| High‐speed melt spinning of bicomponent fibers: Mechanism of fiber structure development in poly (ethylene terephthalate)/polypropylene system T Kikutani, J Radhakrishnan, S Arikawa, A Takaku, N Okui, X Jin, F Niwa, ... Journal of applied polymer science 62 (11), 1913-1924, 1996 | 168 | 1996 |
| Structure formation during the isothermal crystallization of oriented amorphous poly (ethylene terephthalate) films J Radhakrishnan, A Kaito Polymer 42 (8), 3859-3866, 2001 | 59 | 2001 |
| Microcapsule and method of producing same JSRJNAPTYT Iwasaki US Patent 7,901,772, 2011 | 50* | 2011 |
| Ink-printed substrate web exhibiting improved ink rub-off resistance and method thereof SS RJ Nair US Patent 7,205,041, 2007 | 50 | 2007 |
| High-speed melt spinning of sheath-core bicomponent polyester fibers: High and low molecular weight poly (ethylene terephthalate) systems J Radhakrishnan, T Kikutani, N Okui Textile research journal 67 (9), 684-694, 1997 | 48 | 1997 |
| Interaction between thermal shrinkage and crystallization in axially oriented poly (ethylene terephthalate) fibres and films VB Gupta, J Radhakrishnan, SK Sett Polymer 34 (18), 3814-3822, 1993 | 47 | 1993 |
| Effect of processing history on shrinkage stress in axially oriented poly (ethylene terephthalate) fibres and films VB Gupta, J Radhakrishnan, SK Sett Polymer 35 (12), 2560-2567, 1994 | 46 | 1994 |
| Nearly pure α2 form crystals obtained by melt crystallization of high tacticity isotactic polypropylene J Radhakrishnan, K Ichikawa, K Yamada, A Toda, M Hikosaka Polymer 39 (13), 2995-2997, 1998 | 38 | 1998 |
| Absorbent article having pigmented composite backsheet with hunter value KFH M Schnabel, RJ Nair US Patent 8,613,736, 2013 | 37 | 2013 |
| Effect of molecular orientation on the crystallization and melting behavior in poly (ethylene terephthalate) EB Gowd, C Ramesh, MS Byrne, NS Murthy, J Radhakrishnan Polymer 45 (19), 6707-6712, 2004 | 28 | 2004 |
| Enhancement of fiber structure formation of a liquid crystalline copolyester via ultra‐high speed bicomponent spinning with poly (ethylene terephthalate) J Radhakrishnan, H Ito, T Kikutani, N Okui Polymer Engineering & Science 39 (1), 89-98, 1999 | 28 | 1999 |
| Characterization of the network in nonbirefringent flow-drawn poly (ethylene terephthalate) films J Radhakrishnan, VB Gupta Journal of Macromolecular Science, Part B: Physics 32 (2), 243-259, 1993 | 26 | 1993 |
| Thinning behavior of the spinline in high-speed bicomponent spinning of high molecular wight and low molecular wight poly (ethylene terephthalate) J Radhakrishnan, T Kikutani, N Okui Sen'i Gakkaishi 52 (11), 618-622, 1996 | 22 | 1996 |
| Diaper including ink-printed substrate web SS RJ Nair US Patent 7,727,353, 2010 | 15 | 2010 |
| Dependence of disperse dye diffusion on the structure and morphology of oriented heat–set polyester fibres J Radhakrishnan, UP Kanitkar, VB Gupta Journal of the Society of Dyers and Colourists 113 (2), 59-63, 1997 | 15 | 1997 |
| Changes in the morphology of drawn poly (ethylene terephthalate) yarn on taut and free annealing C Ramesh, VB Gupta, J Radhakrishnan Journal of Macromolecular Science, Part B: Physics 36 (2), 281-299, 1997 | 13 | 1997 |
| Crystal perfection in axially oriented poly (ethy1ene terephthalate) fibers and films and its dependence on process variables VB Gupta, AK Jain, J Radhakrishnan, PK Chidambareswaran Journal of Macromolecular Science—Physics 33 (2), 185-207, 1994 | 13 | 1994 |
| Quality of rice grains from sheath rot-affected plants. P Vidhyasekaran, K Ranganathan, B Rajamanickam, J Radhakrishnan | 13 | 1984 |
| High-speed Melt Spinning of PET: Mechanism of Fiber Structure Formation using a Liquid Isothermal Bath as Modifier T Kikutani, J Radhakrishnan, M Sato, N Okui, A Takaku International Polymer Processing 11 (1), 42-49, 1996 | 11 | 1996 |
| Electronic energy transfer in compatible blends of poly (di-n-hexylsilane) and poly (methyl-n-propylsilane) J Radhakrishnan, N Tanigaki, A Kaito Polymer 40 (6), 1381-1388, 1999 | 10 | 1999 |
