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Deniz Ozturk
Deniz Ozturk
Blackdot, Inc.
Verified email at blackdot.tattoo
Title
Cited by
Cited by
Year
Experimentally validated dwell and cyclic fatigue crack nucleation model for α–titanium alloys
D Ozturk, AL Pilchak, S Ghosh
Scripta Materialia 127, 15-18, 2017
852017
Crystal plasticity FE study of the effect of thermo‐mechanical loading on fatigue crack nucleation in titanium alloys
D Ozturk, A Shahba, S Ghosh
Fatigue & Fracture of Engineering Materials & Structures 39 (6), 752-769, 2016
792016
Parametrically homogenized constitutive models (PHCMs) from micromechanical crystal plasticity FE simulations, part I: Sensitivity analysis and parameter identification for …
S Kotha, D Ozturk, S Ghosh
International Journal of Plasticity 120, 296-319, 2019
732019
Two-way multi-scaling for predicting fatigue crack nucleation in titanium alloys using parametrically homogenized constitutive models
D Ozturk, S Kotha, AL Pilchak, S Ghosh
Journal of the Mechanics and Physics of Solids 128 (July 2019), 181-207, 2019
472019
Uncertainty-quantified parametrically homogenized constitutive models (UQ-PHCMs) for dual-phase α/β titanium alloys
S Kotha, D Ozturk, S Ghosh
NPJ Computational Materials 6 (1), 117, 2020
392020
Parametrically homogenized constitutive models (PHCMs) from micromechanical crystal plasticity FE simulations: Part II: Thermo-elasto-plastic model with experimental validation …
S Kotha, D Ozturk, S Ghosh
International Journal of Plasticity 120, 320-339, 2019
312019
An uncertainty quantification framework for multiscale parametrically homogenized constitutive models (PHCMs) of polycrystalline Ti alloys
D Ozturk, S Kotha, S Ghosh
Journal of the Mechanics and Physics of Solids 148 (March 2021), 104294, 2021
222021
Spall strength in alloyed magnesium: A compendium of research efforts from the CMEDE 10-year effort
DD Mallick, SE Prameela, D Ozturk, CL Williams, M Kang, GM Valentino, ...
Mechanics of Materials 162, 104065, 2021
212021
Influence of vascular normalization on interstitial flow and delivery of liposomes in tumors
D Ozturk, S Yonucu, D Yilmaz, MB Unlu
Physics in Medicine & Biology 60 (4), 1477, 2015
172015
Parametrically homogenized constitutive models (PHCMs) for multi-scale predictions of fatigue crack nucleation in titanium alloys
D Ozturk, S Kotha, AL Pilchak, S Ghosh
JOM 71 (8), 2657-2670, 2019
162019
Uncertainty quantified parametrically homogenized constitutive models for microstructure-integrated structural simulations
S Kotha, D Ozturk, B Smarslok, S Ghosh
Integrating Materials and Manufacturing Innovation 9, 322-338, 2020
132020
Multiscale modeling of cruciform dwell tests with the uncertainty-quantified parametrically homogenized constitutive model
T Maloth, D Ozturk, GM Hommer, AL Pilchak, AP Stebner, S Ghosh
Acta Materialia 200, 893-907, 2020
132020
Multi-scale Modeling and Uncertainty Quantification of Deformation and Fatigue Crack Nucleation in Titanium Alloys using Parametrically Homogenized Constitutive Models
D Ozturk
The Johns Hopkins University, 2019
12019
A two-phase mixture model of avascular tumor growth
D Ozturk, M Burcin Unlu, S Yonucu, U Cetiner
APS March Meeting Abstracts 2012, L42. 010, 2012
2012
Parametrically Homogenized Constitutive Models (PHCM) from Image-based Crystal Plasticity Modeling to Predict Fatigue Crack Nucleation
S Ghoshı, S Kotha, D Ozturk
CRYSTAL PLASTICITY FE STUDY OF THE ROLE OF MICROTEXTURE ON DWELL FATIGUE RESPONSE OF TI-6242
D Ozturk, S Kotha, S Ghosh
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