04379nam 2200613Ia 450 991096849050332120251116221811.01-62708-284-01-61503-098-0(CKB)2560000000050624(EBL)3002367(SSID)ssj0000484299(PQKBManifestationID)11281320(PQKBTitleCode)TC0000484299(PQKBWorkID)10594690(PQKB)11719305(Au-PeEL)EBL3002367(CaPaEBR)ebr10320360(OCoLC)729361522(MiAaPQ)EBC3002367(BIP)25498617(EXLCZ)99256000000005062420080206d2008 uy 0engur|n|---|||||txtccrFailure analysis of heat treated steel components /editors, L.C.F. Canale, R.A. Mesquita, G.E. Totten1st ed.Materials Park, OH ASM International20081 online resource (ix, 650 p.) illDescription based upon print version of record.0-87170-868-X Includes bibliographical references and index.""Contents""; ""Preface""; ""Component Design""; ""Overview of the Mechanisms of Failure in Heat Treated Steel Components""; ""Mechanisms and Causes of Failures in Heat Treated Steel Parts""; ""General Aspects of Failure Analysis""; ""Failure in Steel Forging""; ""Failures from the Casting Process""; ""Sources of Failures in Carburized and Carbonitrided Components""; ""Fatigue Fracture of Nitrided Layers""; ""Steel Heat Treatment Failures due to Quenching""; ""Steel Failures due to Tempering and Isothermal Heat Treatment""; ""Failure Analysis in Tool Steels""""Case Studies of Steel Component Failures in Aerospace Applications""""Failure Analysis of Powder Metal Steel Components""; ""Induction Hardening""; ""Failure Analysis of Steel Welds""; ""Metric Conversion Guide""; ""Temperature Conversion Table""; ""Steel Hardness Conversions""; ""Austenitizing Temperatures for Steels""; ""Temper Colors for Steels""; ""Physical Properties of Carbon and Low- Alloy Steels""; ""AISI to Non-AISI Steel Cross Reference""; ""Non-AISI to AISI Steel Cross Reference""; ""Iron-Carbon Equilibrium Diagram""; ""Isothermal Diagrams of Selected Steels""""Continuous Cooling Diagrams of Selected Steels""""Index""This thorough reference work discusses various causes of failure with integrated coverage of process metallurgy of steels by forging, casting, welding, and various heat treatment processes. The breadth of coverage and the numerous examples provide an invaluable resource for the designer, engineer, metallurgist, mechanical and materials engineers, quality control technicians, and heat treaters. Potential failures of heat treated steel are detailed to help identify cause in preventing future occurrence and improving reliability of heat treating process and part performance. With a detailed focus on steel failures, this work can help identify root causes of failure, even if a thermal process is not specifically being considered as cause. Potential failures are covered with respect to design, material composition, component production, and thermal processing. Beginning with design aspects of component failure, chapters are devoted to several aspects of steel manufacturing including casting, forging or powder metallurgy in addition to heat treating operations. Topics include production problems such as porosity, flaws, and surface defect that may influence failures occurring during subsequent heat treatment or during use. Many examples of heat treatment failures are provided with special focus on the demands of tool steels and aerospace materials.SteelFractureSteelHeat treatmentSteelFracture.SteelHeat treatment.672.36Canale Lauralice de Campos Franceschini1180012Mesquita R. A(Rafael Agnelli)940018Totten George E229340MiAaPQMiAaPQMiAaPQBOOK9910968490503321Failure analysis of heat treated steel components4481705UNINA