ESDU Fatigue - Fracture Mechanics Series

Expand all: Expand all  Collapse all: Collapse all

  • Section 1: Organisational Documents
    • ESDU 04018
      Fatigue - Fracture Mechanics Series organisation: preface amendment record.
  • Section 2: Fracture Mechanics Data - General
    • ESDU CFS
      Conversion factors
    • ESDU 80036
      Introduction to the use of linear elastic fracture mechanics in estimating fatigue crack growth rates and residual strength of components.
    • ESDU 84001
      Growth of cracks under constant amplitude fatigue loading: example calculations.
    • ESDU 91027
      Non-destructive examination - choice of methods.
  • Section 3: Aluminium Alloys - Crack Propagation
    • ESDU 81031
      Fatigue crack propagation rates and threshold stress intensity factor ranges for aluminium alloy plate, extruded bar and forgings.
    • ESDU 83007
      Fatigue crack propagation rates and threshold stress intensity factor ranges for aluminium alloy sheet.
    • ESDU 88007
      Effect of environment on fatigue crack propagation in aluminium alloy sheet and plate.
    • ESDU 91015
      Fatigue crack propagation rates of experimental aluminium lithium sheet and plate alloys.
    • ESDU 92030
      Fatigue propagation behaviour of short cracks in aluminium alloys.
  • Section 4: Steels - Crack Propagation
    • ESDU 84003
      Fatigue crack propagation rates and threshold stress intensity factors in high alloy and corrosion resistant (stainless) steel.
    • ESDU 93033
      Fatigue propagation behaviour of short cracks (1-2 mm) in steels.
  • Section 5: Titanium Alloys - Crack Propagation
    • ESDU 82015
      Fatigue crack propagation rates and threshold stress intensity factor ranges for titanium alloy plate, bar and forgings.
    • ESDU 89051
      Fatigue crack propagation rates for titanium alloy sheets.
    • ESDU 90028
      Effect of environment on fatigue crack propagation rate in titanium alloy sheet and plate.
    • ESDU 92023
      Fatigue propagation behaviour of short cracks in titanium alloys.
  • Section 6: Stress Intensity Factors
    • ESDU 78036
      The compounding method of estimating stress intensity factors for cracks in complex configurations using solutions from simple configurations.
    • ESDU 81029
      Stress intensity factors in lugs (through-thickness cracks).
    • ESDU 83033
      Stress intensity factors for corner cracks in loaded holes in lugs and wide plates.
  • Section 7: Crack Resistance Curves - Aluminium, Aluminium-Lithium and Titanium Alloys and Steels