Follow
Akhilendra Singh
Akhilendra Singh
Associate Professor, Department of Mechanical Engg, IIT Patna
Verified email at iitp.ac.in
Title
Cited by
Cited by
Year
Meshless element free Galerkin method for unsteady nonlinear heat transfer problems
A Singh, IV Singh, R Prakash
International Journal of Heat and Mass Transfer 50 (5-6), 1212-1219, 2007
1422007
Fatigue crack growth simulations of 3-D problems using XFEM
H Pathak, A Singh, IV Singh
International Journal of Mechanical Sciences 76, 112-131, 2013
1202013
Numerical simulation of bi-material interfacial cracks using EFGM and XFEM
H Pathak, A Singh, IV Singh
International Journal of Mechanics and Materials in Design 8 (1), 9-36, 2012
972012
New enrichments in XFEM to model dynamic crack response of 2-D elastic solids
S Kumar, IV Singh, BK Mishra, A Singh
International Journal of Impact Engineering 87, 198-211, 2016
902016
Fatigue crack growth simulations of homogeneous and bi-material interfacial cracks using element free Galerkin method
H Pathak, A Singh, IV Singh
Applied Mathematical Modelling 38 (13), 3093-3123, 2014
592014
A simple and efficient XFEM approach for 3-D cracks simulations
H Pathak, A Singh, IV Singh, SK Yadav
International Journal of Fracture 181 (2), 189-208, 2013
592013
Numerical solution of temperature-dependent thermal conductivity problems using a meshless method
A Singh, IV Singh, R Prakash
Numerical Heat Transfer, Part A: Applications 50 (2), 125-145, 2006
592006
Low cycle fatigue performance of DP600 steel under various pre-straining paths
B Das, A Singh, SK Paul
International Journal of Fatigue 132, 105331, 2020
452020
Fatigue crack growth simulations of 3-D linear elastic cracks under thermal load by XFEM
H Pathak, A Singh, IV Singh, SK Yadav
Frontiers of Structural and Civil Engineering 9 (4), 359-382, 2015
442015
Influence of pre-straining path on high cycle fatigue performance of DP 600 steel
B Das, A Singh, KS Arora, M Shome, SK Paul
International Journal of Fatigue 126, 369-380, 2019
402019
Understanding strain controlled low cycle fatigue response of P91 steel through experiment and cyclic plasticity modeling
B Das, A Singh
Fusion Engineering and Design 138, 125-137, 2019
362019
Three-dimensional stochastic quasi-static fatigue crack growth simulations using coupled FE-EFG approach
H Pathak, A Singh, IV Singh, M Brahmankar
Computers & Structures 160, 1-19, 2015
352015
Fatigue crack growth simulations of bi-material interfacial cracks under thermo-elastic loading by extended finite element method
H Pathak, A Singh, IV Singh
European Journal of Computational Mechanics/Revue Européenne de Mécanique …, 2013
342013
Identification of rotor-stator rub and dependence of dry whip boundary on rotor parameters
AK Srivastava, M Tiwari, A Singh
Mechanical Systems and Signal Processing 159, 107845, 2021
332021
Numerical analysis of fluid squeezed between two parallel plates by meshless method
A Singh, IV Singh, R Prakash
Computers & fluids 36 (9), 1460-1480, 2007
312007
College of Forestry and Hill Agriculture, GB Pant University of Agriculture & Technology, Hill Campus, Ranichauri, Tehri Garhwal-249 199 (Uttaranchal) India
VK Yadav, VK Sah, AK Singh, SK Sharma
31*
Three-dimensional quasi-static interfacial crack growth simulations in thermo-mechanical environment by coupled FE-EFG approach
H Pathak, A Singh, IV Singh
Theoretical and Applied Fracture Mechanics 86, 267-283, 2016
292016
Investigation of fracture behaviour and low cycle fatigue properties of cryorolled Al-Mg alloy
P Kumar, A Singh
Theoretical and Applied Fracture Mechanics 98, 78-94, 2018
262018
Meshless analysis of unsteady-state heat transfer in semi-infinite solid with temperature-dependent thermal conductivity
A Singh, IV Singh, R Prakash
International communications in heat and mass transfer 33 (2), 231-239, 2006
252006
Fatigue crack growth behavior of thermo-mechanically processed AA 5754: Experiment and extended finite element method simulation
P Kumar, H Pathak, A Singh
Mechanics of Advanced Materials and Structures 28 (1), 88-101, 2021
212021
The system can't perform the operation now. Try again later.
Articles 1–20