Reviewing an extensive array of procedures in hot and cold forming, casting, heat treatment, machining, and surface engineering of steel and aluminum, this comprehensive reference explores a vast range of processes relating to metallurgical component design-enhancing the production and the properties of engineered components while reducing manufacturing costs. It surveys the role of computer simulation in alloy design and its impact on material structure and mechanical properties such as fatigue and wear. It also discusses alloy design for various materials, including steel, iron, aluminum, magnesium, titanium, super alloy compositions and copper.
Design principles: basic principles, Henry W. Stoll
Risk-based metallurgical design, Mario Solari. Alloy design: designing with carbon-, low-, and medium-alloy steels, GuoXun Liu
Designing with tool steel, Lin-Jiang Yang and David N. Collins
Designing with high-strength low-alloy steels, Lin Li and Luoping Xu
Designing with stainless steel, Joseph K. Leuk Lai
Designing with microalloyed steels and interstitial-free steels, David V. Edmonds
Cast iron design - processes, alloys and properties, Magnus Wessen and Ingvar L. Svensson
Designing with aluminum alloys, Nack J. Kim
Designing with magnesium - alloys, properties and casting processes, Trevor Abbott and Carlos Caceres
Designing with titanium alloys, Michelle L. McCann and John Fannin
Designing with ni-base alloys, Gerhard E. Fuchs and David U. Furrer
Designing with copper alloys, Morris E. Fine and Junji Miyake
Designing with powder metallurgy alloys, Joseph W. Newkirk and Ronald A. Kohser
Designing with metal matrix alloys, Veikko K. Lindroos, J. Hellman, D. Lou, R. Nowak, E. Pagounis, X. Liu and I. Penttinen.