Books by Keyword: Equal-Channel Angular Pressing (ECAP)

Description: Interest in the phenomenon of superplasticity has been increasing steadily, both from the viewpoint of fundamental scientific understanding as well as of industrial application. The scope of superplasticity has also broadened materials-wise, and now includes, in addition to metals: intermetallics, ceramics, bulk metallic glasses, nanostructured materials and composites. The objective of this special collection was to provide an international forum through which to gather up-to-date knowledge and information on a wide range of topics and to encourage further developments in superplasticity. Over 64 peer-reviewed papers have been selected for publication.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The volume is divided into the following chapters: Mechanisms of Superplasticity, Superplastic Materials, Design, Testing and Modelling, Processing, Industrial Applications. Altogether, the contents constitute a timely and invaluable guide to the state-of-the-art of superplasticity.

Description: The development of specific textures in materials occurs either naturally or by synthesis and processing using various methods. The presence of textures in materials manifests itself in the form of anisotropic properties; the understanding of which is indispensable to precise engineering design. In addition to conventional applications in structural materials, texture control has come to be practised in the form of functional materials. This collection is an edited version of papers presented at the sixteenth international conference on the textures of materials (ICOTOM 16), held at the Indian Institute of Technology in Mumbai, India on December 12-17th, 2011.
The proceedings are broadly divided into six sections; the first being a collection of keynote lectures, followed by papers classified under Deformation, Deformation and Annealing, Techniques, Annealing and Materials.
Volume is indexed by Thomson Reuters CPCI-S (WoS).

Description: Volume is indexed by Thomson Reuters BCI (WoS).
Bulk nanostructured (NS) materials have emerged as a new class of materials having unusual structures and properties. As a result, they have attracted considerable attention in recent years. Bulk NS materials are single or multi-phase polycrystals with a nanoscale grain size and can usually be classified into nanocrystalline (<100nm) and ultrafine grain (<1000nm) materials. This book contains important papers on the mechanical properties and deformation mechanisms of bulk NS materials. The advanced properties include strength, ductility, strain-hardening, fatigue, dynamic, creep and toughness, etc. These properties are important for the ultimate structural applications of bulk NS materials. The mechanical properties of these materials are determined by their specific deformation mechanisms (such as boundary-dominated deformation) due to the very small grain size in comparison with coarse-grained counterparts. The 20 invited papers is divided between two chapters: I. Advanced Mechanical Properties of Nanostructured Materials - II. Deformation Mechanisms of Bulk Nanostructured Materials. This work should be read by all of those wishing to improve mechanical properties without having to consider entirely new alloys.

Description: The deformation-processing of advanced materials having ultrafine- or nano-structures, and therefore significantly improved properties, has developed into one of the most promising frontiers of materials science and technology. The present 35 peer-reviewed papers cover many aspects of Nanomaterials and Plastic Deformation and will provide a succinct introduction to the subject.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
The 200 peer-reviewed articles in this “Nanomaterials by Severe Plastic Deformation” special collection are a convincing demonstration of the relevance of bulk ultrafine grained and nanostructured materials, produced by severe plastic deformation, to a wide range of researchers and engineers., The total number of articles in this edition, larger than that in the 2008 edition, shows that this community is, in fact, growing. The coverage includes all aspects of NanoSPD: Principles of SPD Processing, Microstructural Evolution and Grain Refinement, Mechanical Properties of SPD Materials, Functional and other Properties of SPD Materials, Innovation and Applications.

Description: The great majority of solid-state materials – natural as well as man-made ones – have a polycrystalline structure. They consist of crystallites having various sizes, shapes and crystallographic orientations. Because of the anisotropy of crystal properties, the material as a whole may also be anisotropic if the orientation distribution of the crystallites is not random. Furthermore, because of the differently oriented anisotropies of neighbouring crystals, the material is also micro-inhomogeneous. Macroscopic anisotropy and micro-inhomogeneity are thus fundamental properties of all polycrystalline materials. Therefore, the study of preferred crystal orientations, or crystallographic texture, is of major interest in research and industrial applications. Analysis of the crystal texture is now a well-established tool for quality control and failure analysis in industry, as well as in academic research, because of the ready availability of commercial equipment and refined computer programs.

Description: Advanced Materials and Processing are important areas of research in Engineering Science and Technology, and require a critical focus on bridging the gap between researchers and engineers. Advanced materials and processing play an increasingly important role in the global economy and in daily life. Researchers and engineers strive to develop new devices and processes, using mathematical and analytical tools to create technologies to handle the rapidly expanding range of materials and manufacturing processes. The Advances in Materials and Processing Technologies conference series creates a stimulating environment for the research collaboration of scholars at the local, national and international levels, contributes to the collective development of a knowledge-based society and economy.

Description: Volume is indexed by Thomson Reuters BCI (WoS).
Strength and ductility are two of the most important mechanical properties of structural materials, but this usually involves a trade-off, because of the fundamental inverse proportionality of these two features. Since the 1980s, bulk nanostructured materials have emerged as a new class of material having unusual structures and, as a result, have attracted increasing attention. Unfortunately, most bulk nanostructured materials still do not evade the strength-ductility trade-off dilemma, and usually have very poor ductility. The poor ductility of bulk nanostructured materials has indeed become a seemingly insurmountable obstacle to the widespread technological application of structural bulk nanostructured materials.

Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
This collection comprises state-of-the-art papers written by scientists and research groups working in fields encompassing metals and alloys, silicates, polymers and composites.

Description: Nanostructured materials, in which the structural features (e.g., grains and/or domains separated by low-angle grain boundaries) are smaller than 100nm in at least one dimension, have attracted worldwide research interest for more than a decade because of their unique properties. For example, the combination of high strength with high ductility has been reported for some nanostructured metals and alloys: this is a rare, if not impossible, combination of mechanical properties for coarse-grained metals and alloys. Among the many techniques available for producing nanostructured materials, severe plastic deformation (SPD) is the most popular and most rapidly developing one.