: Correlation between defect structure and mechanical properties of nanocrystalline materials\u003c\/p\u003e \u003cp\u003eAbstract:\u003c\/p\u003e \u003cp\u003e5.1 Effect of grain size on deformation mechanisms in fcc and hcp nanomaterials\u003c\/p\u003e \u003cp\u003e5.2 Breakdown of Hall-Petch behaviour in nanomaterials\u003c\/p\u003e \u003cp\u003e5.3 Correlation between dislocation structure and yield strength of ultrafine-grained fcc metals and alloys processed by severe plastic deformation\u003c\/p\u003e \u003cp\u003e5.4 Defect structure and ductility of nanomaterials\u003c\/p\u003e \u003cp\u003e5.5 Influence of sintering conditions on strength and ductility of consolidated nanomaterials\u003c\/p\u003e \u003cp\u003eMechanical behaviour of materials sintered from blends of powders with different grain sizes\u003c\/p\u003e \u003cp\u003eChapter 6: Defect structure and mechanical properties of metal matrix-carbon nanotube composites\u003c\/p\u003e \u003cp\u003eAbstract:\u003c\/p\u003e \u003cp\u003e6.1 Processing of metal matrix- carbon nanotube composites\u003c\/p\u003e \u003cp\u003e6.2 Morphology of CNTs and porosity in nanotube composites\u003c\/p\u003e \u003cp\u003e6.3 Defect structure of metal-CNT composites\u003c\/p\u003e \u003cp\u003e6.4 Correlation between defect structure and mechanical properties\u003c\/p\u003e \u003cp\u003eChapter 7: Thermal stability of defect structures in nanomaterials\u003c\/p\u003e \u003cp\u003eAbstract:\u003c\/p\u003e \u003cp\u003e7.1 High-temperature thermal stability of nanomaterials\u003c\/p\u003e \u003cp\u003e7.2 Stability of nanostructured Cu during storage at room temperature\u003c\/p\u003e \u003cp\u003e7.3 Self-annealing in nanostructured silver: the significance of a very low stacking fault energy\u003c\/p\u003e \u003cp\u003eChapter 8: Relationship between microstructure and hydrogen storage properties of nanomaterials\u003c\/p\u003e \u003cp\u003eAbstract:\u003c\/p\u003e \u003cp\u003e8.1 Fundamentals of hydrogen storage in solid state materials\u003c\/p\u003e \u003cp\u003e8.2 Microstructure and hydrogen storage in nanomaterials processed by severe plastic deformation\u003c\/p\u003e \u003cp\u003e8.3 Change of defect structure during dehydrogenation-hydrogenation cycles\u003c\/p\u003e \u003cp\u003e8.4 Effect of defects on hydrogen storage properties of carbon nanotubes\u003c\/p\u003e \u003cp\u003eAppendix: characterisation of defect structure by x-ray diffraction line profile analysis\u003c\/p\u003e \u003cp\u003eIndex\u003c\/p\u003e\u003c\/font\u003e\u003c\/p\u003e\r\n\r\n\u003cp\u003e\u003cfont size=\"3\"\u003eSubject Areas: Materials science [\u003ca title=\"See our other books on Materials science\" href=\"https:\/\/freshlyprintedbooks.co.uk\/search?q=%22Materials%20science%20%5BTGM%5D%22\"\u003eTGM\u003c\/a\u003e], Metals technology \/ metallurgy [\u003ca title=\"See our other books on Metals technology \/ metallurgy\" href=\"https:\/\/freshlyprintedbooks.co.uk\/search?q=%22Metals%20technology%20\/%20metallurgy%20%5BTDM%5D%22\"\u003eTDM\u003c\/a\u003e]\u003c\/font\u003e\u003c\/p\u003e\r\n\r\n\r\n\u003c\/font\u003e","brand":"Woodhead Publishing","offers":[{"title":"Default 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