IIEST, Shibpur

Indian Institute of Engineering Science and Technology, Shibpur

(Formerly Bengal Engineering and Science University, Shibpur)

Empowering the nation since 1856

आई आई ई एस टि, शिवपुर

भारतीय अभियांत्रिकी विज्ञान एवं प्रौद्योगिकी संस्थान, शिवपुर

(पूर्व में बंगाल इंजीनियरिंग एंड साइंस यूनिवर्सिटी)

१८५६ से देश को सशक्त बनाना


Professor & Head

Department of Aerospace Engg. & Applied Mechanics

Academic Qualifications

  • PhD- Jadavpur university (1997)
  • M.Tech- IIT Kharagpur (1992)
  • B.E- B.E College, Shibpur (1989).



  1. Phone: 2668-4561 (Ext:694)
  2. Mobile: +91-9830465710


  1. Email: amit@aero.iiests.ac.in,arc_98@rediffmail.com

Area of Research

  • Finite Element Method
  • Solid Mechanics
  • Biomechanics
  • Engineering Mechanics

Courses Undertaken

  • Strength of Materials
  • Engineering Mechanics
  • Engineering Drawing
  • Finite Element Analysis-II
  • Biomechanics

Recent Publications 

  1. Roy, S., Dey, S., Khutia, N., Chowdhury, A.R. and Datta, S., 2018. Design of patient specific dental implant using FE analysis and computational intelligence techniques. Applied Soft Computing, 65, pp.272-279.
  2. Biswas, J.K., Rana, M., Majumder, S., Karmakar, S.K. and Roychowdhury, A., 2018. Effect of two-level pedicle-screw fixation with different rod materials on lumbar spine: A finite element study. Journal of Orthopaedic Science. 2018 Mar;23(2):258-265.
  3. Roy, S., Das, M., Chakraborty, P., Biswas, J.K., Chatterjee, S., Khutia, N., Saha, S. and RoyChowdhury, A., 2017. Optimal selection of dental implant for different bone conditions based on the mechanical response. Acta of bioengineering and biomechanics, 19(2): 11-20.
  4. Sahoo, A., Majumder, S. and Roychowdhury, A., 2017. Car occupant response: finite element analysis of knee-thigh-hip complex under frontal impact. International Journal of Vehicle Safety, 9(4), pp.311-327.
  5. Paul, S., Pal, A., Choudhury, A.R., Bodhak, S., Balla, V.K., Sinha, A. and Das, M., 2017. Effect of trace elements on the sintering effect of fish scale derived hydroxyapatite and its bioactivity. Ceramics International, 43(17), pp.15678-15684.
  6. Pal, A., Maity, S., Chabri, S., Bera, S., Chowdhury, A.R., Das, M. and Sinha, A., 2017. Mechanochemical synthesis of nanocrystalline hydroxyapatite from Mercenaria clam shells and phosphoric acid. Biomedical Physics & Engineering Express, 3(1), p.015010.
  7. Pal, Anindya, Sudeep Paul, Amit Roy Choudhury, Vamsi Krishna Balla, Mitun Das, and Arijit Sinha. "Synthesis of hydroxyapatite from Lates calcarifer fish bone for biomedical applications." Materials Letters 203 (2017): 89-92.
  8. Roy, S., Khutia, N., Das, D., Das, M., Balla, V.K., Bandyopadhyay, A. and Chowdhury, A.R., 2016. Understanding compressive deformation behavior of porous Ti using finite element analysis. Materials Science and Engineering: C, 64, pp.436-443.
  9. Majumder, S., Chowdhury, A.R. and Saha, S., 2016. Electromagnetic Response of Bones Adjacent to the Dental Root Before and After Dental Implantation. Journal of long-term effects of medical implants, 26(4). 295-302
  10. Talukdar R.G., Das M., Majumder S., Choudhury, A.R., 2015Optimization of Solid UHMWPE with porosity as an cervical disc implant. International Journal of Applied Engineering Research 10(S11): 10511–10515