Plastic Deformation and Annealing / 1: |
General Stress-Strain Behavior |
Single Crystal Behavior |
Dislocations |
Strengthening Mechanisms |
Work (Strain) Hardening |
Grain Size Effect |
Particle Effect |
Solid Solution Effect |
Microstructural Effects |
Deformation Textures |
Recovery, Recrystalstallization and Grain Growth |
An Example of the Use of Annealing Data |
Hot Working and Cold Working |
Mechanisms of Annealing |
Recovery |
Recrystallization |
Grain Growth |
Abnormal Grain Growth |
Annealing Textures |
Annealing Twins |
Mechanical Twinning |
Stacking Faults |
References |
Solidification / 2: |
The Formation of Crystals |
As-Cast Grain Size and Shape |
Coring |
Precipitation Hardening / 3: |
Solid Solutions |
Solubility Limit |
Precipitation From Solid Solution |
Effect of Precipitation on Properties |
Precipitation Mechanism |
Aluminum-Base Alloys / 4: |
Ternary Phase Diagrams |
Aluminum-Copper-Magnesium Alloys |
Aluminum-Copper-Magnesium Commercial Alloys |
Nickel-Base Alloys / 5: |
Nickel-Chromium Alloys: Oxidation Resistance |
Nickel-Aluminum Alloys |
Nickel-Chromium-Aluminum Alloys |
Nickel-Chromium-Aluminum-Titanium Alloys |
Complex Nickel-Base Alloys |
Solid-Solution Strengthening of Gamma |
Solid-Solution Strengthening of Gamma Prime |
Amount of Gamma Prime |
Antiphase Boundary Energy |
Gammma-Gamma-Prime Lattice Mismatch |
Coarsening Rate of Gamma Prime |
Oxidation and Corrosion Resistance |
Longtime Phase Stability |
Directional Solidification |
Microstructure of a Commercial Alloy |
Conclusion |
Cobalt-Base Alloys / 6: |
Oxidation of Cobalt-Base Alloys |
Strengthening of Cobalt-Base Alloys |
Solid Solution Strengthening |
Precipitation of Gamma Prime |
Carbide Formation |
Formation of Intermetallic Phases |
The Microstructure of a Commercial Cobalt-Base Alloy |
Magnesium-Base Alloys / 7: |
Precipitation Hardening in Magnesium-Base Binary Alloys |
Magnesium-Aluminum-Zinc Alloys |
Corrosion Resistance of Magnesium-Base Alloys |
Copper-Base Alloys / 8: |
Commercially Pure Copper |
Copper-Zinc Alloys |
Copper-Tin Alloys |
Copper-Zinc-Tin Alloys |
Copper-Base Leaded Alloys |
Copper-Aluminum Alloys |
Copper-Beryllium Alloys |
Titanium-Base Alloys / 9: |
Commercially Pure Titanium |
Interstitial Solid Solutions |
Alpha Alloys |
Alpha-Plus-Beta Alloys |
The Commercial Alloy Ti-8A1-1Mo-1V |
The Commercial Alloy Ti-6A1-4V |
The Commercial Alloy Ti-13V-11Cr-3A1 |
Appendixes |
General References |
English/Metric Conversion Factors |
Chemical Compositions and Typical Applications of Several Nickel-Base Superalloys |
Chemical Compositions and Typical Applications of Common Cobalt-Base Superalloys |
Chemical Compositions and Some Applications of Several Commercial Magnesium-Base Alloys |
Typical Mechanical Properties (at 25 degrees Celsius) of Several Commercial Titanium-Base Alloys |
Temper Designations for Aluminum Alloys |
Temper Designations for Coppers and Copper Alloys |
Plastic Deformation and Annealing / 1: |
General Stress-Strain Behavior |
Single Crystal Behavior |