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Full Description
Advanced High-Strength Steels: Science, Technology, and Applications is the second edition of the original book, first published by ASM in 2013. The book covered the science and technology of developing and applying new grades of advanced high-strength steels (AHSS) with original superior attributes that can compete with alternative lightweight materials, such as aluminum, magnesium, polymers, and composites based on enhanced mass reduction, fuel economy, safety, emissions, recycling, and cost.
This second edition expands upon the foundational knowledge presented in the first edition, including the examination of the types, microstructures, thermal processing, deformation mechanisms, properties, performance, and applications of AHSS. The new edition revises and updates text, and the extensive charts and figures in all chapters. New to this edition are comprehensive chapters or sections on sustainability, automotive applications, nanosteels, additive manufacturing, ultra-high-strength steels, and the principles of Integrated Computational Materials Engineering (ICME).
This book is targeted for technical and engineering individuals with graduate programs in research, many engineering disciplines (mechanical, metallurgical, manufacturing), and professionals in the automotive and steel industries and their suppliers.
Contents
Chapter 1: Introduction
Drivers and Solutions
Importance of Steel
Steelmaking Technology
Categories of Steels
Steel Applications
Advanced Steels
Significance of High Strength
Chapter 2: Steel Fundamentals
Compositions and Metallurgical Phases
Microstructures and Heat Treatments
Structure-Property Relationships
Deformation Mechanisms
Strengthening Mechanisms
Deformation Processing and Annealing
Chapter 3: Advanced High-Strength Steels
Nomenclature
Generations of Advanced High-Strength Steels
Thermomechanical Processing
Microstructure Development
Property Trends
Chapter 4: Attributes of Advanced High-Strength Steels
Stiffness
Strength
Strain Hardening
Fatigue
Crashworthiness
Formability
Toughness
Bake Hardening
Chapter 5: Dual-Phase Steels
Compositions and Microstructures of Dual Phase Steels
Processing of Dual Phase Steels
Deformation Mechanism in Dual Phase Steels
Mechanical Properties of Dual Phase Steels
Formability of Dual Phase Steels
Special Attributes of Dual Phase Steels
Chapter 6: Complex-Phase Steels
Compositions and Microstructures of Complex Phase Steels
Processing of Complex Phase Steels
Deformation Mechanism of Complex Phase Steels
Mechanical Properties of Complex Phase Steels
Formability of Complex Phase Steels
Special Attributes of Complex Phase Steels
Chapter 7: Transformation-Induced Plasticity Steels
Compositions and Microstructures of Transformation-Induced Plasticity Steels
Processing of Transformation-Induced Plasticity Steels
Deformation Mechanism of Transformation-Induced Plasticity Steels
Mechanical Properties of Transformation-Induced Plasticity Steels
Formability of Transformation-Induced Plasticity Steels
Special Attributes of Transformation-Induced Plasticity Steels
Chapter 8: Martensitic Steels
Compositions and Microstructures of Martensitic Steels
Processing of Martensitic Steels
Deformation Mechanism in Martensitic Steels
Mechanical Properties of Martensitic Steels
Hot Forming of Martensitic Steels
Tempering Martensite
Special Attributes of Martensitic Steels
Chapter 9: Twinning-Induced Plasticity Steels
Twins and Stacking Faults
Compositions and Microstructures of Twinning-Induced Plasticity Steels
Thermodynamics of Twinning-Induced Plasticity Steels
Processing of Twinning-Induced Plasticity Steels
Deformation Mechanism in Twinning-Induced Plasticity Steels
Mechanical Properties of Twinning-Induced Plasticity Steels
Formability of Twinning-Induced Plasticity Steels
Special Attributes of Twinning-Induced Plasticity Steels
Chapter 10: Austenitic Stainless Steels
Compositions and Microstructures of Austenitic Stainless Steels
Processing of Austenitic Stainless Steels
Deformation Mechanism in Austenitic Stainless Steels
Mechanical Properties of Austenitic Stainless Steels
Formability of Austenitic Stainless Steels
Special Attributes of Austenitic Stainless Steels
Chapter 11: Applications of Advanced High-Strength Steels
Automotive Applications
Effect of Automotive Processing on Advanced High-Strength Steels Components
Nonautomotive Applications of Steels
Advanced High-Strength Steels Use and Trends
Chapter 12: Consequences of Using Advanced High-Strength Steels
Press Requirements
Springback and Residual Stresses
Binders and Drawbeads
Tool Material and Die Wear
Hot Forming
Downgauging Limits
Welding
Chapter 13: Global Projects on Advanced High-Strength Steels
Steel Industry Projects
Government/Industry/Academia Collaboration
Academic Research and Development
Chapter 14: Design Guidelines for Advanced High-Strength Steels
Forming Guidelines
Welding Guidelines
Performance Evaluation
Chapter 15: Innovative Forming Technologies for Advanced High-Strength Steels
Real-Time Process Control
Active Drawbeads
Active Binders
Flexible Binders
Flexible Rolling
Additive Manufacturing
Chapter 16: Sustainability and Economics of Advanced High-Strength Steels
Advanced High-Strength Steels and the Environment
Sustainability Metrics in Iron Making
Emissions and Energy Intensity
Life Cycle Assessment
Recycling of Steels
Economics of Advanced High-Strength Steels
Chapter 17: Evolving Grades of Advanced High-Strength Steels
Third Generation Advanced High-Strength Steels
Microstructure Design
Novel Processing Methods
Chapter 18: Nanosteels
Grain Boundaries in Nano Crystals
Third Generation Nano Advanced High-Strength Steels
Chapter 19: Ultra-High-Strength and Gigapascal Steels
Ultra-High-Strength Steels
Press Hardening Advanced High-Strength Steels
Utilization Forecast of Advanced High-Strength and Ultra-High-Strength Steels
Chapter 20: Integrated Computational Materials Engineering Approach to Advanced High-Strength Steels Development
Department of Energy's Project on Integrated Computational Materials Engineering
Approaches for Developing Advanced High-Strength Steels
Index
