Nitin Daphalapurkar
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A scaling law for the dynamic strength of brittle solids
J Kimberley, KT Ramesh, NP Daphalapurkar
Acta Materialia 61 (9), 3509-3521, 2013
Determination of mechanical properties of sand grains by nanoindentation
NP Daphalapurkar, F Wang, B Fu, H Lu, R Komanduri
Experimental Mechanics 51, 719-728, 2011
Characterization of the linearly viscoelastic behavior of human tympanic membrane by nanoindentation
NP Daphalapurkar, C Dai, RZ Gan, H Lu
Journal of the mechanical behavior of biomedical materials 2 (1), 82-92, 2009
A three-dimensional computational human head model that captures live human brain dynamics
S Ganpule, NP Daphalapurkar, KT Ramesh, AK Knutsen, DL Pham, ...
Journal of neurotrauma 34 (13), 2154-2166, 2017
Simulation of dynamic crack growth using the generalized interpolation material point (GIMP) method
NP Daphalapurkar, H Lu, D Coker, R Komanduri
International Journal of Fracture 143, 79-102, 2007
Indirect traumatic optic neuropathy
EL Singman, N Daphalapurkar, H White, TD Nguyen, L Panghat, J Chang, ...
Military Medical Research 3, 1-6, 2016
Predicting variability in the dynamic failure strength of brittle materials considering pre-existing flaws
NP Daphalapurkar, KT Ramesh, L Graham-Brady, JF Molinari
Journal of the Mechanics and Physics of Solids 59 (2), 297-319, 2011
Tomography and simulation of microstructure evolution of a closed-cell polymer foam in compression
NP Daphalapurkar, JC Hanan, NB Phelps, H Bale, H Lu
Mechanics of advanced materials and structures 15 (8), 594-611, 2008
A method for measuring linearly viscoelastic properties of human tympanic membrane using nanoindentation
G Huang, NP Daphalapurkar, RZ Gan, H Lu
Multiscale simulation from atomistic to continuum–coupling molecular dynamics (MD) with the material point method (MPM)
H Lu, NP Daphalapurkar, B Wang, S Roy, R Komanduri
Philosophical magazine 86 (20), 2971-2994, 2006
On compressive brittle fragmentation
JD Hogan, L Farbaniec, N Daphalapurkar, KT Ramesh
Journal of the American Ceramic Society 99 (6), 2159-2169, 2016
A 3D computational head model under dynamic head rotation and head extension validated using live human brain data, including the falx and the tentorium
YC Lu, NP Daphalapurkar, AK Knutsen, J Glaister, DL Pham, JA Butman, ...
Annals of biomedical engineering 47, 1923-1940, 2019
The importance of structural anisotropy in computational models of traumatic brain injury
RW Carlsen, NP Daphalapurkar
Frontiers in neurology 6, 122217, 2015
Kinetics of a fast moving twin boundary in nickel
NP Daphalapurkar, JW Wilkerson, TW Wright, KT Ramesh
Acta materialia 68, 82-92, 2014
Effect of bulk modulus on deformation of the brain under rotational accelerations
S Ganpule, NP Daphalapurkar, MP Cetingul, KT Ramesh
Shock Waves 28, 127-139, 2018
Orientation dependence of the nucleation and growth of partial dislocations and possible twinning mechanisms in aluminum
NP Daphalapurkar, KT Ramesh
Journal of the Mechanics and Physics of Solids 60 (2), 277-294, 2012
Quantitative in situ studies of dynamic fracture in brittle solids using dynamic X-ray phase contrast imaging
AFT Leong, AK Robinson, K Fezzaa, T Sun, N Sinclair, DT Casem, ...
Experimental Mechanics 58, 1423-1437, 2018
The effective compliance of spatially evolving planar wing-cracks
RS Ayyagari, NP Daphalapurkar, KT Ramesh
Journal of the Mechanics and Physics of Solids 111, 503-529, 2018
The biomechanics of indirect traumatic optic neuropathy using a computational head model with a biofidelic orbit
Y Li, E Singman, T McCulley, C Wu, N Daphalapurkar
Frontiers in Neurology 11, 346, 2020
Three-dimensional modeling and simulations of single-crystal and bi-crystal titanium for high-strain-rate loading conditions
B Feng, CA Bronkhorst, Z Liu, BM Morrow, EK Cerreta, WH Li, ...
International Journal of Plasticity 133, 102771, 2020
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