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Biswajit Jena

Profession:Faculty

Assistant Professor., Dhaneswar Rath Institute of Engineering and Management Studies (DRIEMS)

Assistant Professor at Dhaneswar Rath Institute of Engineering and Management Studies (DRIEMS)
Civil Engineering at KIIT University

Subject Expertise

90% | Design of Steel Structure

91% | Design of Concrete Structures

90% | CONCRETE TECHNOLOGY

80% | Structural Analysis-1

82% | Structural Analysis-2

95% | Water Resources Engineering

95% | Water Supply and Sanitary Engineering

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Work Experience / Internship

  • Dhaneswar Rath Institute of Engineering and Management Studies (DRIEMS)

    Assistant Professor
    Teaching & Research

Education

  • KIIT University

    Bhubaneswar, Odisha, India
    B.Tech . Civil Engineering .
    From : 2006 Till : 2010
  • NIT

    Rourkela
    M.Tech . Civil Engineering .
    From : 2013 Till : 2015

Research And Projects

Publications

  • Study on Torsional Behavior of RC T-Beams Strengthened with Glass FRP

    https://www.academia.edu/29822920/Study_on_Torsional_Behavior_of_RC_T-Beams_Strengthened_with_Glass_FRP
    Published On: 2015-03-01
    Environmental degradation, increased service loads, reduced capacity due to aging, degradation owing to poor construction materials and workmanships and conditional need for seismic retrofitting have demanded the necessity for repair and rehabilitation of existing structures. Fibre reinforced polymers has been used successfully in many such applications for reasons like low weight, high strength and durability. In the present work experimental study was conducted in order to have a better understanding the behavior of torsional strengthening of solid RC flanged T-beams. An RC T-beam is analyzed and designed for torsion like an RC rectangular beam; the effect of concrete on flange is neglected by codes. In the present study effect of flange part in resisting torsion is studied by changing flange width of controlled beams. The other parameters studied are strengthening configurations and fiber orientations. The aim of present work is to determine quantitatively the effectiveness of GFRP to be used as external lateral reinforcements to flanged T-beams subjected to torsion. Experimental results obtained from GFRP strengthen beams are compared with un-strengthen control beams. The study shows remarkable improvement in torsional behavior of all the GFRP strengthen T-beams. The experimentally obtained results are validated with analytical model presented by A. Deifalla and A. Ghobarah and found in good agreement.

Lecture Notes