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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Fatigue in Materials: Fundamentals, Multiscale Characterizations and Computational Modeling

Presentation Title

Influence of Microstructure, Component Geometry and Loading Profile on the Fatigue Behavior of Titanium Alloys

Author(s)

David U. Furrer, Brandon T. Mackey, Masoud Anahid, Sergei Burlatsky, Iuliana Cernatescu

On-Site Speaker (Planned)

David U. Furrer

Abstract Scope

Fatigue properties and associated behavior of titanium components are critical for the design and optimization of aerospace products. There are myriad factors that influence the fatigue behavior of materials, such as titanium, including microstructure, loading profile, and component geometry. Titanium can have very complicated microstructures and microstructure assemblages. Bi-modal microstructures can have variations in primary alpha phase content and size, as well as texture of primary and secondary alpha grains. These features have been shown to impact fatigue behavior in titanium alloys. Residual stress and component geometries can also impact the fatigue behavior in titanium alloys. An overview of how these features impact fatigue and component behavior will be presented.

Proceedings Inclusion?

Planned:

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

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A High-Fidelity Fatigue-Life Modeling Framework Using Fast Fourier Transforms

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Comparative Study on the High Cycle Fatigue Property of the 22MnB5 Hot Roll Bending Tubes With Various Corrosion Resistance

Crack Interaction Effects in Porosity-Dominated Metals: A Framework for Fatigue-Life Prediction

Cyclic Damage Accumulation and Propagation in Ti6Al4V: Impact of Manufacturing Methods

Effect of Carbon Concentration on LCF Properties of N105 Alloy

Fatigue Behavior of TPMS Metamaterials: Role of Geometry and Surface Texture Under Complex Loading

Fatigue Failure in Zinc Plated Tapping Screws

Fatigue Properties of CrCoNi-Based Multi-Principal Element Alloys – The Effects of Additively Manufactured (L-PBF) Microstructure

Fatigue Reimagined: Revealing Hidden Deformation Pathways in HEAs

Influence of Formation of Fine Dislocation Sub-Cells on Fatigue Strength and Crack Initiation

Influence of Microstructure, Component Geometry and Loading Profile on the Fatigue Behavior of Titanium Alloys

Integrated Crystal Plasticity Framework to Predict Very High Cycle Fatigue Life in Additively Manufactured AlSi10Mg

Integrated Numerical Framework for Fatigue Life Enhancement in Additively Manufactured Lattice Structures

Investigation of the Influence of GBPs and PFZs on Fatigue Crack Propagation Behavior in T7-Heat Treated Al-Zn-Mg-Cu Alloy via CP-FEM

Mechanistic Modeling of Microstructure-Sensitive Crack Growth

Microscale Mechanisms of Fatigue Damage in Wire-Arc Additive Manufactured Nickel–Aluminum Bronze from In-Situ Experiments

Microstructure-Informed Fatigue Life Prediction via Parametrically Upscaled Continuum Damage Modeling

Microstructure Evolution and Fatigue Properties of CP-Ti Induced by Cryogenic Low Cycle Fatigue

Microstructure Sensitive Pitting Corrosion and Fatigue Life Prediction of Brass in Potable Water

Modeling the Influence of Periodic Overloads and Dwell Holds on Fatigue Behavior in Additively Manufactured Ti-6Al-4V

Multi-Modal Characterization of Cyclically Loaded Ni-Superalloy to Spatially Resolve Signatures of Deformation

On the Role of Hydrogen in Plasticity Mechanisms Associated With Cyclic Creep of a 304L Austenitic Stainless Steel

Progressive Strain Induced Martensitic Transformation of Retained Austenite and Corresponding Enhancement in Fatigue Crack Growth Resistance in High Strength DQP Steel

Strain Localization and Micro-Crack Formation Near Grain Boundary and Twin Boundary During Fatigue Studied Using In-Situ ECCI, HR-EBSD, and CAC Simulation in Austenitic Steel 316L

Synthetic Microstructure Modeling of Additively Manufactured Inconel 718

Temperature-Dependent Cyclic Deformation Behavior of MP35N Alloy

Understanding the Poor Structural Fatigue Life in Precipitate-Free NiTiHf High-Temperature Shape Memory Alloy Under Constant Force Thermal Cycling

Using Elastic Criteria from a Crystal Plasticity Fast-Fourier Transform Model to Probe Fatigue Crack Initiation in Precipitation-Hardened IN-718

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