publications

google scholar

2021

  • Srivastava, I., Silbert, L. E., Lechman, J. B., & Grest, G. S., Flow and arrest in stressed granular materials, (in review), arXiv

  • Clemmer, J. T., Srivastava, I., Grest, G. S., & Lechman, J. B., Shear is not always simple: rate-dependent effects of loading geometry on granular rheology, (in review), arXiv

  • Srivastava, I., Roberts, S. A., Clemmer, J. T., Lechman, J. B., & Grest, G. S., Jamming of bidisperse frictional spheres, Physical Review Research (Letter), (in press) arXiv

  • Fullmer, W. D., Porcu, R., Musser, J., Almgren, A. S., & Srivastava, I., The divergence of nearby trajectories in soft-sphere DEM, Particulogy, (in press) link

  • Srivastava, I., Silbert, L. E., Grest, G. S., & Lechman, J. B., Viscometric flow of dense granular materials under controlled pressure and shear stress, Journal of Fluid Mechanics, 907 (2021) link

2020

  • Santos, A. P., Bolintineanu, D. S., Grest, G. S., Lechman, J. B., Plimpton, S. J., Srivastava, I., & Silbert, L. E., Granular packings with sliding, rolling and twisting friction, Physical Review E, 102 (2020) link

  • Srivastava, I., Bolintineanu, D. S., Lechman, J. B., & Roberts, S. A., Controlling binder adhesion to impact electrode mesostructure and transport, ACS Applied Materials and Interfaces, 12 (2020) link (featured as a Supplemental Cover Article)

  • Srivastava, I., Lechman, J. B., Grest, G. S., & Silbert, L. E., Evolution of internal granular structure at the flow-arrest transition, Granular Matter, 22 (2020) link

2019

  • Srivastava, I., Silbert, L. E., Grest, G. S., & Lechman, J. B., Flow-arrest transitions in frictional granular matter, Physical Review Letters, 122 (2019) link

  • Srivastava, I., Peters, B. L., Lane, J. M. D., Fan, H., Salerno, K. M., & Grest, G. S., Mechanics of gold nanoparticle superlattices at high hydrostatic pressures, Journal of Physical Chemistry C, 123 (2019) link

  • Kantahraj R., Srivastava I., Marconnet A. M. & Fisher T. S., Granular jamming and thermal modeling in faceted particle packings, Thermal Conductivity 33/Thermal Expansion 21 (2019) link

2018

  • Salerno, K. M., Bolintineanu, D. S., Grest, G. S., Lechman, J. B., Plimpton, S. J., Srivastava, I., & Silbert, L. E., Effect of shape and friction on the packing and flow of granular materials, Physical Review E, 98 (2018) link

  • Lane, J. M. D., Salerno, K. M., Srivastava, I., Grest, G. S., & Fan, H., Modeling pressure-driven assembly of polymer coated nanoparticles, AIP Conference Proceedings, 1979 (2018) link

2017

  • Srivastava, I., Rheology, Mechanics and Transport in Granular Materials: A Versatile Computational Framework link

  • Srivastava, I., & Fisher, T. S., Slow creep in soft granular packings, Soft Matter, 13 (2017) link

  • Leung L. Y., Mao C., Srivastava I., Du P. & Yang C-Y., Flow function of pharmaceutical powders is predominantly governed by cohesion, not by friction coefficients, Journal of Pharmaceutical Sciences, 106 (2017) link

  • Kantharaj R., Srivastava I., Thaker K. R., Gaitonde A. U., Bruce A., Howater J., Fisher T. S. & Marconnet A. M., Thermal conduction in graphite flake-epoxy composites using infrared microscopy, IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems link

2014

  • Smith, K. C., Srivastava, I., Fisher, T. S., & Alam, M., Variable-cell method for stress-controlled jamming of athermal, frictionless grains, Physical Review E, 89 (2014) link

2013

  • Srivastava, I., Sadasivam, S., Smith, K. C., & Fisher, T. S., Combined microstructure and heat conduction modeling of heterogeneous interfaces and materials, Journal of Heat Transfer, 135 (2013) link

  • Srivastava, I., Smith, K. C., & Fisher, T. S., Shear-induced failure in jammed nanoparticle assemblies, AIP Conference Proceedings, 1542 (2013) link