Titanium and Titanium Alloys: Fundamentals and Applications / eds. Christoph Leyens, Manfred Peters

2003
Titanium and its alloys have just half the weight of steels and Ni-based superalloys but high specific strength and excellent corrosion resistance. They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture, chemical processing, medicine, power generation, marine and offshore, sports and leisure, and transportation.
This book is intended for students, materials scientists, engineers, and technicians from research, development, production, and design departments. They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

• the metallurgical background
• mechanical properties
• oxidation behavior and oxidation protection
• production and processing
• titanium and its conventional alloys
• titanium aluminides and titanium matrix composites
• applications of titanium and its alloys in aerospace and non-aerospace markets.

 

 

 

 

 

 

 

BRIEF CONTENTS

They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

• Introduction
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • Crystal Structure
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • Diffusion
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • Strength
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

• Introduction
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
• Mechanical Properties
  • Tensile Properties
  • Fracture Toughness
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture
• Applications
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Orthorhombic Titanium Aluminides:
Orthorhombic Titanium Aluminides:

• Introduction
• Orthorhombic Titanium Aluminides:, Orthorhombic Titanium Aluminides:, Orthorhombic Titanium Aluminides:
• Orthorhombic Titanium Aluminides:
  • Physical Properties
  • Microstructures
  • Mechanical Properties
    • Tensile Properties
    • Orthorhombic Titanium Aluminides:
    • Fatigue Strength, Orthorhombic Titanium Aluminides:, and Fracture Toughness
  • Orthorhombic Titanium Aluminides:
  • Concluding Remarks
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Orthorhombic Titanium Aluminides:

• Introduction
• Orthorhombic Titanium Aluminides:
• Orthorhombic Titanium Aluminides:
• Orthorhombic Titanium Aluminides:
  • Orthorhombic Titanium Aluminides:
  • Orthorhombic Titanium Aluminides:
  • Orthorhombic Titanium Aluminides:
  • Orthorhombic Titanium Aluminides:
• Mechanical Properties
  • Grain Refinement
  • Orthorhombic Titanium Aluminides:
  • Orthorhombic Titanium Aluminides:
  • Precipitation Hardening
  • Orthorhombic Titanium Aluminides:
  • Orthorhombic Titanium Aluminides:
  • Orthorhombic Titanium Aluminides:
• Orthorhombic Titanium Aluminides:
  • Orthorhombic Titanium Aluminides:
  • Casting
  • Orthorhombic Titanium Aluminides:
  • Orthorhombic Titanium Aluminides:
• Orthorhombic Titanium Aluminides:
• Orthorhombic Titanium Aluminides:
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Orthorhombic Titanium Aluminides:

• Introduction
• Influence of Microstructure
  • Influence of Microstructure, Influence of Microstructure
  • Influence of Microstructure
  • Influence of Microstructure
• Influence of Microstructure
• Influence of Microstructure
• Influence of Microstructure
• Influence of Microstructure
  • Influence of Microstructure
  • Influence of Microstructure
  • Influence of Microstructure
• Titanium Aluminides
• Influence of Microstructure
• Summary
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Influence of Microstructure

• Introduction
• Influence of Microstructure
  • Influence of Microstructure
  • Influence of Microstructure
    • Influence of Microstructure
    • Influence of Microstructure
  • Influence of Microstructure
    • Influence of Microstructure
    • Influence of Microstructure
  • Influence of Microstructure
    • Influence of Microstructure
      • Influence of Microstructure
      • Influence of Microstructure
      • Influence of Microstructure
      • Influence of Microstructure
    • Influence of Microstructure
      • Influence of Microstructure
    • Measures to Improve Oxidation Resistance
      • Alloying Elements
      • Measures to Improve Oxidation Resistance
      • Coatings
    • Measures to Improve Oxidation Resistance
    • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Measures to Improve Oxidation Resistance
Measures to Improve Oxidation Resistance

• Introduction
• Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Titanium, Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Applications
• Recycling
• Measures to Improve Oxidation Resistance

Measures to Improve Oxidation Resistance

• Introduction
• Measures to Improve Oxidation Resistance
• Casting
• Welding
  • Fusion Welding
  • Measures to Improve Oxidation Resistance
  • Measures to Improve Oxidation Resistance
  • Measures to Improve Oxidation Resistance
  • Measures to Improve Oxidation Resistance
  • Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Powder Metallurgy
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Measures to Improve Oxidation Resistance

• Titanium
• Cast Alloys
• Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Casting Design
• Finishing
  • Measures to Improve Oxidation Resistance
  • Hot Isostatic Pressing (HIP)
  • Welding
• Measures to Improve Oxidation Resistance

Measures to Improve Oxidation Resistance

• Introduction
• Superplasticity
• Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Measures to Improve Oxidation Resistance
• Summary
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Measures to Improve Oxidation Resistance

• Introduction
• General Properties and Applications
• General Properties and Applications
  • General Properties and Applications
  • Forgings
  • Heat Treatment
• General Properties and Applications
  • General Properties and Applications
  • General Properties and Applications
  • General Properties and Applications
  • General Properties and Applications
• General Properties and Applications
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

General Properties and Applications
Fabrication, General Properties and Applications

• Introduction
• General Properties and Applications
• Properties
  • General Properties and Applications
  • General Properties and Applications
  • General Properties and Applications
  • General Properties and Applications
  • General Properties and Applications
    • General Properties and Applications
    • General Properties and Applications
  • General Properties and Applications
  • General Properties and Applications
  • Applications
  • Measures to Improve Oxidation Resistance
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

General Properties and Applications

• Introduction
• General Properties and Applications
  • General Properties and Applications
  • General Properties and Applications
  • General Properties and Applications
• General Properties and Applications
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Production, General Properties and Applications

• Introduction
• General Properties and Applications
• Controlled Microstructures by Heat-Treatments
• Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Forging
    • Controlled Microstructures by Heat-Treatments
    • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Superplastic Forming
• Controlled Microstructures by Heat-Treatments
  • Joining
  • Machining
• Controlled Microstructures by Heat-Treatments, Controlled Microstructures by Heat-Treatments, Controlled Microstructures by Heat-Treatments
  • General Properties and Applications
  • β Phase separation
  • Controlled Microstructures by Heat-Treatments
• Concluding Remarks
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Controlled Microstructures by Heat-Treatments

• Introduction
• Controlled Microstructures by Heat-Treatments, Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Other Applications
• Controlled Microstructures by Heat-Treatments
• Controlled Microstructures by Heat-Treatments
• Architecture
• Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments, Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Controlled Microstructures by Heat-Treatments
  • Diverse Sports Applications
• Medical Applications
• Diverse Sports Applications
• Diverse Sports Applications
• Diverse Sports Applications
• Diverse Sports Applications
• Diverse Sports Applications
• Diverse Sports Applications
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Diverse Sports Applications

• Introduction
• Diverse Sports Applications
  • Corrosion Resistance
  • Diverse Sports Applications
  • Diverse Sports Applications
  • Mechanical Properties, Diverse Sports Applications, Diverse Sports Applications
• Diverse Sports Applications
  • Diverse Sports Applications
  • Diverse Sports Applications
  • Diverse Sports Applications
  • Diverse Sports Applications
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Diverse Sports Applications

• Introduction
• Diverse Sports Applications
  • Corrosion Resistance
    • Diverse Sports Applications
  • Diverse Sports Applications
  • Physical properties
• Diverse Sports Applications
  • Diverse Sports Applications
  • Diverse Sports Applications
  • Diverse Sports Applications
• Diverse Sports Applications
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
• Summary
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Dental Melting and Casting Technology

• Introduction
• Dental Melting and Casting Technology
  • Properties
  • Dental Melting and Casting Technology
    • Dental Melting and Casting Technology
    • Dental Melting and Casting Technology
    • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Conclusion
  • They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

Dental Melting and Casting Technology

• Introduction
• Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Fatigue
• Fabrication
  • Welding
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
• Applications
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
• Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
  • Dental Melting and Casting Technology
• Standards
• Conclusion
• They are successfully applied in the aerospace and the chemical industries as well as in other markets such as architecture

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