Ravi Haridas

Previous Scheduled Teaching

Published Intellectual Contributions

Journal Article

• Haridas, R., Knight, W., Tiu, J., Summers, J., Davis, D., Cubit II, E., Sekung, A., Kusterer, E., Jabel, C., Urias, C., Lyon, Z., Gumaste, A., Kandasamy, K., Siller Carrillo, H.R., Mishra, R.S. (2024). SolidStir technology: A novel solid-state integrated manufacturing process for structural fabrication. Manufacturing Letters. 40 154-158.
• Gumaste, A., Tiu, J., Schwendemann, D., Singh, A., Alvarado, E., Berumen, A., Kandasamy, K., Siller Carrillo, H.R., Haridas, R., Mishra, R.S. (2024). Wires using multi-hole SolidStir Extrusion. Manufacturing Letters. 40 174-178.
• Haridas, R. (2022). Excellent synergy of tensile strength and high cycle fatigue in a novel additively manufactured Al-Ni-Ti-Zr alloy with a heterogeneous microstructure. Additive Manufacturing. 103380 Denton, 425 Bernard Street
• Haridas, R. (2022). Determination of Johnson-Cook plasticity model parameters for CoCrMo alloy. Materials Today.
• Haridas, R. (2022). Additive friction stir deposition of SS316: Effect of process parameters on microstructure evolution. Journal of Materials Characterization.
• Haridas, R. (2022). Deformation based additive manufacturing of a metastable high entropy alloy via Additive friction stir deposition. Additive Manufacturing.
• Haridas, R. (2022). Evaluation of the mean crushing load of perforated circular tubes undergoing progressive collapse. International Journal of Impact Engineering.
• Haridas, R. (2022). Effect of ceramic-binder interface on the mechanical properties of TiB2-HEA composites. Materials Science & Engineering: A.
• Haridas, R. (2022). Friction stir welding of SS 316 LN and Nitronic 50 jacket sections for application in superconducting fusion magnet systems. Materials & Design.
• Haridas, R. (2022). Increasing the yield strength while preserving strain hardenability and ductility in a beta titanium alloy exhibiting transformation induced plasticity (TRIP). Scripta Materialia.
• Haridas, R. (2022). Influence of welding parameters on mechanical, microstructure, and corrosion behavior of friction stir welded Al 7017 alloy. Materials Science & Engineering: A.
• Haridas, R. (2022). Work hardening in metastable high entropy alloys: a modified five-parameter model. Journal of Materials Research.
• Haridas, R. (2021). Friction stir-based additive manufacturing. Other.
• Haridas, R. (2021). Excellent ballistic impact resistance of Al0.3CoCrFeNi multi‑principal element alloy with unique bimodal microstructure. Other.
• Haridas, R. (2021). Mechanical properties and microstructural characteristics of additively manufactured C103 niobium alloy. Materials Science & Engineering: A.
• Haridas, R. (2021). Metastable high entropy alloys: An excellent defect tolerant material for additive manufacturing. Materials Science and Engineering: A.
• Haridas, R. (2021). Processing-structure-property correlation in additive friction stir deposited Ti-6Al-4V alloy from recycled metal chips. Additive Manufacturing.
• Haridas, R. (2021). Modeling the work hardening behavior in metastable high entropy alloys. Materials Science and Engineering: A.
• Haridas, R. (2021). Process induced multi-layered Titanium – Boron carbide composites via additive manufacturing. Additive Manufacturing.
• Haridas, R. (2021). Role of binder phase on the microstructure and mechanical properties of a mechanically alloyed and spark plasma sintered WC-FCC HEA composites. Journal of Alloys and Compounds.
• Haridas, R. (2021). High entropy alloys – Tunability of deformation mechanisms through integration of compositional and microstructural domains. Materials Science and Engineering: A.
• Haridas, R. (2021). Strain rate sensitive microstructural evolution in a TRIP assisted high entropy alloy: Experiments, microstructure and modeling. Mechanics of Materials.
• Haridas, R. (2020). Additively manufactured novel Al-Cu-Sc-Zr alloy: Microstructure and mechanical properties. Additive Manufacturing.
• Haridas, R. (2020). Defect-based probabilistic fatigue life estimation model for an additively manufactured aluminum alloy. Materials Science and Engineering: A.
• Haridas, R. (2020). Notch-tensile behavior of Al0.1CrFeCoNi high entropy alloy. Materials Science and Engineering: A.
• Haridas, R. (2014). Dynamic strength of single lap joints with similar and dissimilar adherends.

Contracts, Grants and Sponsored Research

Grant - Research

• Mishra, R.S., Haridas, R., "Modeling of Solid-State Materials Consolidation Repair Process for Static Strength and Fatigue Life Predictions," sponsored by NAVAIR/Global Engineering and Materials Inc., Federal, $120000 Funded. (2022 - 2025).
• Mishra, R.S., Haridas, R., "Rapid repair of corroded fastener holes via additive friction stir deposition," sponsored by NAVAIR, Federal, $169462 Funded. (2022 - 2024).
• Mishra, R.S. (Principal), Siller Carrillo, H.R. (Co-Principal), Haridas, R. (Co-Principal), "Solid-state Integrated Manufacturing Process for Lunar Environment (SIMPLE)," sponsored by NASA, Federal, $180000 Funded. (2023 - 2023).
• Mishra, R.S., Haridas, R., "Synthesis and direct manufacturing of high conductivity aluminum alloy conductors using an energy efficient solid-state process and their advanced characterization.," sponsored by Department of Energy/Enabled Engineering, Federal, $60000 Funded. (2022 - 2023).
• Mishra, R.S., Haridas, R., "Modeling and Process planning tool for hybrid metal additive/subtractive manufacturing to control residual stress and reduce distortion," sponsored by NAVAIR/Global Engineering and Materials, Inc, Federal, $76999 Funded. (2022 - 2023).

Sponsored Research

• Mishra, R.S., Haridas, R., "Friction stir additive deposition of stainless steel," sponsored by MELD Manufacturing, Private, $46979 Funded. (2022 - 2022).