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Prashanth C S

Prashanth C S

B E Project

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location of Prashanth C SBengaluru, Karnataka, India

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  • Timeline

  • About me

    Subject Matter Expert at Garrett - Advancing Motion

  • Education

    • Rashtreeya Vidyalaya College of Engineering

      -
      B. E Mechanical Engineering

    • M Tech research - UNIVERSITY OF MANITOBA, WINNIPEG

      2009 - 2010
      Master’s Degree MATERIALS ENGINEERING;

      EDUCATIONAL QUALIFICATIONS

    • NATIONAL INSTITUTE OF TECHNOLOGY KARNATAKA (Deemed University)

      2008 - 2010

    • SRI JAYACHAMARAJENDRA POLYTECHNIC (Deemed University)

      2001 - 2004
      Diploma in Mechanical Engg

    • RV College Of Engineering

      2004 - 2007
      Bachelor's degree

    • National Institute of Technology Karnataka

      2008 - 2010
      M Tech Materials Engineering

    • Visvesvaraya Technological University

      -

  • Experience

    • TATA Motors Research Centre

      Jan 2007 - May 2007
      B E Project

      DESIGN OF HIGH SPEED POWER COUPLING FOR COMPRESSOR, TURBINE AND MOTOR.IISc, Bangalore. B.E. The high speed power coupling makes use of compound gear mechanism in the transmission sector of a fuel cell bus. The burnt exhaust gas coming out of the bus is reused by the compressor and passes it through the turbine. This turbine is coupled with transmission sector and the current research undergoes the design of these compound gear mechanism coupled to transmission gear from turbine shaft.

    • University of Manitoba

      Dec 2009 - Jun 2010
      M Tech Research

      EFFECT OF CELL GEOMETRY ON THE MECHANICAL PROPERTIES OF HONEYCOMBS. The study examines the effect of cell geometry on the selective mechanical properties of the honeycombs subjected to in plane compression. Two materials were selected in our study Acrylic Resist 65 and Aluminum Al-5052-H32, manufactured through CNC machining in order to avoid vertical imperfections that can be obtained by other methods. Limit (peak) stress, energy at limit stress and young's modulus are the selective mechanical properties analyzed in our study. Results obtained from these studies indicate that, in both type of material the deformation mode is similar. For equal cell wall length, the mechanical property increases by increasing the cell angle. By reducing the vertical wall height, stress relaxation can be avoided and deformation mode is perfect elastic plastic. For same relative density, by increasing the cell wall length and thickness the mechanical property reduces. The stiffness, limit stress increases by increasing vertical cell wall thickness. A detailed photographic picture is inputted at the specific point in stress strain curve to understand the physics of deformation mechanism. Show less

    • Honeywell

      Jun 2011 - Oct 2019
      Tech Lead

    • Garrett - Advancing Motion

      Nov 2018 - now

      Spin off company from Honeywell Inc

      • Subject Matter Expert - Turbocharger Housing Materials

        May 2022 - now

      • Technology Specialist

        Oct 2019 - May 2022

      • Tech Lead

        Nov 2018 - Oct 2019

  • Licenses & Certifications

    • Source Certifying Agent for Aerospace Mechanical Test Lab

      Honeywell Aerospace