Priyanka Kantibhai Agrawal

Previous Scheduled Teaching

No previous courses scheduled.

Published Intellectual Contributions

Book Chapter

• Agrawal, P. (2024). The Effect of Texture on the Dwell Fatigue of the alpha Phase of Titanium. Edinburgh, UK, 15th World Titanium Conference (Ti-2023), Edinburgh, United Kingdom.

Journal Article

• Agrawal, P., Gupta, S., Reeder, J., Toll, M.P., Mishra, R.S. (2024). Corrosion resistance tailoring of a paramagnetic Ti–6Al–4V through a static magnetic field exposure in solid state. Journal of Materials Science.
• Sharma, A., jain, r., Agrawal, P., Mukherjee, S., Gumaste, A., Davis, D., Haridas, R., Mishra, R.S. (2024). Enhanced thermal stability in additive friction stir deposited ODS IN9052 Al alloy. Acta Materialia.
• Agrawal, P. (2024). Irradiation-induced shift on the thermodynamic stability of phases and the self-healing effect in transformative high entropy alloys. Journal of Nuclear Materials.
• Lopes, J., Candeias, A., Agrawal, P., Shen, J., Schell, N., Mishra, R.S., Oliveira, J. (2024). Role of TiB2 inoculation particles during welding of a AlCoCrFeNi high entropy alloy. Journal of Alloys and Compounds.
• Lopes, J., Shen, J., Maawad, E., Agrawal, P., Schell, N., Mishra, R.S., Oliveira, J. (2024). Time-resolved evolution of the deformation mechanisms in a TRIP/TWIP Fe50Mn30Co10Cr10 high entropy during tensile loading probed with synchrotron X-ray diffraction. International Journal of Plasticity.
• Roy, A., dhal, a., jain, r., Agrawal, P., Mukherjee, S., McWilliams, B., Mock, C., Cho, K., Mishra, R.S. (2024). Heterogenous phase evolution and mechanical response in additively manufactured low alloy martensitic steel processed via laser-directed energy deposition. Materials & Design. 243
• Agrawal, P. (2024). Influence of magnetic field on the mechanical behavior of friction stir processed paramagnetic alloy.
• Agrawal, P. (2024). Ion Irradiation and Examination of Additive Friction Stir Manufactured 316 Stainless Steel Component. Materials & Design. Elsevier. https://doi.org/10.1016/j.matdes.2024.112730
• Dhal, A., Thapliyal, S., Agrawal, P., Roy, A., Sharma, A., Mishra, R.S., Faierson, E. (2024). Multimodal and multiscale strengthening mechanisms in Al-Ni-Zr-Ti-Mn alloy processed by laser powder bed fusion additive manufacturing. Materials & Design. 237
• Sharma, A., Sankar Haridas, R., Agrawal, P., Gumaste, A., Scharf, T.W., Kandasamy, K., Mishra, R.S. Novel SolidStir extrusion technology for enhanced conductivity cable manufacturing via in-situ exfoliation of graphite to graphene. Other. 238
• Sharma, A., Gumaste, A., Agrawal, P., Thapliyal, S., Gupta, S., Haridas, R.S., McWilliams, B.A., Cho, K.C., Mishra, R.S. Strength-conductivity synergy via lean alloy design: A study on novel solid stir extrusion of an Al-2Cu-0.1 Nb-0.15Zr (∼wt.%) alloy. Journal of Alloys and Compounds. 976
• Lopes, J.G., Agrawal, P., Shen, J., Schell, N., Mishra, R.S., Oliveira, J.P. (2023). Evolution of microstructure and mechanical properties in gas tungsten arc welded dual-phase Fe50Mn30Co10Cr10 high entropy alloy. Materials Science and Engineering: A. 878
• Dhal, A., Sankar Haridas, R., Agrawal, P., Gupta, S., Mishra, R.S. (2023). Mapping hierarchical and heterogeneous micromechanics of a transformative high entropy alloy by nanoindentation and machine learning augmented clustering. Materials & Design. 230
• Agrawal, P., Thapliyal, S., Agrawal, P., Dhal, A., Haridas, R.S., Gupta, S., Mishra, R.S. (2023). Additive manufacturing of a metastable high entropy alloy: Metastability engineered microstructural control via process variable driven elemental segregation. Materials Science and Engineering: A. 872
• Shen, J., Agrawal, P., Rodrigues, T.A., Lopes, J., Schell, N., He, J., Zeng, Z., Mishra, R.S., Oliveira, J. (2023). Microstructure evolution and mechanical properties in a gas tungsten arc welded Fe42Mn28Co10Cr15Si5 metastable high entropy alloy. Materials Science and Engineering: A. 144722. Elsevier BV. http://dx.doi.org/10.1016/j.msea.2023.144722
• Agrawal, P., Gupta, S., Dhal, A., Prabhakaran, R., Shao, L., Mishra, R.S. (2023). Irradiation response of innovatively engineered metastable TRIP high entropy alloy. Journal of Nuclear Materials. 574 154217. Elsevier BV.
• Agrawal, P. (2023). High-Throughput Investigation of Multiscale Deformation Mechanism in Additively Manufactured Ni Superalloy. Metals.
• Haridas, R.S., Agrawal, P., Thapliyal, S., Agrawal, P., Dhal, A., Shukla, S., Zhou, L., Sohn, Y., Mishra, R.S. (2023). Synergy of tensile strength and high cycle fatigue properties in a novel additively manufactured Al-Ni-Ti-Zr alloy with a heterogeneous microstructure. Additive Manufacturing. 62 103380. Elsevier BV.

Contracts, Grants and Sponsored Research

Contract

• Haridas, R. (Principal), Agrawal, P. (Co-Principal), "Subcontractor for Optimus Alloys under a service agreement to carry out microscopy," sponsored by Optimus Alloys LLC, Local, $20000 Funded. (2024 - 2025).
• Shepherd, N.D. (Co-Principal), Mishra, R.S. (Principal), Baskes, M.I. (Co-Principal), Reidy, R.F. (Co-Principal), Scharf, T.W. (Co-Principal), Young, M.L. (Co-Principal), Banerjee, R. (Co-Principal), Srivilliputhur, S.G. (Co-Principal), Mukherjee, S. (Co-Principal), Agrawal, P. (Co-Principal), "Hierarchically Structured Materials Systems for Enhanced Dynamic Performance," sponsored by ARL, Federal, $5250000 Funded. (2023 - 2024).

Grant - Research

• Agrawal, P. (Co-Principal), "Hierarchically Structured Materials Systems for Enhanced Dynamic Performance," sponsored by Army Research Laboratory, Federal, $25250000 Funded. (2023 - 2028).

Sponsored Research

• Agrawal, P., "Examination of ion irradiated Additive Friction Stir Manufactured metastable high entropy alloy," sponsored by Nuclear Science Users Facilities, INL, Federal, Funded. (2024 - 2025).
• Agrawal, P., "In-situ annealing of refractory W alloy to study spinodal decomposition," sponsored by CHESS, International, Funded. (2025 - 2025).
• Agrawal, P., "Understanding gamma-fcc to epsilon-hcp phase transformation in a TRIP High Entropy Alloy via a combination of dilatometry and in-situ XRD experiments," International, Funded. (2024 - 2024).