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Nitin P Daphalapurkar

Showing results (1-10 of 8) with videos related to

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Frontiers in Neurology|March 7, 2015
The importance of structural anisotropy in computational models of traumatic brain injuryRika W Carlsen, Nitin P Daphalapurkar
Journal of the Mechanical Behavior of Biomedical Materials|July 25, 2009
Characterization of the linearly viscoelastic behavior of human tympanic membrane by nanoindentationNitin P Daphalapurkar, Chenkai Dai, Rong Z Gan, et al.
Journal of Biomechanical Engineering|February 27, 2008
A method for measuring linearly viscoelastic properties of human tympanic membrane using nanoindentationGang Huang, Nitin P Daphalapurkar, Rong Z Gan, et al.
Polymers|February 13, 2026
Compressive Response and Energy Absorption of Additively Manufactured Elastomers with Varied Simple Cubic ArchitecturesLindsey B Bezek, Sushan Nakarmi, Jeffery A Leiding, et al.
Polymers|November 27, 2024
Effect of Part Size, Displacement Rate, and Aging on Compressive Properties of Elastomeric Parts of Different Unit Cell Topologies Formed by Vat Photopolymerization Additive ManufacturingLindsey B Bezek, Sushan Nakarmi, Alexander C Pantea, et al.
Scientific Reports|December 25, 2025
Inverse design of cellular structures with the targeted nonlinear mechanical responseSushan Nakarmi, Nitin P Daphalapurkar, Kwan-Soo Lee, et al.
Journal of Neurotrauma|April 11, 2017
A Three-Dimensional Computational Human Head Model That Captures Live Human Brain DynamicsShailesh Ganpule, Nitin P Daphalapurkar, Kaliat T Ramesh, et al.
Scientific Reports|July 19, 2024
Weak shock compaction on granular saltDawa Seo, Eric M Heatwole, Trevor A Feagin, et al.
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Frontiers in Neurology|March 7, 2015
The importance of structural anisotropy in computational models of traumatic brain injuryRika W Carlsen, Nitin P Daphalapurkar
Journal of the Mechanical Behavior of Biomedical Materials|July 25, 2009
Characterization of the linearly viscoelastic behavior of human tympanic membrane by nanoindentationNitin P Daphalapurkar, Chenkai Dai, Rong Z Gan, et al.
Journal of Biomechanical Engineering|February 27, 2008
A method for measuring linearly viscoelastic properties of human tympanic membrane using nanoindentationGang Huang, Nitin P Daphalapurkar, Rong Z Gan, et al.
Polymers|February 13, 2026
Compressive Response and Energy Absorption of Additively Manufactured Elastomers with Varied Simple Cubic ArchitecturesLindsey B Bezek, Sushan Nakarmi, Jeffery A Leiding, et al.
Polymers|November 27, 2024
Effect of Part Size, Displacement Rate, and Aging on Compressive Properties of Elastomeric Parts of Different Unit Cell Topologies Formed by Vat Photopolymerization Additive ManufacturingLindsey B Bezek, Sushan Nakarmi, Alexander C Pantea, et al.
Scientific Reports|December 25, 2025
Inverse design of cellular structures with the targeted nonlinear mechanical responseSushan Nakarmi, Nitin P Daphalapurkar, Kwan-Soo Lee, et al.
Journal of Neurotrauma|April 11, 2017
A Three-Dimensional Computational Human Head Model That Captures Live Human Brain DynamicsShailesh Ganpule, Nitin P Daphalapurkar, Kaliat T Ramesh, et al.
Scientific Reports|July 19, 2024
Weak shock compaction on granular saltDawa Seo, Eric M Heatwole, Trevor A Feagin, et al.
Pageof 1