Applying Solid Mechanics to Design Better Metamaterials. Prospective PhD student in the field of Solid Mechanics (Statics and Dynamics).
I work on the mechanical response of auxetic metamaterials. I utilize concepts of mechanics of materials to derive closed-form mathematical expressions for overall mechanical properties of auxetics. I use Abaqus for Finite Element Analysis. I have used the quasi-static compression test, Split-Hopkinson Pressure Bar test, drop mass test, etc. in my research work.
Job Experience
Degree
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June 2009 – August 2010
2021 – (Ongoing)
2016 – 2020
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June 15, 2020
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August 10, 2021
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March 25, 2021
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April 30, 2022
Validation of Abaqus simulation of Drop Mass Test results with experiment, using quasi-static compression and Split Hopkinson Pressure Bar test results of PLA specimens to generate the material model.
Reviewed the effect of parent materials, 3D printing process parameters and topology of architected meta-materials.
The method is similar to the longitudinal paper, but in the case of transverse load, there exists an unbalanced moment at the unit cell level, which is balanced due to interconnection of adjacent cells and unbalanced moment of the opposite sign in them.
Used Timoshenko Beam theory and Castigliano’s Second theorem to obtain overall mechanical properties of S-structure. Validated using Abaqus simulation results.
Research Interest: Mechanics, Strength of Materials, Mechanical Metamaterials.