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Mechanical Engineering Materials is a classic reference for junior and senior mechanical engineering students in the U.S. and elsewhere with a need to understand materials science for their design work, or who want an introduction to the subject before taking graduate-level mechanical engineering courses. It is also recommended as background reading material for metallurgical engineering courses, ceramics courses, and chemistry of materials courses. The vast majority of mechanical engineering students at American universities study mechanical engineering using Computer-Aided Engineering (CAE) techniques. They use computer programs such as ANSYS, MSC.Marc, and SAP to model and simulate their designs before fabrication. CAE allows students to design the product and then test it virtually in a computer environment that mimics real-world physics and materials behavior. The mechanical engineer who needs to know the physical properties of materials needs a quick reference to the properties of specific metals or alloys used in common applications such as steels and aluminum alloys used for structural design components. The mechanical engineer may also need to know the properties of new materials or of special composites of new materials. Mechanical Engineering Materials is the leading reference for this use. The "Encyclopedia" format allows the user, whether an engineering student or an experienced design engineer, to find material properties quickly and easily by one of three methods: (1) Alphabetical listing of all metals, concrete, minerals, composites, ceramics; (2) Alphabetical listing of all properties; or (3) Table format corresponding to the properties for each material type. The "Encyclopedia" format with both alphabetical listing of all materials with Alphabetical listings of all properties is the only one that allows the customer to find material properties without first performing a keyword search. Note that material tables are used to convey the properties of an entire family of materials, not just specific examples. The table format differs from the encyclopedia format because there is more than one value for each property of an individual material or alloy. For example, carbon steel has three different austenite phases (martensite, bainite, and ferrite) and three different microstructures (spheroidizing, pearlite, and martensitic). Each phase has its own microstructure temperatures and hardness values. Mechanical Engineering Materials gives the properties of each phase and microstructure in a single table. Indices to the properties in the tables are provided and allow easy access and rapid referencing. The figures and tables in Mechanical Engineering Materials illustrate precisely how to use the properties data. eccc085e13