Smita Rani Panda
Smita Rani Panda
Assistant Professor
Smita Rani Panda joined the KIIT Deemed to be University, Bhubaneswar, Odisha (India) in 2019 as Faculty Associate in the School of Mechanical Engineering. She worked extensively in Bio/Nano-Composite Materials especially as development and characterization of Dental Materials in collaboration with reputed dental hospitals. She has prior work experience both in academia and industries. Her area of interest includes Bio-materials design, systems engineering, optimization techniques, composites manufacturing and characterization.
Profile Links
Email :
[email protected]
Scopus Id :
57190842502
Google Scholar :
https://scholar.google.com/citations?hl=en&user=7IZffnkAAAAJ
Social Links
Educational Qualification
M.Tech., PhD (Pursuing)
Research Interests
Bio-materials design, systems engineering, optimization techniques, composites manufacturing and characterization.
Administrative Responsibility
1. Coordinator: Mechanical Innovation Cell, School of Mechanical Engineering, KIIT 2. Member: MHRD's IIC-KIIT
Memberships
The Institution of Engineers, India (IEI). International Association of Engineers, Hong Kong (IAENG). International Society for Research and Development, London (UK) (ISRD). International Information and Engineering Technology Association, Canada (IIETA),
Outreach Activity
Water Purification & Sanitation Program Waste water treatment and re-use Bio-waste Recovery & Management Program
M.Tech., PhD (Pursuing)
Research Interests
Bio-materials design, systems engineering, optimization techniques, composites manufacturing and characterization.
Administrative Responsibility
1. Coordinator: Mechanical Innovation Cell, School of Mechanical Engineering, KIIT 2. Member: MHRD's IIC-KIIT
Memberships
The Institution of Engineers, India (IEI). International Association of Engineers, Hong Kong (IAENG). International Society for Research and Development, London (UK) (ISRD). International Information and Engineering Technology Association, Canada (IIETA),
Outreach Activity
Water Purification & Sanitation Program Waste water treatment and re-use Bio-waste Recovery & Management Program
Journals/Conferences :
Journals:
1. Panda, S. R., Senapati, A. K. and Mishra, P. C., (2017). Multi-regression prediction model for surface roughness and tool wear in turning novel aluminum alloy (LM6)/fly ash composite using response surface and central composite design methodology, Int. J. of Industrial Engineering Computations, Growing Science, Vol. 8, pp. 1-18.
2.S. K. Nayak, P.C. Mishra & S. R. Panda, (2013). Numerical Analysis of Convection Driven Melting of Metals and Alloys Using Fixed Grid Methods, Int. J. of Thermal Technologies, Inpressco, Vol. 3, pp. 107-112.
Conferences:
1. Panda, S. R., Routara, B. C., Chakrabarty, S., & Kar, A. K. (2020). Influence of Treated Titania Nanoparticle on Mechanical Properties of Dental Nano-Composites: Manufacturing Method and Experimental Results. In Advances in Materials and Manufacturing Engineering (pp. 633-641). Springer, Singapore.
2. Chakrabarty, S., Panda, S. R., Das, D., Pant, P., & Mishra, S. K. (2020). Effect of grain size and specimen thickness on formation of mechanical twin. Materials Today: Proceedings.
3. Panda, S. R., Mishra, P. C., & Ukamanal, M. (2018). Effects of modified waste fly ash reinforcement on mechanical behavior of novel ALFA composite. Materials Today: Proceedings, 5(11), 24827-24835.
4. Panda, S. R., Mohapatro, M. B. R., & Mishra, P. C. (2018). Investigation on frictional and machining characteristics of novel ALFA composite reinforced with treated waste fly ash. Materials Today: Proceedings, 5(9), 19728-19737.
Journals:
1. Panda, S. R., Senapati, A. K. and Mishra, P. C., (2017). Multi-regression prediction model for surface roughness and tool wear in turning novel aluminum alloy (LM6)/fly ash composite using response surface and central composite design methodology, Int. J. of Industrial Engineering Computations, Growing Science, Vol. 8, pp. 1-18.
2.S. K. Nayak, P.C. Mishra & S. R. Panda, (2013). Numerical Analysis of Convection Driven Melting of Metals and Alloys Using Fixed Grid Methods, Int. J. of Thermal Technologies, Inpressco, Vol. 3, pp. 107-112.
Conferences:
1. Panda, S. R., Routara, B. C., Chakrabarty, S., & Kar, A. K. (2020). Influence of Treated Titania Nanoparticle on Mechanical Properties of Dental Nano-Composites: Manufacturing Method and Experimental Results. In Advances in Materials and Manufacturing Engineering (pp. 633-641). Springer, Singapore.
2. Chakrabarty, S., Panda, S. R., Das, D., Pant, P., & Mishra, S. K. (2020). Effect of grain size and specimen thickness on formation of mechanical twin. Materials Today: Proceedings.
3. Panda, S. R., Mishra, P. C., & Ukamanal, M. (2018). Effects of modified waste fly ash reinforcement on mechanical behavior of novel ALFA composite. Materials Today: Proceedings, 5(11), 24827-24835.
4. Panda, S. R., Mohapatro, M. B. R., & Mishra, P. C. (2018). Investigation on frictional and machining characteristics of novel ALFA composite reinforced with treated waste fly ash. Materials Today: Proceedings, 5(9), 19728-19737.