Rasmi Ranjan Behera

Assistant Professor

Dr. Behera is currently working as Asst. Professor (II) in the school of Mechanical Engineering, KIIT, Deemed to be University since June 2019. He received his PhD degree in Mechanical Engineering from Indian Institute of Technology Guwahati in 2019. He completed his M.Tech degree in Mechanical Engineering (Production Engineering specialization) from Jadavpur University, Kolkata in 2009 and later worked as Asst. professor in GHITM, Puri, Odisha from 2010 to 2012. He holds a B.Tech degree in Mechanical Engineering from Indira Gandhi Institute of Technology, Sarang, Odisha in 2007. His research involves bio-ceramic coating, micro-machining, surface modification including surface texturing, surface coating and cladding, laser processing for biomedical applications.

Profile Links

Email :
[email protected]
Scopus Id :
56536338500
Google Scholar :
https://scholar.google.co.in/citations?user=E43ulccAAAAJ&hl=en

Social Links

Educational Qualification
Ph. D.

Research Interests
Micro-machining, Texturing, Sputtering, Bio-coating, Thin film deposition, Laser cladding, laser processing for Biomedical Applications, Additive Manufacturing, Metal-Matrix Composite.

Administrative Responsibility
  • Co-FIC in Metrology & Instrumentation Lab
  • FIC in Time-Table Committee
  • Co-FIC in Quality Assurance Cell


Awards & Honours
1.2nd Best poster award: Research Conclave'18, 09-11 March 2018 at IIT Guwahati, Guwahati, India. 2.Best poster award: 27th MRSI North East Symposium on Advanced Materials for Sustainable Applications (MRSI-2016), NEIST, Jorhat, India. 3.Qualified GATE 2007 in Mechanical Engineering with all India rank 1414.

Memberships
Member of Art of Giving

Outreach Activity
Volunteering and organizing in different conferences, short-term course and other cultural events.
Journals/Conferences :
1. Behera, R. R., Hasan, A., Sankar, M. R., & Pandey, L. M. (2018). Laser cladding with HA and functionally graded TiO2-HA precursors on Ti–6Al–4V alloy for enhancing bioactivity and cyto-compatibility. Surface and Coatings Technology, 352, 420-436.
2. Behera, R. R., Das, A., Pamu, D., Pandey, L. M., & Sankar, M. R. (2018). Mechano-tribological properties and in vitro bioactivity of biphasic calcium phosphate coating on Ti-6Al-4V. Journal of the mechanical behavior of biomedical materials, 86, 143-157.
3. Behera, R. R., Sankar, M. R., Swaminathan, J., Kumar, I., Sharma, A. K., & Khare, A. (2016). Experimental investigation of underwater laser beam micromachining (UW-LBμM) on 304 stainless steel. The International Journal of Advanced Manufacturing Technology, 85(9-12), 1969-1982.
4. Behera, R. R., Ghadai, R. K., Kalita, K., & Banerjee, S. (2016). Simultaneous prediction of delamination and surface roughness in drilling GFRP composite using ANN. International Journal of Plastics Technology, 20(2), 424-450.
5. Behera, R. R., Anisha, E., Sankar, M. R., & Dixit, U. S. (2013). EXPERIMENTAL INVESTIGATIONS OF CO2 LASER MICRO CHANNEL ENGRAVING ON HARDENED AISI 1040 ALLOY STEEL. Journal of Manufacturing Technology Research, 5(3/4), 179.
6. Behera, R. R., & Sankar, M. R. (2015). State of the art on under liquid laser beam machining. Materials today: proceedings, 2(4-5), 1731-1740.
7. Behera, R. R., Sankar, M. R., Baruah, P. K., Sharma, A. K., & Khare, A. (2018). Experimental investigations of nanosecond-pulsed Nd: YAG laser beam micromachining on 304 stainless steel. Journal of Micromanufacturing, 1(1), 62-75.
8. Behera, R. R., Babu, P. M., Gajrani, K. K., & Sankar, M. R. (2017). Fabrication of micro-features on 304 stainless steel (SS-304) using Nd: YAG laser beam micro-machining. International Journal of Additive and Subtractive Materials Manufacturing, 1(3-4), 338-359.
9. Das, A., Chikkala, A. K., Bharti, G. P., Behera, R. R., Mamilla, R. S., Khare, A., & Dobbidi, P. (2018). Effect of thickness on optical and microwave dielectric properties of Hydroxyapatite films deposited by RF magnetron sputtering. Journal of Alloys and Compounds, 739, 729-736.
10. Aich, U., Behera, R. R., & Banerjee, S. (2019). Modeling of delamination in drilling of glass fiber-reinforced polyester composite by support vector machine tuned by particle swarm optimization. International Journal of Plastics Technology, 1-15.