Dr. Sanjeev Saxena

Chief Scientist

CSIR-AMPRI, Hoshangabad Road,Near Habibganj Naka, Bhopal-462026 (M.P.)
sanjeevsaxena@ampri.res.in
https://ampri.res.in

Dr. SANJEEV SAXENA
Chief Scientist
CSIR-Advanced Materials and Processes Research Institute(CSIR-AMPRI),
Hoshangabad Road, Near Habibganj Naka,
Bhopal – 462026, India.
Email: sanjeevsaxena@ampri.res.in

Educational Attainments:

Ph.D. in Civil Engineering [Characterization of Ductile fracture using Finite Element Method] ,2011, from RGPV, Bhopal, India
M.Tech. in Structural Engineering, 2000, From IT-Banaras Hindu University (BHU), Varanasi, India
B.E. in Civil Engineering, 1996, From S.A.T.I, Vidisha, India

Research area: Structural Engineering

Fatigue & Fracture
Fracture mechanics
Experimental Characterization
Ductile & Brittle Fracture
Metallic Foam & Foam filled Components
Piping components
Bamboo Composite & Bamboo Waste material
Multilayered Composite modeling
Finite element Analysis
Modelling & Simulation (ABAQUS, ANSYS, ProCast, STAAD, WARP 3D software)

Selected Publications:

Anshul Badkul, Sanjeev Saxena, D. P. Mondal, A numerical solution to accurately predict deformation behaviour of metallic foam material upto densification region for the possible use in composite structures, 246, 112419, Composite Structures, (IF = 6.6)
Sanjeev Saxena, B. K. Dutta and G. Sasikala, Methodology for numerical assessment of SZW under mixed mode fracture, Theoritical and Applied Fracture Mechanics, 85, 183-190, (IF = 5.4)
Sanjeev Saxena, N. Ramakrishnan and B K Dutta, Determination of stretch zone width using FEM, Engineering Fracture Mechanics, 76 (7), 911-920, (IF = 5.4)
Sanjeev Saxena, J.P. Pandey, Ranjit Singh Solanki, Gaurav K. Gupta, O.P. Modi, Coupled mechanical, metallurgical and FEM based failure investigation of steam turbine blade, Engineering Failure Analysis., 52, 35-44, (IF = 4.0)
Sanjeev Saxena, B. K. Dutta and G. Sasikala, Evaluating a valid fracture specimen geometry for predicting geometry independent SZWc and Jszw value in SA333 Gr. 6 carbon steel material, Engineering Fracture Mechanics, 143, 108-120, (IF = 5.4)

Important Links:

Google Scholar: [Click here to view]
ORC ID: [Click here to view]