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Partha Pratim Dey

About


Worked in Engineers India Limited, New Delhi from as Engineer & Sr. Engineer from May 1993 to April 1999.

Academic Qualifications


  • Ph.D., Jadavpur University, Kolkata, 2007
  • M.Tech., IIT, Kanpur, 1993
  • B.E. (Mech.), Calcutta University, 1991

Research Statement


  • Fracture Mechanics
  • Non-conventional machining
  • Engineering Ceramics
  • CAD/CAM

Latest Publications


  • 1 AK Rana, SK Paul, PP Dey, Stress field in an isotropic elastic solid containing a circular hard or soft inclusion under uniaxial tensile stress, 11(2), 657-666, Materials Today: Proceedings, 2019
  • 2 A Pramanick, PP Dey, PK Das, Microstructure, phase and electrical conductivity analyses of spark plasma sintered boron carbide machined with WEDM, In Press, Ceramics International, 2019
  • 3 AK Rana, SK Paul, PP Dey, Effect of martensite volume fraction on cyclic plastic deformation behavior of dual phase steel: micromechanics simulation study, 8(5), 3705-3712, Journal of Materials Research and Technology, 2019
  • 4 S Mandal, A Pramanick, S Chakraborty, PP Dey, ANFIS based model to forecast the Wire-EDM parameters for machining an Ultra High Temperature Ceramic composite, 377 (1), 012088, IOP Conference Series: Materials Science and Engineering, 2018
  • 5 A Pramanick, R Kumar, S Mandal, P P Dey and P K. Das, Modeling and multi-objective optimization of WEDM of spark plasma sintered boron carbide considering preferences of users, 377 (1), 012094, IOP Conf. Series: Materials Science and Engineering, 2018
  • 6 A Chakrabarty, N Khutia, HN Bar, PP Dey, S Sivaprasad, Effect of Loading Variations on Damage of SA333 C-Mn Steel, 4(2), 415-423, Materials Today: Proceedings 4 (2), 415-423, 2017
  • 7 Pramanick A., Sarkar S., Dey P.P., Das P.K., Optimization of wire electrical discharge machining parameters for cutting electrically conductive boron carbide, 42, 15671–15678, Ceramics International (Elsevier), 2016
  • 8 Sarkar S, Dey P.P., Tool Path Planning for Machining Free-Form Surfaces, 39(1), 65-78, TRANSACTIONS OF FAMENA, 2015
  • 9 Khutia N, Dey P.P., Hassan T,, An improved nonproportional cyclic plasticity model for multiaxial low-cycle fatigue and ratcheting responses of 304 stainless steel, 91, 12–25, Mechanics of Materials (Elsevier), 2015
  • 10 Sikder P., Pramanick A., Sarkar S.,Das S., Dey P.P., Das P.K., 'Indentation size effect and wear characteristics of spark plasma sintered, hard MWCNT/Al2O3 nanocomposites, 114(8), 448-455, Advances in Applied Ceramics (Taylor & Francis), 2015
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    Research Areas


    • CAD/CAM
    • Non-conventional machining
    • Fracture Mechanics

    Publications


    1 A Pramanick, PP Dey, PK Das, Microstructure, phase and electrical conductivity analyses of spark plasma sintered boron carbide machined with WEDM, In Press, Ceramics International, 2019 2 AK Rana, SK Paul, PP Dey, Effect of martensite volume fraction on cyclic plastic deformation behavior of dual phase steel: micromechanics simulation study, 8(5), 3705-3712, Journal of Materials Research and Technology, 2019
  • 3 Pramanick A., Sarkar S., Dey P.P., Das P.K., Optimization of wire electrical discharge machining parameters for cutting electrically conductive boron carbide, 42, 15671–15678, Ceramics International (Elsevier), 2016
  • 4 Sarkar S, Dey P.P., Tool Path Planning for Machining Free-Form Surfaces, 39(1), 65-78, TRANSACTIONS OF FAMENA, 2015
  • 5 Khutia N, Dey P.P., Hassan T,, An improved nonproportional cyclic plasticity model for multiaxial low-cycle fatigue and ratcheting responses of 304 stainless steel, 91, 12–25, Mechanics of Materials (Elsevier), 2015
  • 6 Sikder P., Pramanick A., Sarkar S.,Das S., Dey P.P., Das P.K., 'Indentation size effect and wear characteristics of spark plasma sintered, hard MWCNT/Al2O3 nanocomposites, 114(8), 448-455, Advances in Applied Ceramics (Taylor & Francis), 2015
  • 7 Saha N.,Chakraborty S.,Dey P.P. and Das P.K, Machining of ZrB2-SiC Composites by Wire-EDM, 73(2), 94-97, Trans. Ind. Ceram. Soc., (Taylor & Francis), 2014
  • 8 Khutia N, Dey P.P.Sivaprasad S, Tarafder S, Development of new cyclic plasticity model for 304LN stainless steel through simulation and experimental investigation, 78, 85–101, Mechanics of Materials (Elsevier), 2014
  • 9 Sarkar S, Dey P.P, Tolerance constraint CNC tool path modeling for discretely parameterized trimmed surfaces, 31 (4), 763–773, Engineering with Computers (Springer), 2014
  • 10 Khutia N., Dey P.P, Paul S.K., Tarafder S, Development of non Masing characteristic model for LCF and ratcheting fatigue simulation of SA333 C–Mn steel, 65, 88–102, Mechanics of Materials (Elsevier), 2013
  • 11 Sarkar,S., and Dey, P.P., A new iso-parametric machining algorithm for free form surface, 228(3), 197–209, Proc IMechE Part E: J Process Mechanical Engineering, 2013
  • 12 Sarkar, S., and Dey, P.P., Tool path generation for algebraically parameterized surface, 26, 415–421, Journal of Intelligent Manufacturing, (Springer), 2013
  • Patents


    # Patents Year

    Projects


    • Development of a unified model to simulate uniaxial and multiaxial LCF and ratcheting for nuclear piping materials., Sponsored
      Ongoing

    Research Groups


    Ayan Pramanick
    Ph. D
    +91 97484 81673
    ayan.rs2015@mech.iiests.ac.in / ayan_mech07@yahoo.co.in

    Prasenjit Das
    Ph. D.
    9609767032
    pd.jgec006@gmail.com

    Research:
    Constitutive and finite element modeling of uniaxial and multiaxial LCF and ratcheting for nuclear piping steel

    Nani Gopal Roy
    Ph. D.
    ngroywedm@gmail.com

    Research:
    Wire EDM Performance and Microstructure Analysis of ECAPed Aluminium Alloy.

    Vibhanshu Pandey
    Ph. D.
    7980019050
    vp.rs2017@mech.iiests.ac.in / vibhanshupandey30@gmail.com

    Research:
    Development of constitutive cyclic plasticity model for FE Simulation of Nuclear piping material under proportional and Nonproportional loading.

    Kanak Kalita
    Ph. D
    +91 89001 68487
    kanakkalita02@gmail.com

    Citations


    Google Scholar
    CITATION H-INDEX I-10 INDEX
    74 5 3

    Created: 23 November 2019