Effect of pre‐corrosion on damage evolution and crack propagation in aluminum alloy 7050‐T7651 - Song - 2018 - Fatigue & Fracture of Engineering Materials & Structures - Wiley Online Library
Geometry factors for Mode I stress intensity factor of a cylindrical specimen with spiral crack subjected to torsion - ScienceDirect
Effect of pre‐corrosion on damage evolution and crack propagation in aluminum alloy 7050‐T7651 - Song - 2018 - Fatigue & Fracture of Engineering Materials & Structures - Wiley Online Library
Fretting Fatigue Map of Ti-6Al-4V at 10 5 Cycles: Cylinder on Flat Contact. | Download Scientific Diagram
PDF) Slow crack propagation in polyethylene under fatigue at controlled stress intensity
The use of fracture mechanics in the fatigue analysis of welded joints - ScienceDirect
A New Model for Fatigue Load Sequence Effects in Offshore Wind Turbine Substructures and its Implications for Design Life
Fatigue life prediction of pipeline with equivalent initial flaw size using Bayesian inference method | Journal of Infrastructure Preservation and Resilience | Full Text
The use of fracture mechanics in the fatigue analysis of welded joints - ScienceDirect
Fatigue crack growth in railway axle specimens – Transferability and model validation - ScienceDirect
Evaluation of Fracture and Fatigue Cracking Characterization Ability of Nonstandardized Semicircular-Bending Test for Asphalt Concrete | Journal of Materials in Civil Engineering | Vol 32, No 8
Fatigue crack growth in railway axle specimens – Transferability and model validation - ScienceDirect
PDF) Simulation of Crack Propagation in API 5L X52 Pressurized Pipes Using XFEM-Based Cohesive Segment Approach
Fatigue crack growth in railway axle specimens – Transferability and model validation - ScienceDirect
A Review of Benchmark Experiments for the Validation of Peridynamics Models | SpringerLink
Evaluating the Integrity of Pressure Pipelines by Fracture Mechanics | IntechOpen
Fatigue crack growth in railway axle specimens – Transferability and model validation - ScienceDirect