Source: https://iitbhu.ac.in/dept/mec/people/vpsinghmec
Timestamp: 2019-04-18 14:37:54+00:00

Document:
I, Virendra Pratap Singh (DOB: 11/01/1956), entered this Department as Lecturer in 1981 and continues till date. Before that, after completing my M Tech, I joined Osmania University (in Dept of Mining Engg) in 1980. I did my schooling from Central School, Agartala, Tripura and completed Higher Secondary (CBSE) in 1971. Took admission in IT BHU in 1971 and after completing my B Tech in Mechanical Engg in 1976, I did M Tech in 1979. I completed Ph D in 1986 from this Department under the supervision of Prof P C Upadhyay.
My teaching experience is 38 years. After completing my M Tech in 1979 I availed the first opportunity as teacher and joined Osmania University, Hyderabad in 1980. However I joined the Mining Engg department of the University as Lecturer in Mechanical Engg. This department of University is located near the town Kothagudam. After ten months of teaching at this place, I joined Dept of Mech Engg at IT BHU in 1981. I got my Associate Professorship in 1992, and Professorship in the year 2000.
At UG level: Engineering Mechanics, Strength of Materials, Theory of Machines, Machine Design-I, Mechanics of Deformable Solids, Dynamics of Machine, Vibrations, System Dynamics, Fracture Mechanics.
At PG level: Theory of Elasticity, Theory of Vibrations, Vibration and Shock Analysis, Nonlinear Vibrations.
Topic: Non-axisymmetric Dynamic Response of Buried Orthotropic Pipelines.
Name of Candidate: Dr B K Mishra, Professor, IIT, Roorkee.
Name of Candidate: Dr J P Dwivedi, Institute Professor, IIT(BHU), Varanasi.
Topic: Dynamic Response of Buried Pipelines Under Viscoelastic Soil Condition.
Topic: Vibration Analysis of High Speed Rotating Machines on Flexible Structure.
Name of Candidate: Mr Rana Dutta, Electrosteel Casting Limited, 30 Barrackpore Trunk Road, Kolkata.
Supervisors: Prof.J P Dwivedi and Prof V P Singh; [Ongoing].
Guided more than 30 students for their projects and dissertations.
Awarded BOYSCAST fellowship in 1991, and availed it in 1992 at West Virginia University, Morgantown, USA.
V.P. Singh, P.C. Upadhyay and N.K. Samria, “Some heat transfer studies on a diesel engine pistion”, Int. J. of Heat & Mass Transfer, 29, 5, pp. 812-814, 1986. (SCI, H index: 163, IF=3.552).
V.P. Singh, P.C. Upadhyay and B. Kishor, “on the dynamic response of buried orthotropic cylindrical shells”, J. of Sound & Vibration, 113, 1, pp. 101-115, 1987. (SCI, H index: 146, IF=2.955).
V.P. Singh, P.C. Upadhyay and B. Kishor, “A comparison of thick and thin shell theory results for buried orthotropic cylindrical shells”, J. of Sound & Vibration, 119, 2, pp. 339-345, 1987. (SCI, H index: 146, IF=2.955).
V.P. Singh, P.C. Upadhyay and B. Kishor, “On the dynamic response of buried orthotropic cylindrical shells under moving load”, Int. J. of Mechanical Sciences, 30, 6, pp. 397-406, 1988. (SCI, H index: 87, IF=3.192).
P.V.M. Rao, V.P. Singh and P.C. Upadhyay, “Axisymmetric stresses in buried thin orthotropic cylindrical shells due to p-wave loading”, Composite Structures, 13, pp. 209-216, 1989. (SCI, H index: 115, IF=4.19).
J. Singh and V.P. Singh, “Dynamic response of buried orthotropic cylindrical shells to an inclined axisymmetric moving load”, Computer & Structures, 37, 1, pp. 71-80, 1990. (SCI, H index: 102, IF=3.180).
V.N. Kota and V.P. Singh, “Effect of fluid presence on the dynamic response of buried orthotropic cylindrical shells under moving load”, J. of Thin-walled Structures, 12, pp. 265-279, 1991. (SCI, H index: 66, IF=2.797).
J.P. Dwivedi, V.P. Singh and P.C. Upadhyay, “Effect of fluid presence on the dynamic response of imperfectly bonded buried cylindrical shells due to incident shear wave”, Computer & Structures, 40, 6, pp. 995-1001, 1991. (SCI, H index: 102, IF=3.180).
J.P. Dwivedi, V.P. Singh and P.C. Upadhyay, “Non-axisymmetric dynamic response of imperfectly bonded buried fluid-filled orthotropic cylindrical shells due to incident shear wave”, J. of Sound & Vibration 167, 2, pp. 277-287, 1993. (SCI, H index: 146, IF=2.955).
J.P. Dwivedi, V.P. Singh and P.C. Upadhyay, “Effect of Fluid Presence on the Non axisymmetric Dynamic Response of Imperfectly Bonded Buried Orthotropic Pipelines due to Incident Shear Wave”, Computer & Structures”, 48, 2, pp. 219-226, 1993. (SCI, H index: 102, IF=3.180).
V.P. Singh and J.P. Dwivedi, “Comparison of dynamic response of imperfectly bonded buried thick and thin orthotropic cylindrical shells”, Indian Geotechnical Journal, 24, 2, pp. 106-121, 1994. (Scopus, H Index:7).
J.P. Dwivedi and V.P. Singh “Comparison of thick and thin shell theory results for buried orthotropic cylindrical shell due to incident shear wave”, Bulletin of Indian Society of Earthquake Technology, 31, 1, pp. 1-14, 1994.
J.P. Dwivedi, V.P. Singh and P.C. Upadhyay, “Non-axisymmetric dynamic response of imperfectly bonded buried fluid-filled orthotropic cylindrical shells”, Trans. ASME, J. of Pressure Vessel Technology, 118, 1, pp. 64-73, 1996. (SCI, H index: 40, IF=0.476).
V.P. Singh, J.P. Dwivedi and P.C. Upadhyay, “Non-axisymmetric dynamic response of buried orthotropic cylindrical shells under moving load”, Structural Engineering & Mechanics, 8, 1, pp. 39-51, 1999. (Scopus, H index: 40, IF=1.118).
V.P. Singh, J.P. Dwivedi and P.C. Upadhyay, “Effect of fluid presence on the non axisymmetric dynamic response of buried orthotropic cylindrical shells under the moving load”, J. of Vibration & Control, 6, 6, pp. 823-847, 2000. (SCI, H index: 54, IF=2.101).
V.P. Singh & S.C. Saroj, “An approximate solution to a specially orthotropic cylindrical shell subjected to harmonic boundary condition with inclusion of structural damping”, Advances in Vibration Engineering, 4, 1, pp. 49-66, 2005. (IF=0.245).
V.P. Singh & S. Kumar, “A solution to a specially orthotropic axisymmetric thin shell subjected to a harmonic boundary condition with inclusion of dynamic coupling”, J. of Structural Engineering, 31, 4, pp. 257-264, 2005. (Scopus, H index: 9, IF=0.155).
J. P. Dwivedi, V. P. Singh and Radha Krishna Lal, “Dynamic analysis of buried pipelines under linear viscoelastic soil conditions”, Adv. Theor. Appl. Mech., 3, 12, pp. 551-558, 2010.
J. P. Dwivedi, V. P. Singh and Radha Krishna Lal, "Stress, displacement and pore pressure of partially sealed circular tunnel surrounded by viscoelastic medium", Adv. Theor. Appl. Mech., 4, 4, pp. 189-198, 2011.
J. P. Dwivedi, V. P. Singh and Radha Krishna Lal, "Dynamic response of partially sealed circular tunnel in viscoelastic soil condition", Bulletin of Applied Mechanics, l7, 26, pp. 37-45, 2011.
J. P. Dwivedi, V. P. Singh and Radha Krishna Lal, “Transient behaviour of pile subjected to torsion in transversely isotropic viscoelastic medium,” Bulletin of Applied Mechanics, 8, 30, pp. 15-21, 2012.
J. P. Dwivedi, V. P. Singh and Radha Krishna Lal, "Analysis of transient dynamic behaviour of spherical cavity in viscoelastic soil medium", ISRN Mechanical Engineering, article ID 186204, pp. 1-10, 2013. (Scopus, H index: 6).
J. P. Dwivedi, V. P. Singh and Radha Krishna Lal, “Dynamic analysis of shear flows over a porous medium in a cylindrical tube”, Advances in Mechanical Engineering, pp. 1-8, 2013. (SCI, H index: 24, IF: 0.827).
Sanjay K Patel,Radha Krishna Lal, J. P. Dwivedi & V. P. Singh, “Springback analysis in sheet metal forming using modified Ludwik stress- strain relation”, ISRN Mechanical Engineering, article ID 640958, pp. 1-12, 2013 (Scopus, H index: 6).
J. P. Dwivedi, V. P. Singh and Radha Krishna Lal, “Dynamic response of twin lined shells due to incident seismic waves”, Journal of Mechanics of Materials and Structures, 9, 2, pp.183-193, 2014. (SCI, H index: 30, IF: 0.675).
Radha Krishna Lal, Vikas Kumar Choubey, J.P. Dwivedi, V.P. Singh, "Springback analysis of channel cross-sectioned bar of work-hardening materials under torsional loading", Engineering Computations, 33, 7, pp. 1899 – 1928, 2016. (SCI, H index: 47, IF: 1.370).
Radha Krishna Lal, Manish Kumar Bhagat, J.P. Dwivedi, V.P. Singh & Sanjay Kumar Patel, “Springback analysis in sheet metal forming using Romberg-Osgood stress- strain relation”, Journal of Applied Mechanics and Technical Physics, 57, 6, pp. 1133-1140, 2016. (SCI, Scopus, H index: 15, IF: 0.396).
Radha Krishna Lal, J. P. Dwivedi, VP Singh, Vikas Kumar Choubey, SK Srivastava, ‘’Springback analysis of L-sectioned bar of linear work-hardening materials under torsional loading’’ International Journal of Energy Technology and Policy, 13 (1-2), pp. 123-140, 2017. (Scopus, H index: 13).
Radha Krishna Lal, J. P. Dwivedi, V. P. Singh, “Springback analysis of hollow rectangular bar of linear work-hardening material’’, Emerging Materials Research, 6, 2, pp. 1-9, 2017. (SCI, Scopus, H index: 3, IF: 0.313).
Radha Krishna Lal, Manish Kumar Bhagat, J.P. Dwivedi, V.P. Singh, “Springback analysis in sheet metal forming of non-linear work-hardening material under pure bending”, Journal of The Institution of Engineers (India): Series C, 98 (2), pp. 155-170, 2017. (Scopus, H index: 11).
V. P. Singh , J. P. Dwivedi, Radha Krishna Lal and P. Kumar, “Study of stresses induced in axisymmetric buried thin orthotropic empty cylindrical shell due to shear- wave loading”, Materials Today: Proceedings (Elsevier Publication), 2, 4–5, pp. 1603-1612, 2015. (Scopus, H index: 11).
“Mechanics of Solids”, (Author: V P Singh, Published by the Institution of Engineers (India) in 2014.
“Pressure Vessels and Piping-Codes, Standards, Design and Analysis, Vol 1”, (Editors: B. Raj, et al.; published in 2009 with ISBN: 978-81-8487-001-5).
“Nonaxisymmetric dynamic response of thin orthotropic cylindrical shell due to incident compressional wave” by V Sahu, J P Dwivedi and V P Singh, pp 209-224.
“An approximate solution to a specially orthotropic axisymmetric thin shell subjected to a harmonic boundary condition”, by P K Bysani and V P Singh, pp-225-236.

References: V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 

V.