| Sl.No. | International Journals |
|---|---|
| 1. | C Pradeep Raja, T Ramesh, P Paavai, M Amal Jerald Joseph, 2023, Numerical and Experimental Study on Hydroforming of Thin Metallic Sheets, Advances in Forming, Machining and Automation, 97-114. |
| 2. |
Kailasanathan, C., Rajkumar, P.R., Rajini, N., Sivakumar, G.D., Ramesh, T., Ismail, S.O., Mohammad, F. and Al-Lohedan, H.A., 2021. Characterization and optimization of influence of MoS2 hybridization on tribological behaviours of Mg–B4C composites. Bulletin of Materials Science, 44(3), pp.1-18 Impact Factor: 1.783 |
| 3. |
Karthik Babu, N.B., Muthukumaran, S., Ramesh, T. and Arokiasamy, S., 2021. Effect of agro-waste micro coir pith and nano-alumina reinforcement on thermal degradation and dynamic mechanical behavior of polyester composites. Journal of Natural Fibers, 18(4), pp.581-593. Impact Factor: 5.323 |
| 4. |
Raja, C.P. and Ramesh, T., 2021. Influence of size effects and its key issues during microforming and its associated processes–a review. Engineering Science and Technology, an International Journal, 24(2), pp. 556 - 570. Impact Factor: 5.155 |
| 5. |
Ramakrishna, V.V., Kavita, S., Ramesh, T., Gautam, R. and Gopalan, R., 2021. On the Structural and Magnetic Properties of Mn-Bi Alloy Jet Milled at Different Feed Rates. Journal of Superconductivity and Novel Magnetism, 34(3), pp. 733 - 737. Impact Factor: 1.506 |
| 6. | Prakash, L. and Ramesh, T., 2021. Investigation of possible failure patterns of wrapper supports servicing at zones of elevated temperatures. Materials Today: Proceedings, 46, pp. 9564 - 9572. |
| 7. |
Kavita, S., Ramakrishna, V.V., Behara, S., Suganthi, S., Kar, D.N., Thomas, T., Ramesh, T., Sethupathi, K., and Gopalan, R., 2020. Investigation of magnetocaloric and mechanical properties of Ni49-xMn39Sb12Cox alloys. Journal of Alloys and Compounds, 847, p.156558. Impact Factor: 6.371 |
| 8. | Babu, N.K., Ramesh, T. and Muthukumaran, S., 2020. Physical, tribological, and viscoelastic behavior of machining wear debris powder reinforced epoxy composites. Journal of Cleaner Production, 272, p.122786. Impact Factor: 11.072 |
| 9. |
Karthik Babu, N.B., Muthukumaran, S., Arokiasamy, S. and Ramesh, T., 2020. Thermal and mechanical behavior of the coir powder-filled polyester micro-composites. Journal of Natural Fibers, 17(7), pp.1058-1068. Impact Factor: 5.323 |
| 10. |
Kannan, T.D.B., Tutta, G., Sathiya, P. and Ramesh, T., 2020. POST Weld Heat Treatment of NiTinol Shape Memory Alloy Using Laser Power Source. Surface Review and Letters, 27(06), p.1950160. Impact Factor: 1.240 |
| 11. | Prakash, L. and Ramesh, T., 2020. Sustainability analysis of HRSG modules against high-velocity exhaust of advance class Fr9FB gas turbines. Materials Today: Proceedings, 27, pp.2870-2879. |
| 12. | Elsen, R., Bharadwaj, K. and Ramesh, T., 2019. A Parametric Study on Electro Thermally Actuated Novel Compliant Microgripper (No. 2019-28-0032). SAE Technical Paper. |
| 13. |
Satthiyaraju, M. and Ramesh, T., 2019. Effect of annealing treatment on PVDF nanofibers for mechanical energy harvesting applications. Materials Research Express, 6(10), p.105366. Impact Factor: 2.025 |
| 14. | NB, K.B. and Ramesh, T., 2019. Enhancement of thermal and mechanical properties of novel micro-wear debris reinforced epoxy composites. Materials Research Express, 6(10), p.105358. Impact Factor: 2.025 |
| 15. |
Satthiyaraju, M. and Ramesh, T., 2019. Nanomechanical, mechanical responses, and characterization of piezoelectric nanoparticle-modified electrospun PVDF nanofibrous films. Arabian Journal for Science and Engineering, 44(6), pp.5697-5709. Impact Factor: 2.334 |
| 16. | Deepan Bharathi Kannan, T., Pegada, R., Sathiya, P. and Ramesh, T., 2018. A comparison of the effect of different heat treatment processes on laser-welded NiTinol sheets. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 40(12), pp.1-11. Impact Factor:2.220 |
| 17. |
Ramakrishna, V.V., Kavita, S., Gautam, R., Ramesh, T. and Gopalan, R., 2018. Investigation of structural and magnetic properties of Al and Cu doped MnBi alloy. Journal of Magnetism and Magnetic Materials, 458, pp.23-29. Impact Factor:3.097 |
| 18. |
Nilagiri Balasubramanian, K.B. and Ramesh, T., 2018. Role, effect, and influences of micro and nano‐fillers on various properties of polymer matrix composites for microelectronics: a review. Polymers for Advanced Technologies, 29(6), pp.1568-1585. Impact Factor:3.348 |
| 19. |
Bharanidaran, R. and Ramesh, T., 2017. A modified post-processing technique to design a compliant-based microgripper with a plunger using topological optimization. The International Journal of Advanced Manufacturing Technology, 93(1), pp.103-112. Impact Factor: 3.226 |
| 20. |
Kannan, T., Ramesh, T. and Sathiya, P., 2017. Application of artificial neural network modelling for optimization of Yb: YAG laser welding of Nitinol. Transactions of the Indian Institute of Metals, 70(7), pp.1763-1771. Impact Factor: 1.499 |
| 21. |
Deepan Bharathi Kannan, T., Shegokar, A.R., Ramesh, T. and Sathiya, P., 2017. Modelling and experimental investigation on laser welding of nitinol. Emerging Materials Research, 6(1), pp.89-99. Impact Factor: 1.795 |
| 22. |
Kannan, T.D.B., Shegokar, A.R., Sathiya, P. and Ramesh, T., 2017. Parameter design and analysis in laser welding of NiTinol shape memory alloy. Materials Today: Proceedings, 4(8), pp.8883-8891. Impact Factor: 1.46 |
| 23. |
Kannan, T.D.B., Sathiya, P. and Ramesh, T., 2017. Metallurgical aspects and optimization of Yb: YAG laser welded nitinol shape memory alloy. Materials Today: Proceedings, 4(2), pp.1268-1276. Impact Factor: 1.46 |
| 24. |
Sathiya, P. and Ramesh, T., 2017. Experimental investigation and characterization of laser-welded NiTinol shape memory alloys. Journal of Manufacturing Processes, 25, pp.253-261. Impact Factor: 5.684 |
| 25. |
Elsen, S.R. and Ramesh, T., 2016. Analysis and optimization of dry sliding wear characteristics of zirconia reinforced alumina composites formed by conventional sintering using response surface method. International Journal of Refractory Metals and Hard Materials, 58, pp.92-103. Impact Factor:4.804 |
| 26. |
Deepan Bharathi Kannan, T., Ramesh, T. and Sathiya, P., 2016. A review of similar and dissimilar micro-joining of nitinol. Jom, 68(4), pp.1227-1245. Impact Factor:2.474 |
| 27. | Elsen, S.R. and Ramesh, T., 2016. Shrinkage characteristics studies on conventional sintered zirconia toughened alumina using computed tomography imaging technique. International Journal of Refractory Metals and Hard Materials, 54, pp.383-394. Impact Factor:4.804 |
| 28. |
Elsen, S.R. and Ramesh, T., 2015. Optimization to develop multiple response hardness and compressive strength of zirconia reinforced alumina by using RSM and GRA. International Journal of Refractory Metals and Hard Materials, 52, pp.159-164. Impact Factor:4.804 |
| 29. |
Prabhakar, M., Ramesh, T., Narayanasamy, R. and Anandakrishnan, V., 2014. An Investigation on Instantaneous Workability Behavior of Aluminium SiC Air Quenched Powder Composites During Cold Upsetting. Asian Journal of Science and Applied Technology, 3(2), pp.12-24. Impact Factor:5.916 |
| 30. |
Bharanidaran, R. and Ramesh, T., 2014. Numerical simulation and experimental investigation of a topologically optimized compliant microgripper. Sensors and Actuators A: Physical, 205, pp.156-163. Impact Factor: 4.291 |
| 31. |
Jaise, J., Ajay Kumar, N.B., Shanmugam, N.S., Sankaranarayanasamy, K. and Ramesh, T., 2013. Power system: a reliability assessment using FTA. International Journal of System Assurance Engineering and Management, 4(1), pp.78-85. Impact Factor: 1.721 |
| 32. |
Georgekutty Mangalathu, S., Siva Shanmugam, N., Sankaranarayanasamy, K., Ramesh, T. and Muthukumar, K., 2012. SYSTEM SAFETY IN LPG FIRED FURNACE-A MULTI CRITERIA DECISION MAKING TECHNIQUE. Advances in Production Engineering & Management, 7(2). Impact Factor: 3.382 |
| 33. |
Narayanasamy, R., Ramesh, T. and Prabhakar, M., 2010. Effect of SiC particle size and content on strain-based pore closure rate studies on Al–SiC P/M composites during cold upsetting. The International Journal of Advanced Manufacturing Technology, 47(1), pp.295-311. Impact Factor: 3.226 |
| 34. |
Ramesh, T., Prabhakar, M. and Narayanasamy, R., 2010. Workability studies on Al-5% and 10% SiC P/M composites. International Journal of Materials and Product Technology, 38(2-3), pp.264-274. Impact Factor: 0.743 |
| 35. |
Sivasankaran, S., Narayanasamy, R., Ramesh, T. and Prabhakar, M., 2009. Analysis of workability behavior of Al–SiC P/M composites using backpropagation neural network model and statistical technique. Computational Materials Science, 47(1), pp.46-59. Impact Factor: 3.572 |
| 36. |
Ramesh, T., Prabhakar, M. and Narayanasamy, R., 2009. Workability studies on Al–5% SiC powder metallurgy composite during cold upsetting. The International Journal of Advanced Manufacturing Technology, 44(3), pp.389-398. Impact Factor: 3.226 |
| 37. |
Narayanasamy, R., Ramesh, T. and Prabhakar, M., 2009. Effect of particle size of SiC in aluminium matrix on workability and strain hardening behaviour of P/M composite. Materials Science and Engineering: A, 504(1-2), pp.13-23. Impact Factor: 6.044 |
| 38. |
Murugavel, R., Ramesh, T. and Prema, P., 2009. Variable thermal loading analysis of polycrystalline copper. Materials & Design, 30(2), pp.221-227. Impact Factor: 9.417 |
| 39. |
Narayanasamy, R., Ramesh, T. and Pandey, K.S., 2008. Some aspects on cold forging of aluminium–alumina powder metallurgy composite under triaxial stress state condition. Materials & Design, 29(6), pp.1212-1227. Impact Factor: 9.417 |
| 40. | Narayanasamy, R., Ramesh, T. and Pandey, K.S., 2008. Some aspects on cold forging of aluminium–iron powder metallurgy composite under triaxial stress state condition. Materials & Design, 29(4), pp.891-903. Impact Factor: 9.417 |
| 41. | Sathiya, P., Shanmugam, N.S., Ramesh, T. and Murugavel, R., 2008. Temperature Distribution Modeling of Friction Stir Spot Welding of AA 6061‐T6 Using Finite Element Technique. Multidiscipline Modeling in Materials and Structures. Impact Factor: 3.428 |
| 42. | Narayanasamy, R., Ramesh, T., Pandey, K.S. and Pandey, S.K., 2008. Effect of particle size on new constitutive relationship of aluminium–iron powder metallurgy composite during cold upsetting. Materials & Design, 29(5), pp.1011-1026. Impact Factor: 9.417 |
| 43. |
Narayanasamy, R., Ramesh, T. and Pandey, K.S., 2007. An experimental investigation on strain hardening behaviour of aluminium–3.5% alumina powder metallurgy composite preform under various stress states during cold upset forming. Materials & design, 28(4), pp.1211-1223. Impact Factor: 9.417 |
| 44. |
Narayanasamy, R., Ramesh, T. and Pandey, K.S., 2006. Some aspects on strain hardening behaviour in three dimensions of aluminium–iron powder metallurgy composite during cold upsetting. Materials & design, 27(8), pp.640-650. Impact Factor: 9.417 |
| 45. | Narayanasamy, R., Ramesh, T. and Pandey, K.S., 2006. Workability studies on cold upsetting of Al–Al2O3 composite material. Materials & design, 27(7), pp.566-575. Impact Factor: 9.417 |
| 46. |
Narayanasamy, R., Ramesh, T. and Pandey, K.S., 2005. Some aspects of workability studies in cold forging of pure aluminium powder metallurgy compacts. Materials science and technology, 21(8), pp.912-916. Impact Factor:1.920 |
| 47. |
Narayanasamy, R., Ramesh, T. and Pandey, K.S., 2005. Some aspects on workability of aluminium–iron powder metallurgy composite during cold upsetting. Materials Science and Engineering: A, 391(1-2), pp.418-426. Impact Factor: 6.044 |
