Priyanka Kantibhai Agrawal

Title: Research Assistant Professor

Department: Materials Science and Engineering

College: College of Engineering

Priyanka.Agrawal@unt.edu

General Information Previous Courses Publications Research

Curriculum Vitae

Curriculum Vitae Link

Education

PhD, Indian Institute of Science, Bangalore, 2018
Major: Materials Engineering
Specialization: Materials Engineering
Dissertation: Dynamic Strain Aging and Creep in near alpha Ti alloy, IMI834
MEd, Indian Institute of Science, Bangalore, 2010
Major: Materials Engineering
Specialization: Materials Engineering
Dissertation: Effect of Boron addition on Mechanical and Microstructural properties of Ti-6Al-4V
BE, Maharaja Sayajirao University, Baroda, 2007
Major: Metallurgical Engineering
Specialization: Metallurgical Engineering
Dissertation: Effect Of Tin Addition On Galvanizing Of Steel

Current Scheduled Teaching

No current or future courses scheduled.

Texas Education Code 51.974 (HB 2504) requires each institution of higher education to make available to the public, a syllabus for undergraduate lecture courses offered for credit by the institution.

Previous Scheduled Teaching

No previous courses scheduled.

Published Intellectual Contributions

Journal Article

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

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).

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Overall Summative Rating	Challenge and Engagement Index	Response Rate
out of 5	out of 7	% of students responded

Overall Summative Rating (median):
This rating represents the combined responses of students to the four global summative items and is presented to provide an overall index of the class’s quality. Overall summative statements include the following (response options include a Likert scale ranging from 5 = Excellent, 3 = Good, and 1= Very poor):
- The course as a whole was
- The course content was
- The instructor’s contribution to the course was
- The instructor’s effectiveness in teaching the subject matter was
Challenge and Engagement Index:
This rating combines student responses to several SPOT items relating to how academically challenging students found the course to be and how engaged they were. Challenge and Engagement Index items include the following (response options include a Likert scale ranging from 7 = Much higher, 4 = Average, and 1 = Much lower):
- Do you expect your grade in this course to be
- The intellectual challenge presented was
- The amount of effort you put into this course was
- The amount of effort to succeed in this course was
- Your involvement in course (doing assignments, attending classes, etc.) was