这本全新的ASM手册为设计、制造和材料工程师提供了有关感应加热和热处理技术和应用的实用而全面的参考。本书为从业者、学生、工程师和科学家提供了更清楚地理解和获得他们每天遇到的典型感应加热问题的解决方案的知识。这本书延续了ATAM手册系列的传统，提供了实践知识的独特组合- 使用图表、技术程序、指南和良好实践，并具有先进的理论知识，强调与替代技术相比，诱导过程的特殊性。大量材料用于实践方面，包括标准和定制感应设备的审查。特别注意描述质量保证、过程监控、维护和安全程序、能源和环境方面，包括磁场暴露的控制和国际标准和法规的审查。 本卷涵盖感应加热和热处理技术及应用的广度和重要性。首先回顾与感应加热相关的电气、电磁、传热和材料科学基础知识，以及与该技术相关的关键方面，如:相变的非平衡性质以及与感应淬火、回火、应力消除的具体细节相关的其他冶金微妙之处，热加工和熔化前的加热。 审查ASTM和SAE标准和指南，以正确测量硬度层深度和热影响区。以及与不同硬度测量技术相关的问题和复杂性。关键工艺参数和电感器类型的选择、热模式控制、磁通集中器的使用、淬火设计的微妙之处，以及对常见误解和错误假设的审查和解释。残余应力和瞬态应力的形成及其对热处理部件性能的影响。 在热加工和热加工之前加热碳钢、合金钢、超级合金、钛、铝和铜合金及其他材料的温度要求。加热钢坯、棒材、管材、棒材和其他金属工件的新技术发展。基于各种技术标准、现实生活约束和成本函数获得最佳过程控制算法的优化程序和策略。

ThisALL NEWASM Handbookgives design, manufacturing, and material engineers a practical and comprehensive reference on the technologies and applications of induction heating and heat treatment. this book provides practitioners, students, engineers, and scientists the knowledge to more clearly understand and obtain solutions for typical induction heating problems that they encounter on an everyday basis.Continuing in the tradition of theASM Handbookseries, this Volume provides a unique combination of practical knowledge grasping ready-to-use diagrams, technical procedures, guidelines, and good practices with advanced theoretical knowledge emphasizing onspecificsof induction processes compared to alternative technologies. An appreciable amount of material is devoted to practical aspects, including review of standard and customized induction equipment. Special attention is paid to describing quality assurance, process monitoring, maintenance and safety procedures, energy and environmental aspects, including control of magnetic field exposure and review of international standards and regulations.This volume covers the breadth and significance of induction heating and heat-treatment technologies and applications. Beginning with reviewing electrical, electromagnetic, heat transfer and material science fundamentals related to induction heating, along with coverage of critical facets associated with this technology such as:Nonequilibrium nature of phase transformation and other metallurgical subtleties related to the specifics of induction hardening, tempering, stress relieving, heating prior to hot working and melting.Review of ASTM and SAE standards and guidelines in proper measuring of hardness case depth and heat affected zone. Pattern specification as well as issues and complications related to different hardness measuring techniques.Selection of critical process parameters and inductor styles, heat pattern control, the use of magnetic flux concentrators, quench design subtleties as well as a review and explanation of common misconceptions and erroneous assumptions.Formation of residual and transient stresses and their impact on a performance of heat treated components.Temperature requirements for heating carbon steels, alloy steels, super alloys, titanium, aluminum and copper alloys and other materials prior to hot and warm working. Novel technological developments in heating billets, bars, tubes, rods and other metallic workpieces.Optimization procedures and strategies in obtaining optimal process control algorithms based on various technological criteria, real-life constrains and cost functions.