| Section 1 | DAMAGE PROGRESS AND CRACKING MECHANISM |
| Chapter 1 | Damage progress in the crack planes |
| Chapter 2 | Damage and cracking morphology |
| Section 2 | CONSTITUTIVE RULE IN DAMAGE AND DEFORMATION |
| Chapter 3 | A mathematical description of damage and deformation |
| Chapter 4 | Proportional analysis of non-proportional loadings |
| Section 3 | DAMAGE AND CRACK DETECTION TECHNIQUES |
| Chapter 5 | Testing and materials–damage detection methods |
| Chapter 6 | Fatigue micro–crack measurements using CSLM image–processing technique |
| Section 4 | FATIGUE DAMAGE ANALYSIS AND LOADING TYPE |
| Chapter 7 | Fatigue–damage analysis under various loading conditions |
| Chapter 8 | Random multiaxial fatigue loading |
| Section 5 | DAMAGE ANALYSIS IN COMPOSITE MATERIALS |
| Chapter 9 | Failure and damage of fibrous composite materials |
| Chapter 10 | Cracking and damage on concrete structures |
| Section 6 | CORROSION AND DAMAGE ANALYSIS |
| Chapter 11 | Corrosion fatigue |
| Section 7 | FATIGUE DAMAGE ANALYSIS AND APPLICATIONS |
| Chapter 12 | Practical applications on fatigue and fracture of aircraft structures |
| Chapter 13 | Fatigue damage in microelectronic packages |
| Chapter 14 | Fatigue–life assessment of silicon MEMS components |