Practical Induction Heat TreatingAnnotation Writing for the floor personnel of induction heat treating facilities, Haimbaugh (personnel trainer, Induction Heat Training Corp.) ties in the metallurgy, theory and practice of commercial induction heat treating. After explanations of basic theory, chapters deal with production aspects of induction, review and present a process of analysis of applications, discuss standards and inspection, explains the identification and resolution of problems found with induction hardened parts, and explores quality control and maintenance. Annotation copyrighted by Book News, Inc., Portland, OR. |
Contents
| 1 | |
| 5 | |
| 19 | |
| 20 | |
| 27 | |
Induction Coils | 43 |
Heat Treating Basics | 75 |
Quenching | 121 |
Induction Heat Treating Process Analysis | 183 |
Standards and Inspection | 215 |
Nonconforming Product and Process Problems | 235 |
Quality Control | 249 |
Maintenance | 261 |
Metallurgical Definitions for Induction Heat Treating | 267 |
Scan Hardening | 279 |
Induction Coil Design and Fabrication | 283 |
Tempering | 137 |
Cleaning and Rust Protection | 149 |
Decarburization and Defects | 151 |
Applications of Induction Heat Treatment | 165 |
Quench System Design | 299 |
Induction Tempering | 307 |
Tempering Curves | 311 |
Hardenability Curves | 315 |
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Common terms and phrases
2001 ASM International applications as-quenched ASM International ASTM austenite austenitizing temperature bainite carbide carbon content carbon steels cementite coil design cooling rate cooling water Curie temperature Curve decarburization diameter effect efficiency electrical eutectoid ferrite Figure fixtures flow flux concentrators flux field furnace gear Haimbaugh heat cycle heat station Heat Treating Process Heat Treating Richard Heat Treating Systems heat treatment high frequency higher holes increase induction coil induction hardening Induction Heat Treating induction tempering induction-hardened inspection iron load machined martensite material needed Nondestructive Testing operating oscillator output power overheating pattern pearlite polymer power density power supply Practical Induction Heat produce quench cracks quench ring quench system quenchant range reference depth residual stresses scanning selection shafts shown in Fig shows single-shot Single-turn solid-state power supplies Source specific surface hardness Table tempering temperature testing tion transformation tube types voltage workpiece www.asminternational.org