Faculty Profile

Srinivasan Srivilliputhur

Title

Professor

Department

Materials Science and Engineering

College

College of Engineering

Curriculum Vitae

Click Here to View Faculty CV

Education

PhD, University of Washington, Seattle, USA, 1999.

Major: Materials Science & Engineering

MS, Indian Institute of Technology, Bombay, India, 1991.

Major: Materials Science

BS, Banaras Hindu University, Banaras, India, 1988.

Major: Ceramic Engineering

Current Scheduled Teaching^*

MTSE 6950.010, Doctoral Dissertation, Fall 2023

MTSE 5000.010, Thermodynamics of Materials, Fall 2023 Syllabus

MTSE 3040.003, Transport Phenomena in Materials, Fall 2023 Syllabus

^* 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^*

MTSE 6950.122, Doctoral Dissertation, Spring 2023

MTSE 3000.005, Fundamentals of Materials Science and Engineering I, Spring 2023 Syllabus SPOT

MTSE 6940.218, Individual Research, Fall 2022

MTSE 6940.219, Individual Research, Fall 2022

MTSE 6940.220, Individual Research, Fall 2022

MTSE 5000.010, Thermodynamics of Materials, Fall 2022 Syllabus SPOT

MTSE 3040.003, Transport Phenomena in Materials, Fall 2022 Syllabus SPOT

MTSE 5100.005, Fundamental Concepts of Materials Science, Spring 2022 SPOT

MTSE 3000.005, Fundamentals of Materials Science and Engineering I, Spring 2022 Syllabus SPOT

MTSE 6940.219, Individual Research, Spring 2022

MTSE 6950.010, Doctoral Dissertation, Fall 2021

MTSE 5000.010, Thermodynamics of Materials, Fall 2021 Syllabus SPOT

MTSE 3040.003, Transport Phenomena in Materials, Fall 2021 Syllabus SPOT

MTSE 6950.010, Doctoral Dissertation, Spring 2021

MTSE 5100.005, Fundamental Concepts of Materials Science, Spring 2021 SPOT

MTSE 3000.005, Fundamentals of Materials Science and Engineering I, Spring 2021 Syllabus SPOT

MTSE 6940.010, Individual Research, Spring 2021

MTSE 6950.010, Doctoral Dissertation, Fall 2020

MTSE 4060.010, Materials Science and Performance, Fall 2020 Syllabus SPOT

MTSE 5000.010, Thermodynamics of Materials, Fall 2020 Syllabus SPOT

MTSE 6950.010, Doctoral Dissertation, Spring 2020

MTSE 5100.005, Fundamental Concepts of Materials Science, Spring 2020

MTSE 3000.005, Fundamentals of Materials Science and Engineering I, Spring 2020 Syllabus

MTSE 5950.110, Master's Thesis, Spring 2020

MTSE 6950.010, Doctoral Dissertation, Fall 2019

MTSE 5950.010, Master's Thesis, Fall 2019

MTSE 4060.010, Materials Science and Performance, Fall 2019 Syllabus SPOT

MTSE 5700.004, Seminar in Materials Science and Engineering, Fall 2019 SPOT

MTSE 5000.010, Thermodynamics of Materials, Fall 2019 Syllabus SPOT

MTSE 6950.010, Doctoral Dissertation, Spring 2019

MTSE 3000.005, Fundamentals of Materials Science and Engineering I, Spring 2019 Syllabus SPOT

MTSE 4060.010, Materials Science and Performance, Spring 2019 Syllabus SPOT

MTSE 5800.010, Special Studies in Materials Science, Spring 2019

MTSE 6950.010, Doctoral Dissertation, Fall 2018

MTSE 3000.007, Fundamentals of Materials Science and Engineering I, Fall 2018 Syllabus SPOT

MTSE 5000.010, Thermodynamics of Materials, Fall 2018 SPOT

MTSE 6950.010, Doctoral Dissertation, Spring 2018

MTSE 3000.005, Fundamentals of Materials Science and Engineering, Spring 2018 Syllabus SPOT

MTSE 6940.010, Individual Research, Spring 2018

MTSE 4060.010, Materials Science and Performance, Spring 2018 Syllabus SPOT

MTSE 6950.010, Doctoral Dissertation, Fall 2017

MTSE 6940.010, Individual Research, Fall 2017

MTSE 5000.010, Thermodynamics of Materials, Fall 2017 SPOT

MTSE 6950.010, Doctoral Dissertation, Spring 2017

MTSE 3000.005, Fundamentals of Materials Science and Engineering, Spring 2017 Syllabus SPOT

MTSE 6940.010, Individual Research, Spring 2017

MTSE 4060.010, Materials Science and Performance, Spring 2017 Syllabus SPOT

MTSE 6940.010, Individual Research, Fall 2016

MTSE 5000.010, Thermodynamics of Materials, Fall 2016 SPOT

MTSE 4040.009, Computational Materials Science, Spring 2016 Syllabus

MTSE 6940.010, Individual Research, Spring 2016

MTSE 6940.110, Individual Research, Spring 2016

MTSE 4060.010, Materials Science and Performance, Spring 2016 Syllabus SPOT

MTSE 4900.010, Special Topics in Materials Science and Engineering, Spring 2016

MTSE 6940.010, Individual Research, Fall 2015

MTSE 6940.110, Individual Research, Fall 2015

MTSE 4010.006, Physical Metallurgy, Fall 2015 Syllabus SPOT

MTSE 5000.010, Thermodynamics of Materials, Fall 2015 SPOT

MTSE 2900.010, Introduction to Materials Science Research, Summer 10W 2015

MTSE 6950.010, Doctoral Dissertation, Spring 2015

MTSE 6940.010, Individual Research, Spring 2015

MTSE 4060.010, Materials Science and Performance, Spring 2015 Syllabus

MTSE 6900.010, Special Problems, Spring 2015

MTSE 6950.010, Doctoral Dissertation, Fall 2014

MTSE 6940.010, Individual Research, Fall 2014

MTSE 5000.010, Thermodynamics of Materials, Fall 2014

MTSE 6950.010, Doctoral Dissertation, Summer 10W 2014

MTSE 6940.010, Individual Research, Summer 10W 2014

MTSE 4900.010, Special Topics in Materials Science and Engineering, Summer 10W 2014

MTSE 6950.010, Doctoral Dissertation, Spring 2014

MTSE 6940.010, Individual Research, Spring 2014

MTSE 4060.010, Materials Science and Performance, Spring 2014 Syllabus

MTSE 6950.010, Doctoral Dissertation, Fall 2013

MTSE 6940.010, Individual Research, Fall 2013

MTSE 5000.010, Thermodynamics of Materials, Fall 2013

MTSE 6950.010, Doctoral Dissertation, Summer 5W1 2013

MTSE 4910.010, Materials Science Research, Summer 10W 2013

MTSE 5930.010, Research Problems in Lieu of Thesis, Summer 10W 2013

MTSE 6950.010, Doctoral Dissertation, Spring 2013

MTSE 6940.010, Individual Research, Spring 2013

MTSE 5950.010, Master's Thesis, Spring 2013

MTSE 4060.010, Materials Science and Performance, Spring 2013 Syllabus

MTSE 5920.010, Research Problems in Lieu of Thesis, Spring 2013

MTSE 6950.010, Doctoral Dissertation, Fall 2012

MTSE 6940.010, Individual Research, Fall 2012

MTSE 6940.110, Individual Research, Fall 2012

MTSE 6940.210, Individual Research, Fall 2012

MTSE 5950.010, Master's Thesis, Fall 2012

MTSE 6900.110, Special Problems, Fall 2012

MTSE 5000.010, Thermodynamics of Materials, Fall 2012

MTSE 4900.010, Special Topics in Materials Science and Engineering, Summer 10W 2012

MTSE 6950.010, Doctoral Dissertation, Spring 2012

MTSE 6940.010, Individual Research, Spring 2012

MTSE 6940.110, Individual Research, Spring 2012

MTSE 5950.010, Master's Thesis, Spring 2012

MTSE 4060.010, Materials Science and Performance, Spring 2012 Syllabus

MTSE 5920.010, Research Problems in Lieu of Thesis, Spring 2012

MTSE 5930.010, Research Problems in Lieu of Thesis, Spring 2012

MTSE 5200.006, Advanced Concepts of Metallurgical Science, Fall 2011

MTSE 6950.010, Doctoral Dissertation, Fall 2011

MTSE 6940.010, Individual Research, Fall 2011

MTSE 6940.110, Individual Research, Fall 2011

MTSE 5950.010, Master's Thesis, Fall 2011

MTSE 4010.006, Physical Metallurgy, Fall 2011 Syllabus

MTSE 6940.010, Individual Research, Summer 10W 2011

MTSE 6940.110, Individual Research, Summer 10W 2011

MTSE 2900.010, Introduction to Materials Science Research, Summer 10W 2011

MTSE 6940.010, Individual Research, Spring 2011

MTSE 6940.110, Individual Research, Spring 2011

MTSE 5950.010, Master's Thesis, Spring 2011

MTSE 4060.010, Materials Science and Performance, Spring 2011 Syllabus

MTSE 6900.010, Special Problems, Spring 2011

MTSE 6900.110, Special Problems, Spring 2011

MTSE 6940.010, Individual Research, Fall 2010

MTSE 5950.010, Master's Thesis, Fall 2010

MTSE 5900.010, Special Problems in Materials Research, Fall 2010

MTSE 3030.010, Thermodynamics and Phase Diagrams, Fall 2010 Syllabus

MTSE 5000.010, Thermodynamics of Materials, Fall 2010

MTSE 5950.010, Master's Thesis, Summer 10W 2010

MTSE 6900.010, Special Problems, Summer 10W 2010

MTSE 5900.010, Special Problems in Materials Research, Summer 10W 2010

MTSE 6940.010, Individual Research, Spring 2010

MTSE 5950.010, Master's Thesis, Spring 2010

MTSE 4060.210, Materials Science and Performance, Spring 2010

MTSE 6900.010, Special Problems, Spring 2010

PHYS 6900.750, Special Problems, Spring 2010

MTSE 6940.517, Individual Research, Fall 2009

MTSE 5950.517, Master's Thesis, Fall 2009

PHYS 6900.700, Special Problems, Fall 2009

MTSE 5900.517, Special Problems in Materials Research, Fall 2009

MTSE 3030.503, Thermodynamics and Phase Diagrams, Fall 2009

MTSE 5000.503, Thermodynamics of Materials, Fall 2009

MTSE 6900.513, Special Problems, Summer 10W 2009

MTSE 5800.517, Special Studies in Materials Science, Summer 5W1 2009

MTSE 5800.517, Special Studies in Materials Science, Summer 5W2 2009

MTSE 4060.210, Materials Science and Performance, Spring 2009

MTSE 5700.001, Seminar in Materials Science and Engineering, Spring 2009

MTSE 6900.006, Special Problems, Spring 2009

MTSE 5200.517, Advanced Concepts of Metallurgical Science, Fall 2008

MTSE 4010.517, Physical Metallurgy, Fall 2008

MTSE 5800.010, Special Studies in Materials Science, Spring 2008

Published Publications

Published Intellectual Contributions

Abstracts and Proceedings

Srivilliputhur, S. G. (2006). Irradiation effects of helium and hydrogen in BCC single crystal iron.

Srivilliputhur, S. G. (2006). Kinetics of the nucleation and growth of helium bubbles in bcc iron.

Srivilliputhur, S. G. (2004). On the Lennard-Jones EAM potential.

Srivilliputhur, S. G. (2004). Stacking fault and twinning in nanocrystalline metals.

Srivilliputhur, S. G. (2003). Calculations of the structure and properties of rapidly quenched Ni/Zr alloys.

Book Chapter

Choudhuri, D., Jaeger, D. L., Srivilliputhur, S. G., Gibson, M. A., Banerjee, R. (2015). Creep response of a Zn containing Mg-Nd-La alloy. Magnesium Technology 2015. 35–39. Springer International Publishing.

Conference Proceeding

Dantu, V., Vempati, J., Srivilliputhur, S. (2014). Non-invasive blood glucose monitor based on spectroscopy using a smartphone. 6th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. 3695–3698.

Devaraj, A., Gupta, N., Nag, S., Fraser, H., Banerjee, R., Srivilliputhur, S. G. (2011). First Principles Simulations of Beta to Omega Transformation in the Titanium-Molybdenum System. APS Meeting Abstracts.

Deo, C. S., Srivilliputhur, S. G., Baskes, M., Maloy, S., James, M., Okuniewski, M., Stubbins, J. (2006). Kinetics of the Nucleation and Growth of Helium Bubbles in bcc Iron. MRS Proceedings. 929, 0929–II01.

Liao, X., Zhao, H., Srinivasan, S., Lavernia, E., Baskes, M. (2004). Stacking fault and twinning in nanocrystalline metals. Proc. Conf. Ultrafine Grained Materials III, TMS. Warrendale, Pennsylvania, USA. 3–10.

Hennig, R., Trinkle, D., Wilkins, J., Bouchet, J., Srinivasan, S., Albers, R. (2003). Blockade of alpha to omega Martensitic Transformation in Titanium by Impurities.. APS Meeting Abstracts. 1, 15006.

Cherne, F. J., Baskes, M. I., Schwarz, R. B., Srinivasan, S. (2003). Calculations of the Structure and Properties of Rapidly Quenched Ni/Zr Alloys. MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS. 754, 153–158.

Hatch, D., Stokes, H., Srinivasan, S., Lookman, T., Saxena, A. (2002). Analysis of BCC-HCP Reconstructive Transformation in Ti by Coupling Symmetry to First-Principles Calculations. APS Meeting Abstracts. 1, 21005.

Trinkle, D., Hennig, R., Wilkins, J., Hatch, D., Stokes, H., Jones, M., Albers, R., Srinivasan, S. (2002). Complete Titanium HCP to Omega Transformation Mechanism.. APS Meeting Abstracts. 1, 28006.

Kumar, P., Lookman, T., Srinivasan, S., Saxena, A. (2002). Molecular Dynamics Simulation of Elastic Waves in a Nanowire. APS Meeting Abstracts. 1, 24007.

Albers, R., Bouchet, J., Srinivasan, S., Trinkle, D., Hennig, R., Wilkins, J. (2002). Titanium HCP to Omega Transformation with Oxygen Impurities.. APS Meeting Abstracts.

Srinivasan, S., Hatch, D., Lookman, T., Saxena, A., Stokes, H. (2001). Analysis of BCC-HCP transformation in Ti by coupling symmetry to first-principles calculations.. APS Meeting Abstracts. 1, 3004.

Srinivasan, S., Dimitrov, D., Lookman, T., Saxena, A., Albers, R., Bishop, A. (2000). Elastic Constants from Molecular Dynamics in the Presence of Microstructure. APS Meeting Abstracts.

Saxena, A., Lookman, T., Srinivasan, S., Bishop, A., Mertens, F. (2000). Magnetoelastic Coupling and Deformation of Heisenberg Vortices. APS Meeting Abstracts. 1, 26008.

Journal Article

Salloom, R., Baskes, M. I., Srivilliputhur, S. G. (2022). Atomic level simulations of the phase stability and stacking fault energy of FeCoCrMnSi high entropy alloy. Modelling and Simulation in Materials Science and Engineering. 30, 075002. IOP.

Mantri, S. A., Nartu, M., Dasari, S., Sharma, A., Agarwal, P., Salloom, R., Sun, F., Ivanov, E., Cho, K., McWilliams, B., Srivilliputhur, S. G., Dahotre, N., Prima,, Banerjee, R. (2021). Suppression and Reactivation of Transformation and Twinning Induced Plasticity in Laser Powder Bed Fusion Additively Manufactured Ti-10V-2Fe-3Al. Progress in Additive Manufacturing. No. 48, 102406. Elsevier. https://www.sciencedirect.com/science/article/abs/pii/S2214860421005595

Dasari, S., Sharma, A., Byers, T. A., Glass, G. A., Srivilliputhur, S. G., Rout, B., Banerjee, R. (2021). Proton irradiation induced chemical ordering in an Al0. 3CoFeNi high entropy alloy. Applied Physics Letters. 119(16), 161907. AIP Publishing LLC.

Dasari, S., Sharma, A., Byers, T. A., Glass, G. A., Srivilliputhur, S., Rout, B., Banerjee, R. (2021). Proton irradiation induced chemical ordering in an Al0.3CoFeNi high entropy alloy. Applied Physics Letters. 119, 161907. College Park, MD: American Institute of Physics. https://aip.scitation.org/doi/pdf/10.1063/5.0065875

Salloom, R., Mantri, S. A., Banerjee, R., Srivilliputhur, S. G. (2021). First principles computation of composition dependent elastic constants of omega in titanium alloys: implications on mechanical behavior. Scientific Reports. No. 11, 12005. https://www.nature.com/articles/s41598-021-91594-5

Pantwane, M., Yang, T., Jin, Y., Joshi, S., Dasari, S., A., Krokhin, A., Srivilliputhur, S. G., Banerjee, R., Neogi, A., Dahotre, N. (2021). Crystallographic texture dependent bulk anisotropic elastic response of additively manufactured Ti6Al4V. Scientific Reports. No. 11, 633. https://www.nature.com/articles/s41598-020-80710-6

Paranjape, P., Srivilliputhur, S. G., Choudhuri, D. (2020). Correlation between bonding, vacancy migration mechanisms, and creep in model binary and ternary hcp-Mg solid solutions. Journal of Applied Physics. 128(14), 145103. AIP Publishing LLC.

Choudhuri, D., Srivilliputhur, S. G., Mishra, R. S. (2020). Deformation of lamellar FCC-B2 nanostructures containing Kurdjumov-Sachs interfaces: Relation between interfacial structure and plasticity. International Journal of Plasticity. 125, 191--209. Pergamon.

Salloom, R., Joshi, S. S., Dahotre, N. B., Srivilliputhur, S. G. (2020). Laser surface engineering of B4C/Fe nano composite coating on low carbon steel: Experimental coupled with computational approach. Other. 190, 108576. Elsevier.

Gwalani, B., Salloom, R., Srivilliputhur, S. G., Banerjee, R. (2019). Composition-dependent apparent activation-energy and sluggish grain-growth in high entropy alloys. 7, 267-274.

Choudhuri, D., Srivilliputhur, S. G. (2019). Density functional theory-based investigations of solute kinetics and precipitate formation in binary magnesium-rare earth alloys: A review. Computational Materials Science. 159, 235-256.

Srivilliputhur, S. G., Salloom, R. (2019). Elastic constants and structural stability of non-stoichiometric epsilon Ɛ-Fe2. 4C carbide. Journal of Materials Chemistry and Physics. 228, 210-214.

Choudhuri, D., Gwalani, B., Gorsse, S., Komarasamy, M., Mantri, S. A., Srivilliputhur, S. G., Mishra, R. S., Banerjee, R. (2019). Enhancing strength and strain hardenability via deformation twinning in fcc-based high entropy alloys reinforced with intermetallic compounds. Acta Materialia. 165, 420-430. Elsevier.

Paranjape, P., Gopal, P., Srivilliputhur, S. G. (2019). First-principles study of diffusion and interactions of hydrogen with silicon, phosphorus, and sulfur impurities in nickel. Journal of Applied Physics. 125, 125104.

Nandwana, P., Gupta, N., Srivilliputhur, S. G., Banerjee, R. (2018). A first principles study of commonly observed planar defects in Ti/TiB system. Computational Materials Science. 150, 197--201. Elsevier.

Salloom, R., Reith, D., Banerjee, R., Srivilliputhur, S. G. (2018). First principles calculations on the effect of interstitial oxygen on phase stability and $\beta$--$\alpha$ ″martensitic transformation in Ti--Nb alloys. Journal of Materials Science. 53(16), 11473--11487. Springer.

Gwalani, B., Salloom, R., Alam, T., Grace, S. V., Srivilliputhur, S. G., Banerjee, R. (2018). Investigation of Clusters and Their Effect on Grain Growth in Single Phase AlxCoCrFeNi High Entropy Alloys. Microscopy and Microanalysis. 24(S1), 2214--2215. Cambridge University Press.

Choudhuri, D., Banerjee, R., Srivilliputhur, S. G. (2018). Uniaxial deformation of face-centered-cubic (Ni)-ordered B2 (NiAl) bicrystals: atomistic mechanisms near a Kurdjumov--Sachs interface. Journal of Materials Science. 53(8), 5684--5695. Springer US.

Choudhuri, D., Zheng, Y., Alam, T., Shi, R., Hendrickson, M., Banerjee, S., Wang, Y., Srinivasan, S. G., Fraser, H., Banerjee, R. (2017). Coupled experimental and computational investigation of omega phase evolution in a high misfit titanium-vanadium alloy. Acta Materialia. 130, 215-228.

Karewar, S. V., Gupta, N., Groh, S., Martinez, E., Caro, A., Srivilliputhur, S. G. (2017). Effect of Li on the deformation mechanisms of nanocrystalline hexagonal close packed magnesium. Computational Materials Science. 126, 252-264.

Karewar, S., Gupta, N., Groh, S., Martinez, E., Caro, A., Srinivasan, S. (2017). Effect of Li on the deformation mechanisms of nanocrystalline hexagonal close packed magnesium. Computational Materials Science. 126, 252–264. Elsevier.

Choudhuri, D., Srinivasan, S. G., Gibson, M. A., Zheng, Y., Jaeger, D. L., Fraser, H. L., Banerjee, R. (2017). Exceptional increase in the creep life of magnesium rare-earth alloys due to localized bond stiffening. Nature Communications. 8, .

Choudhuri, D., Banerjee, R., Srinivasan, S. (2017). Interfacial structures and energetics of the strengthening precipitate phase in creep-resistant Mg-Nd-based alloys. Scientific Reports. 7, . Nature Publishing Group.

Gibson, J., Srinivasan, S., Baskes, M., Miller, R., Wilson, A. (2016). A multi-state modified embedded atom method potential for titanium. Modelling and Simulation in Materials Science and Engineering. 25(1), 015010. IOP Publishing.

Srivilliputhur, S., Srinivasan, S., Gibson, M. A., Banerjee, R. (2016). Bonding environments in a creep–resistant Mg-RE-Zn alloy.

Salloom, R., Banerjee, R., Srinivasan, S. (2016). Effect of $β$-stabilizer elements on stacking faults energies and ductility of $α$-titanium using first-principles calculations!!!. Journal of Applied Physics. 120(17), 175105. AIP Publishing.

Vora, H. D., Rajamure, R. S., Roy, A., Srinivasan, S., Sundararajan, G., Banerjee, R., Dahotre, N. B. (2016). Laser Assisted Additively Manufactured Transition Metal Coating on Aluminum. JOM. 68(7), 1819–1829. Springer US.

Chattopadhyay, S., Kelly, S., Shibata, T., Balasubramanian, M., Srinivasan, S., Du, J., Banerjee, R., Ayyub, P. (2016). Local structure, composition, and crystallization mechanism of a model two-phase ?composite nanoglass?. The Journal of Chemical Physics. 144(6), 064503. AIP Publishing.

Mohseni, H., Mensah, B. A., Gupta, N., Srivilliputhur, S. G., Scharf, T. W. (2015). Exceptional Friction Mitigation via Subsurface Plastic Shear in Defective Nanocrystalline Ceramics. Materials Research Letters. 3, 23-29.

Choudhuri, D., Alam, T., Borkar, T., Gwalani, B., Mantri, A., Srinivasan, S., Gibson, M., Banerjee, R. (2015). Formation of a Huesler-like L2 1 phase in a CoCrCuFeNiAlTi high-entropy alloy. Scripta Materialia. 100, 36–39. Pergamon.

Dahotre, N. B., Srivilliputhur, S. G., (2015). Laser Alloyed Al - W Coatings on Aluminum for Enhanced Corrosion Resistance. 328, 205-214.

Rajamure, R. S., Vora, H. D., Srinivasan, S., Dahotre, N. B. (2015). Laser alloyed Al-W coatings on aluminum for enhanced corrosion resistance. Applied Surface Science. 328, 205–214. North-Holland.

Karewar, S., Gupta, N., Caro, A., Srinivasan, S. (2014). A concentration dependent embedded atom method potential for the Mg–Li system. Computational Materials Science. 85, 172–178. Elsevier.

Rajamure, R. S., Vora, H. D., Gupta, N., Karewar, S., Srinivasan, S., Dahotre, N. B. (2014). Laser surface alloying of molybdenum on aluminum for enhanced wear resistance. Surface and Coatings Technology. Elsevier.

Baskes, M., Srinivasan, S. (2014). The embedded atom method ansatz: validation and violation. Modelling and Simulation in Materials Science and Engineering. 22(2), 025025. IOP Publishing.

Nag, S., Devaraj, A., Gupta, N., Williams, R., Srivilliputhur, S. G., Fraser, H., Banerjee, R. (2013). Coupling Atom Probe Tomography with Aberration-Corrected Scanning Transmission Electron Microscopy and First-Principles Computations to Investigate Omega Precipitation in Titanium Alloys. Microscopy and Microanalysis. 19(S2), 946--947. Cambridge University Press.

Vora, H. D., Rajamure, R. S., Soundarapandian, S., Srinivasan, S., Dahotre, N. B. (2013). Design and optimization of microstructure for improved corrosion resistance in laser surface alloyed aluminum with molybdenum. Other. 14(8), 1421–1432. Springer Berlin Heidelberg.

Dahotre, N., Srinivasan, S., Soundarapandian, S., Rajamure, R., Vora, H. (2013). Dilution of molybdenum on aluminum during laser surface alloying.

Vora, H. D., Rajamure, R. S., Soundarapandian, S., Srinivasan, S., Dahotre, N. B. (2013). Dilution of molybdenum on aluminum during laser surface alloying. Journal of Alloys and Compounds. 570, 133–143. Elsevier.

Srivilliputhur, S. G. (2013). Unexpected strain-stiffening in crystalline solid..

Jiang, C., Srinivasan, S. G. (2013). Unexpected strain-stiffening in crystalline solids. Nature. 496(7445), 339–342. Nature Publishing Group.

Srivilliputhur, S. G. (2012). First-principles study of self- and solute diffusion mechanisms in gamma prime Ni3Al.

Gopal, P., Srinivasan, S. (2012). First-principles study of self-and solute diffusion mechanisms in $γ$?-Ni 3 Al!!!. Physical Review B. 86(1), 014112. American Physical Society.

Mohseni, H., Mensah, B. A., Gupta, N., Srinivasan, S. G., Scharf, T. W. (2012). On tailoring the nanocrystalline structure of ZnO to achieve low friction. Other. 68(1), 17. Society of Tribologists and Lubrication Engineers.

Clavero, C., Guisinger, N. P., Srinivasan, S. G., Lukaszew, R. A. (2012). Study of Nb epitaxial growth on Cu (111) at sub-monolayer level. Journal of Applied Physics. 112(7), 074328. AIP Publishing.

Devaraj, A., Nag, S., Williams, R., Rajagopalan, S., Srivilliputhur, S. G., Fraser, H., Banerjee, R. (2011). Investigating Omega Precipitation in Titanium Alloys at the Atomic Scale. Journal of the Minerals, Metals, and Materials Society. Minerals, Metals and Materials Society/AIME, 420 Commonwealth Dr., P. O. Box 430 Warrendale PA 15086 United States.

Nag, S., Devaraj, A., Srinivasan, R., Williams, R., Gupta, N., Viswanathan, G., Tiley, J., Banerjee, S., Srinivasan, S., Fraser, H., others, (2011). Novel Mixed-Mode Phase Transition Involving a Composition-Dependent Displacive Component. Physical Review Letters. 106(24), 245701. APS.

Srivilliputhur, S. G. (2011). ovel mixed-mode phase transition involving a composition-dependent displacive component.

Caro, A., Hetherly, J., Stukowski, A., Caro, M., Martinez, E., Srivilliputhur, S. G., Zepeda-Ruiz, L., Nastasi, M. (2011). Properties of Helium bubbles in Fe and FeCr alloys. Journal of Nuclear Materials. 418(1), 261–268. Elsevier.

Srivilliputhur, S. G. (2011). Properties of Helium bubbles in Fe and FeCr alloys..

Srivilliputhur, S. G. (2011). The Role of Interface Structure in Spallation of a Layered Nanocomposite.

Gupta, N., Baskes, M., Srinivasan, S. (2011). The role of interface structure in spallation of a layered nanocomposite. JOM. 63(9), 74–77. Springer.

Uddin, J., Baskes, M., Srinivasan, S., Cundari, T. R., Wilson, A. K. (2010). Modified embedded atom method study of the mechanical properties of carbon nanotube reinforced nickel composites. Physical Review B. 81(10), 104103. APS.

Srivilliputhur, S. G. (2010). Modiﬁed embedded atom method study of the mechanical properties of carbon nanotube reinforced nickel composites,.

Watanabe, T., Srivilliputhur, S. G., Schelling, P. K., Tulenko, J. S., Sinnott, S. B., Phillpot, S. R. (2009). Thermal Transport in Off-Stoichiometric Uranium Dioxide by Atomic Level Simulation. Journal of the American Ceramic Society. 92(4), 850–856. Wiley Online Library.

Srivilliputhur, S. G. (2009). Thermal Transport in Off-stoichiometric Uranium Dioxide by Atomic Level Simulations.

Srivilliputhur, S. G. (2008). A computational method to identify interstitial sites in complex materials.

Jiang, C., Maloy, S., Srinivasan, S. (2008). A computational method to identify interstitial sites in complex materials. Scripta Materialia. 58(9), 739–742. Elsevier.

Srivilliputhur, S. G. (2008). Deformation twinning generates zero macro-strain in nanocrystalline metals.

Wu, X., Liao, X., Srinivasan, S., Zhou, F., Lavernia, E., Valiev, R., Zhu, Y. (2008). New deformation twinning mechanism generates zero macroscopic strain in nanocrystalline metals. Physical Review Letters. 100(9), 095701. APS.

Srivilliputhur, S. G. (2008). Point defect thermodynamics and diffusion in cementite: A first-principles study.

Jiang, C., Uberuaga, B., Srinivasan, S. (2008). Point defect thermodynamics and diffusion in Fe< sub> 3</sub> C: A first-principles study. Acta Materialia. 56(13), 3236–3244. Elsevier.

Srivilliputhur, S. G. (2008). Structural, elastic, and electronic properties of Fe3C from first principles.

Jiang, C., Srinivasan, S., Caro, A., Maloy, S. (2008). Structural, elastic, and electronic properties of Fe3C from first principles. Journal of Applied Physics. 103(4), 043502. AIP Publishing.

Srivilliputhur, S. G. (2007). A new multi-state modified embedded atom method.

Srivilliputhur, S. G. (2007). Atomistic simulations of shock induced microstructural evolution and spallation in single crystal nickel.

Srinivasan, S., Baskes, M., Wagner, G. (2007). Atomistic simulations of shock induced microstructural evolution and spallation in single crystal nickel. Journal of Applied Physics. 101(4), 043504. AIP Publishing.

Srivilliputhur, S. G. (2007). Atomistic Simulations of the Plasticity Behavior of Shock-Induced Polycrystalline Nickel.

Srivilliputhur, S. G. (2007). Computational modeling of Fe-Cr and Fe-Cu alloys at the atomic scale: from ab initio and thermodynamics to radiation-induced heterogeneous precipitation.

Srinivasan, S. G., Hecker, S. S., Follansbee, P. S., Baskes, M. I. (2007). Dr Smith goes to Los Alamos-Cyril Stanley Smith, Plutonium Metallurgy, and the Manhattan Project. A Cancer Journal for Clinicians. Indian Academy of Sciences.

Srivilliputhur, S. G. (2007). Helium Bubble Nucleation in BCC Iron Studied by Kinetic Monte Carlo Simulations.

Deo, C. S., Okuniewski, M. A., Srivilliputhur, S. G., Maloy, S. A., Baskes, M. I., James, M. R., Stubbins, J. F. (2007). Helium bubble nucleation in bcc iron studied by kinetic Monte Carlo simulations. Journal of Nuclear Materials. 361(2), 141–148. Elsevier.

Srivilliputhur, S. G. (2007). Kinetics of the migration and clustering of extrinsic gas in bcc metals.

Deo, C., Srinivasan, S., Baskes, M., Maloy, S., James, M., Okuniewski, M., Stubbins, J. (2007). Kinetics of the Migration and Clustering of Extrinsic Gas in bcc Metals. Journal of ASTM International. 4(9), 1–13. ASTM International.

Srivilliputhur, S. G. (2007). Models and Simulations of Nuclear Fuel Materials Properties.

Stan, M., Ramirez, J., Cristea, P., Hu, S., Deo, C., Uberuaga, B., Srivilliputhur, S. G., Rudin, S., Wills, J. (2007). Models and simulations of nuclear fuel materials properties. Journal of Alloys and Compounds. 444, 415–423. Elsevier.

Baskes, M., Srinivasan, S., Valone, S., Hoagland, R. (2007). Multistate modified embedded atom method. Physical Review B. 75(9), 094113. APS.

Caro, A., Caro, M., Klaver, P., Sadigh, B., Lopasso, E., Srinivasan, S. (2007). SIMULATING THE IRRADIATION OF MATERIALS-The Computational Modeling of Alloys at the Atomic Scale: From Ab Initio and Thermodynamics to Radiation-Induced Heterogeneous Precipitation. Journal of Minerals, Metals and Materials (JOM) Society, Vol. 53, No. 9, pp. 59(4), 52–57. [Warrendale, Pa.: The Society (TMS), c1989-.

Caro, A., Caro, M., Klaver, P., Sadigh, B., Lopasso, E., Srinivasan, S. (2007). The computational modeling of alloys at the atomic scale: From ab initio and thermodynamics to radiation-induced heterogeneous precipitation. JOM. 59(4), 52–57. Springer.

Srivilliputhur, S. G. (2007). The effects of helium on irradiation damage in single crystal iron.

Deo, C. S., Okuniewski, M. A., Srivilliputhur, S. G., Maloy, S. A., Baskes, M. I., James, M. R., Stubbins, J. F. (2007). The effects of helium on irradiation damage in single crystal iron. Journal of Nuclear Materials. 367, 451–456. Elsevier.

OKUNIEWSKI, M. A., DEO, C. S., SRINIVASAN, S. G., BASKES, M. I., JAMES, M. R., MALOY, S. A., STUBBINS, J. F. (2006). Irradiation effects of helium and hydrogen in BCC single crystal iron. Other. 94, 837–837. American> Nuclear Society.

Srivilliputhur, S. G. (2006). Plutonium Metallurgy and the Manhattan Project.

Srivilliputhur, S. G. (2006). Positron annihilation spectroscopy of proton irradiated single crystal BCC iron.

Okuniewski, M. A., Wells, D. P., Selim, F. A., Maloy, S. A., James, M. R., Stubbins, J. F., Deo, C. S., Srivilliputhur, S. G., Baskes, M. I. (2006). Positron annihilation spectroscopy of proton irradiated single crystal BCC iron. Journal of Nuclear Materials. 351(1), 149–154. Elsevier.

Srivilliputhur, S. G. (2006). Spallation of single crystal nickel by void nucleation at shock induced grain junctions.

Srinivasan, S., Baskes, M., Wagner, G. (2006). Spallation of single crystal nickel by void nucleation at shock induced grain junctions. Journal of Materials Science. 41(23), 7838–7842. Springer.

Srivilliputhur, S. G. (2005). Compact & dissociated dislocations in Al: Implications for deformation.

Srinivasan, S., Liao, X., Baskes, M., McCabe, R., Zhao, Y., Zhu, Y. (2005). Compact and dissociated dislocations in aluminum: implications for deformation. Physical Review Letters. 94(12), 125502. APS.

Hennig, R. G., Trinkle, D. R., Bouchet, J., Srinivasan, S. G., Albers, R. C., Wilkins, J. W. (2005). Impurities block the $α$ to $ω$ martensitic transformation in titanium!!!. Nature Materials. 4(2), 129–133. Nature Publishing Group.

Zhu, Y., Liao, X., Srinivasan, S., Lavernia, E. (2005). Nucleation of deformation twins in nanocrystalline face-centered-cubic metals processed by severe plastic deformation. Journal of Applied Physics. 98(3), 034319. AIP Publishing.

Zhu, Y., Liao, X., Srinivasan, S., Zhao, Y., Baskes, M., Lavernia, E. (2004). CRY 4.2 Deformation Mechanisms of Nanocrystalline Materials.

Srivilliputhur, S. G. (2004). Deformation twinning in nanocrystalline copper at room temperature and low strain rate.

Liao, X., Zhao, Y., Srinivasan, S., Zhu, Y., Valiev, R., Gunderov, D. (2004). Deformation twinning in nanocrystalline copper at room temperature and low strain rate. Applied Physics Letters. 84(4), 592–594. AIP.

Srivilliputhur, S. G. (2004). Formation mechanism of wide stacking faults in nanocrystalline Al.

Liao, X., Srinivasan, S., Zhao, Y., Baskes, M., Zhu, Y., Zhou, F., Lavernia, E., Xu, H. (2004). Formation mechanism of wide stacking faults in nanocrystalline Al. Applied Physics Letters. 84(18), 3564–3566. AIP.

Srivilliputhur, S. G. (2004). Melting behavior of nanosized lead particles embedded in an aluminum matrix.

Shi, Z., Wynblatt, P., Srinivasan, S. (2004). Melting behavior of nanosized lead particles embedded in an aluminum matrix. Acta Materialia. 52(8), 2305–2316. Elsevier.

Srivilliputhur, S. G. (2004). Non-classical nucleation in supercooled nickel.

Cherne, F., Baskes, M., Schwarz, R., Srinivasan, S., Klein, W. (2004). Non-classical nucleation in supercooled nickel. Modelling and Simulation in Materials Science and Engineering. 12(6), 1063. IOP Publishing.

Srivilliputhur, S. G. (2004). Nucleation and growth of deformation twins in nanocrystalline aluminum.

Zhu, Y., Liao, X., Srinivasan, S., Zhao, Y., Baskes, M., Zhou, F., Lavernia, E. (2004). Nucleation and growth of deformation twins in nanocrystalline aluminum. Applied Physics Letters. 85(21), 5049–5051. AIP.

Srinivasan, S., Baskes, M. (2004). On the Lennard–Jones EAM potential. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Science. 460(2046), 1649–1672. The Royal Society.

Srivilliputhur, S. G. (2003). Deformation mechanism in nanocrystalline Al: Partial dislocation slip.

Liao, X., Zhou, F., Lavernia, E., Srinivasan, S., Baskes, M., He, D., Zhu, Y. (2003). Deformation mechanism in nanocrystalline Al: Partial dislocation slip. Applied Physics Letters. 83(4), 632–634. AIP.

Trinkle, D., Hennig, R., Srinivasan, S., Hatch, D., Jones, M., Stokes, H., Albers, R., Wilkins, J. (2003). New mechanism for the $α$ to $ω$ martensitic transformation in pure titanium!!!. Physical Review Letters. 91(2), 025701. APS.

Srivilliputhur, S. G. (2003). New mechanism for the alpha to omega martensitic transformation in pure Titanium.

Srinivasan, S., Cahn, J. (2002). Challenging Some Free-Energy Reduction Criteria for Grain Growth. Other. 1–14. John Wiley & Sons, Inc..

Srinivasan, S., Hatch, D., Stokes, H., Saxena, A., Albers, R., Lookman, T. (2002). Mechanism for BCC to HCP transformation: generalization of the burgers model. Other.

Baskes, M., Asta, M., Srinivasan, S. (2001). Determining the range of forces in empirical many-body potentials using first-principles calculations. Philosophical Magazine A. 81(4), 991–1008. Taylor & Francis.

Srinivasan, S., Cahn, J. W., Jónsson, H., Kalonji, G. (1999). Excess energy of grain-boundary trijunctions: an atomistic simulation study. Acta Materialia. 47(9), 2821–2829. Elsevier.

Rasmussen, T., Jacobsen, K. W., Leffers, T., Pedersen, O. B., Srinivasan, S., Jonsson, H. (1997). Atomistic determination of cross-slip pathway and energetics. Physical Review Letters. 79(19), 3676. American Physical Society.

Srinivasan, S., Ashok, I., Jonsson, H., Kalonji, G., Zahorjan, J. (1997). Dynamic-domain-decomposition parallel molecular dynamics. Computer Physics Communications. 102(1-3), 44–58. North-Holland.

Srinivasan, S., Ashok, I., Jonsson, H., Kalonji, G., Zahorjan, J. (1997). Parallel short-range molecular dynamics using the Adhara runtime system. Computer Physics Communications. 102(1-3), 28–43. North-Holland.

Dunaway, D., Thiel, B., Srinivasan, S., Viney, C. (1995). Characterizing the cross-sectional geometry of thin, non-cylindrical, twisted fibres (spider silk). Journal of Materials Science. 30(16), 4161–4170. Kluwer Academic Publishers.

Other

Cundari, T., Du, J., Srinivasan, S., Wilson, A. K. (2012). Special issue: Applications of computational chemistry in materials science and materials chemistry Preface. ELSEVIER SCIENCE BV PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS.

Devaraj, A., Williams, R., Nag, S., Rajagopalan, S., Srivilliputhur, S. G., Fraser, H., Banerjee, R. (2010). On the Precipitation of the Omega Phase in the Beta Matrix of Titanium Alloys. Journal of the Minerals, Metals, and Materials Society. Minerals, Metals and Materials Society/AIME, 420 Commonwealth Dr., P. O. Box 430 Warrendale PA 15086 USA.

Technical Report

Nag, S., Devaraj, A., Gupta, N., Srinivasan, S., Banerjee, R., Srinivasan, R., Williams, R., Fraser, H., Viswanathan, G., Tiley, J., others, (2011). A New Class of Solid-Solid Phase Transformations Involving a Composition-Dependent Displacive Component (Preprint). DTIC Document.

Caro, A., Erhart, P., de Caro, M. S., Sadigh, B., Lopasso, E., Farkas, D., Srinivasan, S., LANL, C. J. (2006). Modelling Thermodynamics of Alloys for Fusion Application. Lawrence Livermore National Laboratory (LLNL), Livermore, CA.

Awarded Grants

Contracts, Grants and Sponsored Research

Contract

Mishra, R. S. (Principal), Scharf, T. W. (Co-Principal), Srivilliputhur, S. G. (Co-Principal), Jiang, Y. (Co-Principal), Mukherjee, S. (Co-Principal), Young, M. L. (Co-Principal), Banerjee, R. (Co-Principal), Reidy, R. F. (Co-Principal), Shepherd, (Co-Principal), "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," Sponsored by US Army Research Laboratory - ARL, Federal, $5500000 Funded. (July 15, 2021 – June 14, 2022).

Srivilliputhur, S. G., "Advanced Ballistics Materials," Sponsored by Army Research Laboratory, Federal, $8000000 Funded. (2018 – 2021).

Mishra, R. S., Scharf, T. W., Srivilliputhur, S. G., Jiang, Y., Mukherjee, S., Young, M. L., Shepherd, N., Reidy, R. F., "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," Sponsored by US Army Research Laboratory - ARL, Federal, $3250000 Funded. (July 15, 2020 – July 14, 2021).

Dahotre, N. (Co-Principal), Mishra, R. S. (Principal), Reidy, R. F. (Co-Principal), Young, M. L. (Co-Principal), Banerjee, R. (Co-Principal), Scharf, T. W. (Co-Principal), Srivilliputhur, S. G. (Co-Principal), Du, J. (Co-Principal), Xia, Z. (Co-Principal), Mukherjee, S. (Co-Principal), Voevodin, A. A. (Co-Principal), "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," Sponsored by US Army Research Laboratory, Federal, $2000000 Funded. (March 21, 2018 – March 20, 2020).

Mishra, R. S. (Principal), Banerjee, R. (Co-Principal), Dahotre, N. B. (Co-Principal), Du, J. (Co-Principal), Mukherjee, S. (Co-Principal), Reidy, R. F. (Co-Principal), Scharf, T. W. (Co-Principal), Srivilliputhur, S. G. (Co-Principal), Verbeck, G. F. (Co-Principal), Voevodin, A. A. (Co-Principal), Xia, Z. (Co-Principal), Young, M. L. (Co-Principal), "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," Sponsored by US Army Research Laboratory - ARL, Federal, $1000000 Funded. (March 21, 2018 – March 20, 2020).

Srivilliputhur, S. G. (Other), "Institute of Science & Engineering Simulation," Sponsored by US Air Force Research Laboratory, Federal, $7000000 Funded. (2008 – 2012).

Grant - Research

Srivilliputhur, S. G. (Principal), Banerjee, R. (Co-Principal), Baskes, M. (Co-Principal), "An Atomic Bonding Informed Approach to Rewrite the Rules of Solid-Solution and Precipitation Strengthening," Sponsored by Air Force Office of Scientific Research, Federal, $1005000 Funded. (July 2020 – August 2023).

Srivilliputhur, S. G., "DMREF/Collaborative Research: Accelerated Development of Next Generation of Ti Alloys by ICMSE Exploitation of Non-Conventional Transformation Pathways," Sponsored by NSF, Federal, $499026 Funded. (2014 – 2018).

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