A Badar and MS Tirumkudulu, “Mechanics of Saturated Colloidal Packings: A Comparison of Two Models.”, Transp Porous Med 135, 457-486 (2020): PDFÂ
2. BS Tomar, A Shahin and MS Tirumkudulu, “Cracking in drying films of polymer solutions”, Soft Matter, DOI: 10.1039/C9SM02294E (2020): PDFÂ
3. S Roy and MS Tirumkudulu, “Micro-mechanical theory of shear yield stress for strongly flocculated colloidal gel”, Soft Matter, DOI: 10.1039/c9sm01784d (2020): PDFÂ
4. A Yadav, E J Hinch and MS Tirumkudulu,“Capillary Induced Motion of Particles Bridging Interfaces of a Free-Standing Thin Liquid Film ”, Phys Rev Lett, 122, 098001 (2019): PDFÂ
5. MS Tirumkudulu, “Influence of the Gas Boundary Layer on the Stability of a Moving Planar Liquid Sheet”, Ind. Eng. Chem. Res., 58 (18), pp 76337639, (2019): PDFÂ
41_MST_IECR_Preprint.pdf
6. MS Tirumkudulu, “A note on the influence of the gas boundary layer on the stability of a moving planar liquid sheet”,  Ind. Eng. Chem. Res., Accepted (2018).
40_MST_SoftMatter_2018.pdf
7. MS Tirumkudulu, “Buckling of a drying colloidal drop”, Soft Matter, DOI: 10.1039/C8SM01324A (2018).
39_NM_MT_PRL_2018.pdf
8. N Majumdar and MS Tirumkudulu,“Dynamics of Radially Expanding Liquid Sheets”,Phys Rev Lett, 120, 164501 (2018).
38_Thawani_MST_JFM_2018.pdf
9. A Thawani and MS Tirumkudulu,“Trajectory of a model bacterium”, J Fluid Mech., 835, 252- 270, (2018).
37_Yadav_MST_SoftMatter.pdf
10. A Yadav and MS Tirumkudulu, “Free-standing monolayer films of ordered colloidal particles”,Soft Matter, 13, 4520-4525 (2017).
36_Roy_MT_SoftMatter_2016.pdf
11. S Roy and MS Tirumkudulu, “Universality in consolidation of colloidal gels”, Soft Matter, 12, 9402-9406 (2016).
30_Richa_Farha_ArchMicro_2016.pdf
12. R Karmakar, F Naaz, MS Tirumkudulu, KV Venkatesh, “Escherichia coli modulates its motor speed on sensing an attractant”, Arch. Microbiol., 198(8), 827-833 (2016).
33_Majumdar_MST_POF_2016.pdf
13. N Majumdar and MS Tirumkudulu, “Growth of Sinuous Waves on thin liquid sheets: Comparison of predictions with experiments”, Phys Fluids, 28(5), 052101 (2016).
14. S Roy and MS Tirumkudulu, “Yielding in a strongly aggregated colloidal gel, Part 1: Simulations”, J Rheo., 60(4), 559-574 (2016): PDFÂ
15. S Roy and MS Tirumkudulu, “Yielding in a strongly aggregated colloidal gel, Part 2: Theory”, J Rheo., 60(4), 575-586 (2016): PDFÂ
16. M Paramati, MS Tirumkudulu, “Open water bells”, Phys. Fluids, 28(3), 032105 (2016):PDFÂ
17. R Sengupta, MS Tirumkudulu, “Dynamics of cracking in drying colloidal sheets”, Soft Matter, 12(13), 3149-3155 (2016): PDFÂ
18. R Karmakar, RVS Uday Bhaskar, RE Jesudasan, MS Tirumkudulu, KV Venkatesh, “Enhance- ment of swimming speed leads to a more-efficient chemotactic response to repellent”, Applied and Environmental Microbiology, 82, 1205 (2016): PDFÂ
19. RVS Uday Bhaskar, R Karmakar, D Deepika, MS Tirumkudulu, KV Venkatesh, “Variation of swimming speed enhances the chemotactic migration of Escherichia coli”, Systems and Synthetic Biology, 1-11 (2015):PDFÂ
20.D Deepika, R Karmakar, MS Tirumkudulu, KV Venkatesh, “Variation in swimming speed of Escherichia coli in response to attractant”, Arch. Microbiol. 197 (2), 211-222 (2015): PDFÂ
21. M. Paramati, M. S. Tirumkudulu and P. Schmid, Stability of a moving radial liquid sheet: Experiments, J. Fluid Mech., 770, 398-423 (2015): PDFÂ
22. R. Karmakar, R. Gulvady, M.S. Tirumkudulu and K.V. Venkatesh, Motor characteristics determine the rheological behaviour of a suspension of microswimmers Phys. Fluids, 26, 071905 (2014): PDFÂ
23. S.K. Sundar and M.S. Tirumkudulu, Synthesis of sub-100nm liposomes via hydration in a packed bed of colloidal particles, Ind. Eng. Chem. Res., 53 (1),198205, (2014): PDFÂ
24. M. S. Tirumkudulu and M. Paramati, Stability of a moving radial liquid sheet: Time-dependent equations”, Phys. Fluids, 25(10) (2013): PDFÂ
25. S.B. Shinde, V.U. Kala, S. Kadali, M.S. Tirumkudulu, D.N. Singh, A novel methodology for measuring the tensile strength of expansive clays, Geomechanics and Geoengineering, 7 (1), 15-25 (2012): PDFÂ
26. A. Sarkar, and M. S. Tirumkudulu, Ultimate strength of a colloidal packing”, Soft Matter, 8(2), 303-306 (2012): PDFÂ
27. A. Sarkar, and M. S. Tirumkudulu, Delamination of drying nanoparticle suspensions”, Soft Matter, 7, 8816-8822 (2011): PDFÂ
28. A. Sarkar and M. S. Tirumkudulu, “Asymptotic analysis of stresses near a crack tip in a two- dimensional colloidal packing saturated with liquid”, Phys. Rev. E, 83, 051401 (2011): PDFÂ
29. R. R. Vuppula, M.S. Tirumkudulu and K.V. Venkatesh, “Chemotaxis of Escherichia coli to L-serine.”, Phys Biol. , 7(2), 026007 (2010): PDFÂ
30. R. R. Vuppula, M.S. Tirumkudulu and K.V. Venkatesh, “Mathematical modeling and Experi- mental validation of chemotaxis under controlled gradients of methyl-aspartate in Escherichia coli”, Mol. BioSys. , 6, 1082 (2010)
31. A. Mulmule, M.S. Tirumkudulu and K. Ramamurthi, “Instability of a Moving Liquid Sheet in the Presence of Acoustic Forcing”, Phys. Fluids 22 In Press (2010): PDFÂ
32. N.H. Parmar, M.S. Tirumkudulu and E.J. Hinch, “Coating flow of viscous Newtonian liquids on a rotating vertical disk ”, Phys. Fluids 21, 103102 (2009): PDFÂ
33. N.H.Parmar and M.S.Tirumkudulu,“Ring-shaped structure in free surface flow of non-Newtonian liquids”, Phys. Rev. E, 80, 036303 (2009): PDFÂ
34. A. Sarkar, and M.S. Tirumkudulu, “Consolidation of charged colloids during drying”, Langmuir,25(9), 4945 (2009): PDFÂ
35. K.B. Singh, L.R. Bhosale, and M.S. Tirumkudulu, “Cracking in drying colloidal films of flocculated dispersions”, Langmuir, 25(8), 4284 (2009): PDFÂ
36. K B Singh, G Deoghare and M S Tirumkudulu, “Cracking in hard-soft latex blends: Theory and Experiments, Langmuir, 25(2), 751 (2009): PDFÂ
37. S Bajpai and M S Tirumkudulu, An experimental study of impulsively started turbulent axisymmetric jets, Eur. Phys. J. B, 61, 293-297 (2008): PDFÂ
38. K B Singh and M.S. Tirumkudulu, “Cracking in Drying Colloidal Films”, Phys. Rev. Lett, 98, 218302 (2007): PDFÂ
39. P K Jha and M S Tirumkudulu, “Measurement of tack of Newtonian liquids on porous sub- strates”, Phys. Fluids, 19, 123101 (2007): PDFÂ
40. M.S. Tirumkudulu and W.B. Russel, “Cracking in drying latex films”, Langmuir, 21(11), 4938 (2005): PDFÂ
41. M.S. Tirumkudulu and W.B. Russel, “Role of capillary stresses in film formation”, Langmuir20, 2947 (2004): PDFÂ
42. M. Tirumkudulu, W.B. Russel and T.J. Huang, “Understanding wet tack in water-borne adhesives”, Phys. Fluids 15, 1588 (2003): PDFÂ
43. M. Tirumkudulu, W.B. Russel and T.J. Huang, “Measuring the tack of water-borne adhesives”,J. Rheol 47 (2003): PDFÂ
44. M. Tirumkudulu and A. Acrivos, “Steady flows of a highly viscous liquid inside a rotating hori- zontal cylinder: Lubrication analysis, numerical computations and experimental measurements,”Phys. Fluids 13, 14 (2001): PDFÂ
45. M. Tirumkudulu, A. Mileo and A. Acrivos, “Particle segregation in monodisperse sheared suspensions in a partially filled rotating horizontal cylinder,” Phys. Fluids 12, 1615 (2000):PDFÂ
46. M. Tirumkudulu, A. Tripathi and A. Acrivos, “Particle segregation in monodisperse sheared suspensions” Phys. Fluids 11, 507 (1999). Corregendumibid 11, 1962 (1999): PDFÂ