Dr. Yogesh Dewang

Associate Professor
Lakshmi Narain College of Technology, India

Highest Degree
Ph.D. in Mechanical Engineering from Maulana Azad National Institute of Technology, India

My URL
https://livedna.org/91.18139

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Area of Interest:

Physical Science Engineering
Solid Mechanic
Stress Analysis
Finite Element Analysis
Mechanical Dynamics

Selected Publications

  1. Dewang, Y., S.K. Panthi and M.S. Hora, 2019. Binder force effect on stretch flange forming of aluminum alloy. Mater. Manuf. Processes, 34: 1516-1527.
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  2. Dewang, Y. and S.K. Panthi, 2019. Effects of types of fluids on fluid flow characteristics in bifurcated vessel using CFD simulation. Applied Innovative Res., 1: 25-28.

  3. Yadav, R.R., Y. Dewang and J. Raghuwanshi, 2018. A study on metal extrusion process. Int. J. LNCT, 2: 124-130.

  4. Raman, R.K., Y. Dewang and J. Raghuwanshi, 2018. Computational fluid dynamics (CFD) analysis of bifurcated vessel. Int. J. LNCT, 2: 197-201.

  5. Raman, R.K., Y. Dewang and J. Raghuwanshi, 2018. A review on applications of computational fluid dynamics, Int. J. LNCT, 2: 137-143.

  6. Dewang, Y., R. Purohit and N. Tenguria, 2017. A study on sheet metal hole-flanging process. Mater.Today Proc., 4: 5421-5428.
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  7. Dewang, Y., M.S. Hora and S.K. Panthi, 2017. FEM simulation of non-axisymmetric stretch flange forming of aluminum alloy 5052 based on shell type elements. Iranian J. Mater. Sci. Eng., 14: 69-80.
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  8. Dewang, Y., M.S. Hora and S.K. Panthi, 2015. Prediction of crack location and propagation in stretch flanging process of the aluminum alloy al-5052 using fem simulation. Trans. Nonferrous Met. Soc. China, 25: 2308-2320.
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  9. Dewang, Y., M.S. Hora and S.K. Panthi, 2015. Influence of blank holding force on stretch flange forming of aluminum alloy. Mater. Today Proc., 2: 1934-1941.
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  10. Dewang, Y., M.S. Hora and S.K. Panthi, 2014. Review on finite element analysis of sheet metal stretch flanging process. ARPN J. Eng. Applied Sci., 9: 1565-1579.

  11. Dewang, Y., M.S. Hora and S.K. Panthi, 2014. Finite element analysis of non-axisymmetric stretch flanging process for prediction of location of failure. Procedia Mater. Sci., 5: 2054-2062.
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Member since October, 2017