Nanomaterials by severe plastic deformation; proceedings; 2v.

9780878493753

Nanomaterials by severe plastic deformation; proceedings; 2v.

International Conference on Nanomaterials by Severe Plastic Deformation (4th: 2008: Goslar, Germany) Ed. by Y. Estrin and H. Jurgen Maier.

Trans Tech Publications

2008

602 pages

$434.00

Paperback

Materials science forum; vs.584-6

TA418

This two-volume publication collects 175 peer-reviewed articles from the Fourth International Conference on Nanomaterials by Severe Plastic Deformation, held in August of 2008 in Goslar, Germany. The editors, who believe the proceedings to provide a "pretty representative snapshot of the state of the art in this field of research," present the papers sections devoted to recent advances and commercialization pathways; processing; enhanced plasticity; characterization; steels and light alloys; creep, fatigue, and damage mechanisms; thermal stability and other physical materials; and modeling. Some examples of specific topics include outstanding mechanical properties in materials with a nano/meso hybrid microstructure, influence of reversible hydrogen alloying on nanostructure formation in titanium alloys subjected to severe plastic deformation, nanustructured materials by twist extrusion and high pressure torsion, features of deformation behavior of ultra-fine grained titanium and aluminum alloys under conditions of high strain rate superplasticity, use of ring sample for high-pressure torsion and microstructural evolution with equivalent strain, mechanical behavior of nanocrystalline palladium at high strains and high strain rates, shear induced low- and high-angle boundary characterization using Kikuchi bands in transmission electron microscopy, features of the structure development and the deformation process in zirconium-based alloys under radial forging, activation volume in fine grained metals from stress relaxation and nano-indentation, regularities of deformation and fracture of steels subjected to equal channel angular pressing and thermal processing, and effect of trace impurities on high-cycle fatigue damage of ultrafine copper processed by equal channel angular pressing.

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