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Phalgun Nelaturu
Phalgun Nelaturu
Albemarle Corporation
Verified email at albemarle.com
Title
Cited by
Cited by
Year
Friction stir additive manufacturing for high structural performance through microstructural control in an Mg based WE43 alloy
S Palanivel, P Nelaturu, B Glass, RS Mishra
Materials & Design (1980-2015) 65, 934-952, 2015
3062015
Friction Stir Processing of a High Entropy Alloy Al0.1CoCrFeNi
N Kumar, M Komarasamy, P Nelaturu, Z Tang, PK Liaw, RS Mishra
Jom 67, 1007-1013, 2015
1072015
Influence of friction stir processing on the room temperature fatigue cracking mechanisms of A356 aluminum alloy
P Nelaturu, S Jana, RS Mishra, G Grant, BE Carlson
Materials Science and Engineering: A 716, 165-178, 2018
642018
Integrated High‐Throughput and Machine Learning Methods to Accelerate Discovery of Molten Salt Corrosion‐Resistant Alloys
Y Wang, B Goh, P Nelaturu, T Duong, N Hassan, R David, M Moorehead, ...
Advanced Science 9 (20), 2200370, 2022
252022
High-throughput ion irradiation of additively manufactured compositionally complex alloys
M Moorehead, P Nelaturu, M Elbakhshwan, C Parkin, C Zhang, ...
Journal of Nuclear Materials 547, 152782, 2021
242021
Effect of temperature on the fatigue cracking mechanisms in A356 Al alloy
P Nelaturu, S Jana, RS Mishra, G Grant, BE Carlson
Materials Science and Engineering: A 780, 139175, 2020
182020
Linking process and structure in the friction stir scribe joining of dissimilar materials: A computational approach with experimental support
V Gupta, P Upadhyay, LS Fifield, T Roosendaal, X Sun, P Nelaturu, ...
Journal of Manufacturing Processes 32, 615-624, 2018
182018
A dimensionless number for high-throughput design of multi-principal element alloys in directed energy deposition
Z Islam, P Nelaturu, DJ Thoma
Applied Physics Letters 119 (23), 2021
62021
Accelerated discovery of molten salt corrosion-resistant alloy by high-throughput experimental and modeling methods coupled to data analytics
Y Wang, B Goh, P Nelaturu, T Duong, N Hassan, R David, M Moorehead, ...
arXiv preprint arXiv:2104.10235, 2021
62021
Multi-principal element alloy discovery using directed energy deposition and machine learning
P Nelaturu, JR Hattrick-Simpers, M Moorehead, V Jambur, I Szlufarska, ...
Materials Science and Engineering: A 891, 145945, 2024
22024
High Throughput Studies on Irradiated High Entropy Alloys
M Bachhav, B Queylat, M Moorehead, D Murray, C Parkin, N Curtis, ...
Microscopy and Microanalysis 28 (S1), 2100-2101, 2022
12022
Nobility vs. mobility: Insights into molten salt corrosion mechanisms of high-entropy alloys via high-throughput experiments and machine learning
B Goh, Y Wang, P Nelaturu, H Zhang, M Moorehead, T Duong, P Priya, ...
Matter, 2024
2024
Accelerated Materials Design for Molten Salt Technologies Using Innovative High-Throughput Methods
A Couet, W Yafei, B Goh, P Nelaturu, T Duong, N Hassan, R David, ...
Univ. of Wisconsin, Madison, WI (United States), 2023
2023
A High Throughput Experimentation & Material Informatics Platform for the Discovery of Molten Salt Reactor Candidate Structural Materials
B Goh, Y Wang, P Nelaturu, M Moorehead, D Papailiopoulous, D Thoma, ...
Electrochemical Society Meeting Abstracts 242, 760-760, 2022
2022
High Throughput Study of Hardening and Void Swelling in Ion Irradiated High Entropy Alloys
B Queylat, M Moorehead, P Nelaturu, N Curtis, D Thoma, M Bacchav, ...
Transactions of the American Nuclear Society 126, 419-422, 2022
2022
High throughput study of ion irradiated high entropy alloys
B Queylat, M Moorehead, P Nelaturu, M Elbakhshwan, D Thoma, ...
Transactions of the American Nuclear Society 124 (1), 304-307, 2021
2021
Fatigue Behavior of A356 Aluminum Alloy
P Nelaturu
University of North Texas, 2016
2016
Nobility vs Mobility: Unlocking New Insights Into Molten Salt Corrosion Mechanisms of High Entropy Alloys with High-Throughput Experiments and Machine Learning-Enabled Analysis
B Goh, Y Wang, P Nelaturu, M Moorehead, T Duong, P Priya, DJ Thoma, ...
Available at SSRN 4535248, 0
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