The current understanding of the fundamentals of recrystallization is summarized. This includes understanding the as-deformed state. Several aspects of recrystallization are described: nucleation and growth, the development of misorientation during deformation, continuous, dynamic, and geometric dynamic recrystallization, particle effects, and texture. This article is authored by the leading experts in these areas. The subjects are discussed individually and recommendations for further study are listed in the final section.

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Current issues in recrystallization: a review

A review of dynamic recrystallization phenomena in metallic materials

This paper presents an overview of duplex stainless steels (DSS) with particular emphasis on super DSS, i.e. steels containing sufficient amounts of chromium, molybdenum, and nitrogen to produce a pitting resistance equivalent greater than 40. Duplex stainless steels have an attractive combination of mechanical and corrosion properties and are thus suitable for many marine and petrochemical applications, particularly where chlorides are present. The paper covers the following aspects of DSS: physical metallurgy, mechanical properties, corrosion properties, metallurgy of welding, machinability, and applications. A large number of references to the literature are given to aid the reader who is interested in acquiring a deeper understanding of the behaviour of this family of steels.MST/1685

Super duplex stainless steels

Precipitation hardening has long been used to increase the strength of commercial alloys, such as quenched and tempered steels and the duralumin type aluminium alloys. The theoretical treatments of precipitation hardening are briefly considered. The equations for strengthening by ‘hard’ indeformable particles and by ‘soft’ deformable particles are presented, and the implications are discussed. These lead to the concept of an optimum particle size for a given system, but the optimum can vary from system to system depending upon the particle characteristics. A broad comparison is made between the increments in strength that occur due to precipitation in commercial alloys and the predictions of the theories; an important contribution to these increments in strength is shown to derive from variations in the volume fraction of precipitated particles that can be employed in the various systems.

Precipitation hardening in metals

Metal matrix composites reinforced by nano-particles are very promising materials, suitable for a large number of applications. These composites consist of a metal matrix filled with nano-particles featuring physical and mechanical properties very different from those of the matrix. The nano-particles can improve the base material in terms of wear resistance, damping properties and mechanical strength. Different kinds of metals, predominantly Al, Mg and Cu, have been employed for the production of composites reinforced by nano-ceramic particles such as carbides, nitrides, oxides as well as carbon nanotubes. The main issue of concern for the synthesis of these materials consists in the low wettability of the reinforcement phase by the molten metal, which does not allow the synthesis by conventional casting methods. Several alternative routes have been presented in literature for the production of nano-composites. This work is aimed at reviewing the most important manufacturing techniques used for the synthesis of bulk metal matrix nanocomposites. Moreover, the strengthening mechanisms responsible for the improvement of mechanical properties of nano-reinforced metal matrix composites have been reviewed and the main potential applications of this new class of materials are envisaged.

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Metal Matrix Composites Reinforced by Nano-Particles—A Review

Modern Physical Metallurgy describes, in a very readable form, the fundamental principles of physical metallurgy and the basic techniques for assessing microstructure This book enables you to understand the properties and applications of metals and alloys at a deeper level than that provided in an introductory materials course The eighth edition of this classic text has been updated to provide a balanced coverage of properties, characterization, phase transformations, crystal structure, and corrosion not available in other texts, and includes updated illustrations along with extensive new real-world examples and homework problems It offers renowned coverage of metals and alloys from one of the world's leading metallurgy educators It covers new materials characterization techniques, including scanning tunneling microscopy (STM), atomic force microscopy (AFM), and nanoindentation It provides the most thorough coverage of characterization, mechanical properties, surface engineering and corrosion of any textbook in its field It includes new worked examples with real-world applications, case studies, extensive homework exercises, and a full online solutions manual and image bank

Modern physical metallurgy

Structure and bonding of atoms Atomic arrangements in materials Structural phases their formation and transitions Defects in solids Characterisation of materials Physical properties of materials Mechanical behaviour of materials Strengthening and toughening Modern alloy developments Ceramics and glasses Plastics and composites Corrosion and surface engineering Biomaterials Materials for sports Guide to SI Units Conversion factors constants and physical data.

Modern physical metallurgy and materials engineering : science, process, applications

Physical Metallurgy and Advanced Materials is the latest edition of the classic book previously published as Modern Physical Metallurgy & Materials Engineering. Fully revised and expanded, this new edition develops on its predecessor by including detailed coverage of the latest topics in metallurgy and material science. Intended for senior undergraduates and graduate students it emphasises the science, production and applications of engineering materials, and is suitable for all post-introductory materials science courses. Key Features: * Renowned coverage of metals and alloys, plus other materials classes including ceramics and polymers. *Updated coverage of sports materials, biomaterials and nanomaterials. *Covers new materials characterization techniques, including scanning tunneling microscopy (STM), atomic force microscopy (AFM), and nanoindentation. *Easy to navigate with contents split into logical groupings: fundamentals, metals and alloys, nonmetals, processing and applications. *Detailed worked examples with real-world applications. *Rich pedagogy includes extensive homework exercises, lecture slides and full online solutions manual (coming).

Physical metallurgy and advanced materials

The formation of deformation banding has been studied theoretically. The formulated condition of banding predicts that the number of bands per grain is proportional to the square root of grain size and the number of bands in a banded grain remains constant as strain increases. It is also predicted that banding can occur as early as plastic deformation begins. Another implication of the analysis is that deformation banding is more prominent when dynamic recovery occurs. These results agree well with the existing experimental data.

A theory of deformation banding in cold rolling

Structure and bonding of atoms atomic arrangements in materials structural phases - their formation and transitions defects in solids characterisation of materials the physical properties of materials mechanical behaviour of materials strengthening and toughening modern alloy developments ceramics and glasses plastics and composites corrosion and surface engineering SI units conversion factors constants and physical data.

R.E. Smallman

Papers

Modern physical metallurgy

Modern physical metallurgy and materials engineering : science, process, applications

Physical metallurgy and advanced materials

A theory of deformation banding in cold rolling

Metals and materials : science, processes, applications