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Kartik Kapoor
Kartik Kapoor
Intel Corporation || PhD, Purdue University
在 intel.com 的电子邮件经过验证
标题
引用次数
引用次数
年份
Incorporating grain-level residual stresses and validating a crystal plasticity model of a two-phase Ti-6Al-4 V alloy produced via additive manufacturing
K Kapoor, YSJ Yoo, TA Book, JP Kacher, MD Sangid
Journal of the Mechanics and Physics of Solids 121, 447-462, 2018
962018
Initializing type-2 residual stresses in crystal plasticity finite element simulations utilizing high-energy diffraction microscopy data
K Kapoor, MD Sangid
Materials Science and Engineering: A 729, 53-63, 2018
442018
On the crack initiation and heterogeneous deformation of Ti-6Al-4V during high cycle fatigue at high R ratios
R Bandyopadhyay, AW Mello, K Kapoor, MP Reinhold, TF Broderick, ...
Journal of the Mechanics and Physics of Solids 129, 61-82, 2019
422019
Small fatigue crack growth behavior of Ti-6Al-4V produced via selective laser melting: In situ characterization of a 3D crack tip interactions with defects
M Waddell, K Walker, R Bandyopadhyay, K Kapoor, A Mallory, X Xiao, ...
International Journal of Fatigue 137, 105638, 2020
352020
Modeling Ti–6Al–4V using crystal plasticity, calibrated with multi-scale experiments, to understand the effect of the orientation and morphology of the α and β phases on time …
K Kapoor, P Ravi, R Noraas, JS Park, V Venkatesh, MD Sangid
Journal of the Mechanics and Physics of Solids 146, 104192, 2021
342021
Comparative assessment of backstress models using high-energy X-ray diffraction microscopy experiments and crystal plasticity finite element simulations
R Bandyopadhyay, SE Gustafson, K Kapoor, D Naragani, DC Pagan, ...
International journal of plasticity 136, 102887, 2021
262021
Strain rate sensitivity, microstructure variations, and stress-assisted β→ α′′ phase transformation investigation on the mechanical behavior of dual-phase titanium alloys
K Kapoor, P Ravi, D Naragani, JS Park, JD Almer, MD Sangid
Materials Characterization 166, 110410, 2020
192020
Modeling strain localization in microtextured regions in a titanium alloy: Ti–6Al–4V
K Kapoor, R Noraas, V Seetharaman, MD Sangid
Integrating Materials and Manufacturing Innovation 8 (4), 455-467, 2019
192019
Modeling the role of epitaxial grain structure of the prior β phase and associated fiber texture on the strength characteristics of Ti-6Al-4V produced via additive manufacturing
MD Sangid, A Nicolas, K Kapoor, E Fodran, J Madsen
Materials 13 (10), 2308, 2020
92020
Experimentally Validated Crystal Plasticity Modeling of Titanium Alloys at Multiple Length-Scales Based on Material Characterization, Accounting for Residual Stresses
K Kapoor
Purdue University, 2019
12019
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