It is nowten yearssince the thirdeditionofMetallicMaterials, andovertwentysincethefirst edition. Overthis periodtheworkhasbeenextensivelyused as acomprehensivesourcebook by all those concerned with the use of engineering materials. Since the third edition, there have been a number of basic changes in the methods of specifyingmaterials. Probablythe mostimportantofwhich is the introductionofthe Unified Numbering System (UNS). These codes are issued in agreement between the Society of AutomotiveEngineers (SAE) and the American SocietyforTestingandMaterials(ASTM), and reflect the acknowledgement of a need for a numbering system with some logic. The UNS codes have been issued to cover all the trade names, codes and specifications used in the US, and cognizance has been takenofcodes used inother areas. The codes have a letter prefix - A for aluminium, C for copper, etc. - followed by a 5 figure code. This refers to a basic analysis and lists US specifications and trade names covered by this analysis. This edition of Metallic Materials lists approximately 4,000 UNS codes and refers the reader either to the basic analysis for this code, or to one of the existing specifications or trade names covered by the code. In this edition steps have been taken to update the trade names and specifications, to eliminate mistakes, and to supply asmuchcontemporaryinformation as possible. Theextent ofthe additions has made it necessary to examine the way that someofthe specifications are known under various designations, and the implicationsofthis examination are explained in the 'How to use this book' section.

This is a book about mechanical failure. The author, Bob Ross, has been working at the forefront of failure investigation and materials problem solving for many years. He has established an international reputation for being able to solve mechanical problems very rapidly and has produced reports which are clear and concise and which have a firm, meaningful conclusion.

This book stems from the American Chemical Society symposium, "Large Scale Molecular Dynamics, Nanoscale, and Mesoscale Modeling and Simulation: Bridging the Gap, " that delved into the latest methodologies and applications for largescale, multiscale, and mesoscale modeling and simulation. It presents real-world applications of simulated and synthesized materials, including organic-, inorganic-, bio-, and nanomaterials, and helps readers determine the best method for their simulation. It gets novices up to speed quickly and helps experienced practitioners discover novel approaches and alternatives.