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Indra Vir Singh
Indra Vir Singh Associate Professor indrafme[at]iitr.ac.in 91-1332-285888 Website
Areas of Interest
  • FEM, XFEM, Meshfree Methods, Isogeometric Analysis, XIGA, Multiscale Modeling, Phase Field Modeling, Fracture Mechanics, Fatigue, Damage Mechanics, Modeling of Materials, Failure Analysis
Educational Details
DegreeSubjectUniversityYear
B. Sc. Engg.Mechanical EngineeringAMU Aligarh1996
M. TechApplied MechanicsIIT Delhi1998
Ph.D.Computational MechanicsBITS Pilani2004
Sponsored Research Projects
TopicFunding AgencyYear
Development of Elasto-Plastic Element Free Galerkin CodeBRNS, DAE, Mumbai2008
Thermo-mechanical Simulations of EPFM Problems Using XFEM and Meshless MethodsDST, New Delhi (Indo-Portugal Joint Research Project)2011
Mechanical Behavior of UFG Zr and Zr-Nb alloys Processed by Cryorolling (Experimental & Numerical)BRNS, DAE, Mumbai2011
Prediction of Graphite Failure Strength using RVE Approach and XFEMBRNS, DAE, Mumbai2014
Failure Analysis of Engineering Components of Intricate Shape using Extended Isogeometric AnalysisDST, New Delhi2014
Simulation of High Temperature Elasto-plastic Fatigue Crack Growth using XFEMDMRL, DRDO, Hyderabad2014
Memberships
  • Indian Association for Computational Mechanics, Life Member
  • Indian Society of Theoretical and Applied Mechanics, Life Member
  • International Association of Engineers, Member
PHDs Supervised
TopicScholar NameStatus of PHDRegistration Year
Meshfree Simulation of Fracture Mechanics Problems under Thermo-Mechanical LoadingMohit PantA2008
Simulation of Transport Phenomena in Porous MediaRajesh Kumar SharmaA2008
Numerical Simulation of Fatigue Fracture in Functionally Graded Materials using XFEMSomnath BhattacharyaA2009
An Investigation of Mechanical and Fracture Behavior of Ultrafine Grained 6082 Al alloyVineet KumarA2011
Numerical Simulation of Crack Growth Problems Using EFGM/XFEMKamal SharmaA2009
Experimental & Simulation Studies of Ultrafine Grained Zr, and Zr-Nb Alloys Processed by CryorollingSunkalp GoelA2010
Crack Growth Simulations in Ductile Materials using XFEM/Coupled FE-EFGMSachin KumarA2012
Fatigue Crack Growth Simulations using Extended Isogeometric AnalysisGagandeep BhardwajA2012
Simulation of Indentation, Damage and Crack Growth Using Coupled FE-EFG ApproachAmit ShedbaleO2013
Numerical Simulation of Transport Phenomena & Mechanics Problems using Advanced FE TechniquesRangoli GoyalO2013
Numerical Prediction of Failure Strength of Graphite Using RVE Based Multiscale XFEMManik BansalO2015
Failure Analysis of Engineering Structures Using NURBS/T-spline Based XIGASunil Kumar SinghO2015
Creep-Fatigue Simulations at Elevated Temperature using FEM/XFEMManish GoelO2015
A Study of Mechanical, Fracture and Fatigue Behavior of Modified 9Cr-1Mo SteelSanjay Singh SamantO2015
Books Authored

Akhilendra Singh and Indra Vir Singh, Element Free Galerkin Methods for Heat Transfer: Fundamentals and Formulations, Lambert Academic Publisher, Germany, July 2010.

Refereed Journal Papers
  1. Manik Bansal, I.V Singh, B.K. Mishra, Kamal Sharma, I.A. Khan, A Numerical Prediction of Flexural Strength Probability for NBG-18 Nuclear Grade Graphite using Strength Pair Model, The Journal of Strain Analysis for Engineering Design (SCI, IF=1.25) https://doi.org/10.1177/0309324717698609
  2. A.S. Shedbale, I.V. Singh, B.K. Mishra, Heterogeneous and Homogenized Models for Predicting the Indentation Response of Particle Reinforced Metal Matrix Composites, International Journal of Mechanics and Materials in Design, (SCI, IF=1.926)  http://dx.doi.org/10.1007/s10999-016-9352-3
  3. S. Kumar, I.V. Singh, B.K. Mishra, A. Singh, Kamal Sharma, I.A. Khan, A Homogenized Multigrid XFEM to Predict the Crack Growth Behavior of Ductile Material in the Presence of Microstructural Defects, Engineering Fracture Mechanics,  (SCI, IF=2.024)  http://dx.doi.org/10.1016/j.engfracmech.2016.03.051
  4. Xiaofei Hu, Tinh Quoc Bui, Jining Wang, Weian Yao, Lan Hoang That Ton, Indra Vir Singh, Satoyuki Tanaka, A new cohesive crack tip symplectic analytical singular element involving plastic zone length for fatigue crack growth prediction under variable amplitude cyclic loading, European Journal of Mechanics - A/Solids, Vol. 65, pp. 79-90, 2017.  http://dx.doi.org/10.1016/j.euromechsol.2017.03.008
  5. S.K. Singh, I. V. Singh, B.K. Mishra, G. Bhardwaj, T.Q. Bui, A Simple, Efficient and Accurate Bézier Extraction based T-spline XIGA for Crack Simulations, Theoretical and Applied Fracture Mechanics, Vol. 88, pp. 74-96, 2017. (SCIE, IF=2.025) http://dx.doi.org/10.1016/j.tafmec.2016.12.002
  6. Manik Bansal, I.V Singh, B.K. Mishra, Kamal Sharma, I.A. Khan, A Stochastic XFEM Model for the Tensile Strength Prediction of Heterogeneous Graphite based on Microstructural Observations, Journal of Nuclear Materials, Vol. 487, pp. 143-157, 2017. (SCI, IF=2.199) http://dx.doi.org/10.1016/j.jnucmat.2016.12.045
  7. Roshan Patil, B.K. Mishra, I.V Singh, A New Multiscale XFEM for the Elastic Properties Evaluation of Heterogeneous Materials, International Journal of Mechanical Sciences, Vol. 122, pp. 277-287, 2017.  (SCI, IF=2.481)  http://dx.doi.org/10.1016/j.ijmecsci.2017.01.028
  8. A.S. Shedbale, I.V. Singh, B.K. Mishra, Kamal Sharma, Ductile Failure Modeling and Simulations Using Coupled FE-EFG Approach, International Journal of Fracture, Vol. 203, pp. 183-209, 2017. (SCI, IF=1.642)  http://dx.doi.org/10.1007/s10704-016-0137-3  
  9. Himanshu Pathak, Akhilendra Singh, I.V. Singh, Three-Dimensional Quasi-Static Interfacial Crack Growth Simulations in Thermo-Mechanical Environment by Coupled FE-EFG Approach, Theoretical and Applied Fracture Mechanics, Vol. 86, Part B, pp. 267-283, 2016.  (SCIE, IF=2.025)  http://dx.doi.org/10.1016/j.tafmec.2016.08.001
  10. G. Bhardwaj, S.K. Singh, I.V. Singh, B.K. Mishra, T. Rabczuk, Fatigue Crack Growth Analysis of an Interfacial Crack in Heterogeneous Materials using Homogenized XIGA, Theoretical and Applied Fracture Mechanics, Vol. 85, Part B, pp. 294-319, 2016. (SCIE, IF=2.025)  http://dx.doi.org/10.1016/j.tafmec.2016.04.004
  11. Sunkulp Goel, Nikhil Kumar, Devasri Fuloria, R. Jayaganthan, I.V. Singh, D. Srivastava G.K. Dey, and N. Saibaba, Evaluating Fracture Toughness of Rolled Zircaloy-2 at Different Temperatures using XFEM, Journal of Materials Engineering and Performance, Vol. 25(9), pp. 4046-4058, 2016.  (SCIE, IF=1.094) http://dx.doi.org/10.1007/s11665-016-2241-y
  12. A.S. Shedbale, I.V. Singh, B.K. Mishra, A Coupled FE–EFG Approach for Modeling Crack Growth in Ductile Materials, Fatigue & Fracture of Engineering Materials and Structures, Vol. 39(10), pp. 1204-1225, 2016. (SCIE, IF=1.838)  http://dx.doi.org/10.1111/ffe.12423
  13. Manish Kumar, I.V. Singh, B. K. Mishra, S. Ahmad, A. Venugopal Rao, Vikas Kumar, A Modified Theta Projection Model for Creep Behavior of Metals and Alloys, Journal of Materials Engineering and Performance, Vol. 25(9), pp. 3585-3592, 2016. (SCIE, IF=1.094)  http://dx.doi.org/10.1007/s11665-016-2197-y
  14. Minh Ngoc Nguyen, Tinh Quoc Bui, Thien Tich Truong, Ngoc Anh Trinh, Indra Vir Singh, Tiantang Yu, Duc Hong Doan, Enhanced nodal gradient 3D consecutive-interpolation tetrahedral element (CTH4) for heat transfer analysis, International Journal of Heat and Mass Transfer, Vol. 103, pp. 14–27, 2016. (SCI, IF= 2.857)  http://dx.doi.org/10.1016/j.ijheatmasstransfer.2016.07.038
  15. I.V. Singh, A.S. Shedbale, B.K. Mishra, Material Property Evaluation of Particle Reinforced Composites Using Finite Element Approach, Journal of Composite Materials, Vol. 50(20), pp. 2757–2771, 2016.  (SCI, IF= 1.242) http://dx.doi.org/10.1177/0021998315612539
  16. A.S. Shedbale, I.V. Singh, B.K. Mishra, K. Sharma, Evaluation of Mechanical Properties using Spherical Ball Indentation and Coupled FE-EFG Approach, Mechanics of Advanced Materials and Structures, Vol. 23 (7), pp. 832–843, 2016. (SCI, IF= 1.00)  http://dx.doi.org/10.1080/15376494.2015.1029171
  17. G. Bhardwaj, I.V. Singh, B.K. Mishra, Virender Kumar, Numerical Simulations of Cracked Plate using XIGA under Different Loads and Boundary Conditions, Mechanics of Advanced Materials and Structures, Vol. 23, pp. 704–714, 2016. (SCI, IF= 1.00)  http://dx.doi.org/10.1080/15376494.2015.1029159
  18. S. Kumar, I.V. Singh, B.K. Mishra, A. Singh, New Enrichments in XFEM to Model Dynamic Crack Response of 2-D Elastic Solids, International Journal of Impact Engineering, Vol. 87, pp. 198–211. 2015. (SCI, IF= 2.646) http://dx.doi.org/10.1016/j.ijimpeng.2015.03.005
  19. Himanshu Pathak, Akhilendra Singh, I.V. Singh, S.K. Yadav, Fatigue Crack Growth Simulations of 3-D Linear Elastic Cracks under Thermal Load by XFEM, Frontiers of Structural and Civil Engineering, Vol. 9(4), pp. 359–382, 2015. http://dx.doi.org/10.1007/s11709-015-0304-z
  20. Sachin Kumar, A.S. Shedbale, I.V. Singh, B.K. Mishra, Elasto-Plastic Fatigue Crack Growth Analysis of Plane Problems in the Presence of Flaws Using XFEM, Frontiers of Structural and Civil Engineering, Vol. 9(4), pp. 420–440, 2015. http://dx.doi.org/10.1007/s11709-015-0305-y
  21. G. Bhardwaj, I.V. Singh, B.K. Mishra, Fatigue Crack Growth in Functionally Graded Material using Homogenized XIGA, Composite Structures, Vol. 134, pp. 269–284, 2015. (SCI, IF= 3.853) http://dx.doi.org/10.1016/j.compstruct.2015.08.065
  22. Himanshu Pathak, Akhilendra Singh, I.V. Singh, M. Brahmankar, Three-Dimensional Stochastic Quasi-Static Fatigue Crack Growth Simulations Using Coupled FE-EFG Approach, Computers & Structures, Vol. 160, pp. 1–19, 2015. (SCI, IF= 2.425)  http://dx.doi.org/10.1016/j.compstruc.2015.08.002
  23. G. Bhardwaj, I.V. Singh, Fatigue Crack Growth Analysis of a Homogeneous Plate in the Presence of Multiple Defects using Extended Isogeometric Analysis, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Vol. 37(4), pp. 1065–1082, 2015. (SCI, IF= 0.963) http://dx.doi.org/10.1007/s40430-014-0232-1
  24. Sunkulp Goel, R. Jayaganthan, I.V. Singh, D. Srivastava, G.K. Dey, N. Saibaba, Texture Evolution and Ultrafine Grain Formation in Cross-Cryo-Rolled Zircaloy-2, Acta Metallurgica Sinica, Vol. 28, pp. 837–846, 2015. (SCI, IF= 0.523) http://dx.doi.org/10.1007/s40195-015-0267-z
  25. G. Bhardwaj, I.V. Singh, B.K. Mishra, T.Q. Bui, Numerical Simulation of Functionally Graded Cracked Plates using NURBS based XIGA under Different Load and Boundary Conditions, Composite Structures, Vol. 126, pp. 347–359, 2015. (SCI, IF= 3.853)  http://dx.doi.org/10.1016/j.compstruct.2015.02.066
  26. Sunkulp Goel, Nachiket Keskar, R. Jayaganthan, I.V. Singh, D. Srivastava, G.K. Dey, S.K. Jha, N. Saibaba, Texture and Mechanical Behavior of Zircaloy-2 Rolled at Different Temperatures, Journal of Materials Engineering and Performance, Vol.  24(2), 618–625, 2015. (SCIE, IF=1.094) http://dx.doi.org/10.1007/s11665-014-1315-y
  27. Sunkulp Goel, Nachiket Keskar, R. Jayaganthan, I.V. Singh, D. Srivastava, G.K. Dey, N. Saibaba, Development of Ultrafine Grained Zircaloy-2 by Room Temperature Cross Rolling, Journal of Materials Engineering and Performance, Vol.  24, 609–617, 2015. (SCIE, IF=1.094) http://dx.doi.org/10.1007/s11665-014-1287-y
  28. S. Kumar, I.V. Singh, B.K. Mishra, A Homogenized XFEM Approach to Simulate Fatigue Crack Growth Problems, Computers & Structures, Vol. 150, pp. 1–22, 2015. (SCI, IF= 2.425)  http://dx.doi.org/10.1016/j.compstruc.2014.12.008
  29. G. Bhardwaj, I.V. Singh, B.K. Mishra, Stochastic Fatigue Crack Growth Simulation of Interfacial Crack in Bi-layered FGMs using XIGA, Computer Methods in Applied Mechanics and Engineering, Vol. 284, pp. 186–229, 2015.  (SCI, IF= 3.467)  http://dx.doi.org/10.1016/j.cma.2014.08.015
  30. S. Kumar, I.V. Singh, B.K. Mishra, Timon Rabczuk, Modeling and Simulation of Kinked Cracks by Virtual Node XFEM, Computer Methods in Applied Mechanics and Engineering, Vol. 283, pp. 1425–1466, 2015. (SCI, IF= 3.467)  http://dx.doi.org/10.1016/j.cma.2014.10.019
  31. I.V. Singh, G. Bhardwaj, B.K. Mishra, A New Criterion for Modeling Multiple Discontinuities Passing through an Element using XIGA, Journal of Mechanical Science and Technology, Vol. 29(3), pp. 1141–1143, 2015. (SCI, IF= 0.761) http://dx.doi.org/10.1007/s12206-015-0225-8
  32. Sunkulp Goel, Gaurav Kumar, R. Jayaganthan, I.V. Singh, D. Srivastava, G.K. Dey, N. Saibaba, Experimental Evaluation of Mechanical Properties and Fracture-Fatigue Simulation of Cryo and Room Temperature Rolled Zircaloy-2, International Journal of Microstructure and Materials Properties, Vol. 9(2), pp. 120–135, 2014.  http://dx.doi.org/10.1504/IJMMP.2014.066573
  33. S. Kumar, I.V. Singh, B.K. Mishra, A Multigrid Coupled (FE-EFG) Approach to Simulate Fatigue Crack Growth in Heterogeneous Materials, Theoretical and Applied Fracture Mechanics, Vol. 72, pp. 121–135, 2014. (SCIE, IF=2.025) http://dx.doi.org/10.1016/j.tafmec.2014.03.005
  34. Kamal Sharma, I.V. Singh, B.K. Mishra, S.K. Maurya, Numerical Simulation of Semi-Elliptical Axial Crack in Pipe Bend using XFEM, Journal of Solid Mechanics, Vol. 6(2), pp. 208–228, 2014.
  35. S. Kumar, I.V. Singh, B.K. Mishra, A Coupled Finite Element and Element-Free Galerkin Approach for the Simulation of Stable Crack Growth in Ductile Materials, Theoretical and Applied Fracture Mechanics, Vol. 70, pp. 49–58, 2014. (SCIE, IF=2.025) http://dx.doi.org/10.1016/j.tafmec.2014.02.006
  36. H. Pathak, A. Singh, I.V. Singh, Fatigue Crack Growth Simulations of Homogeneous and Bi-material Interfacial Cracks using Element Free Galerkin Method, Applied Mathematical Modeling, Vol. 38, pp. 3093–3123, 2014. (SCI, IF=2.229)  http://dx.doi.org/10.1016/j.apm.2013.11.030
  37. S. Kumar, I.V. Singh, B.K. Mishra, XFEM Simulation of Stable Crack Growth using J-R Curve under Finite Strain Plasticity, International Journal of Mechanics and Materials in Design, Vol. 10, pp. 165–177, 2014. (SCI, IF=1.926) http://dx.doi.org/10.1007/s10999-014-9238-1
  38. I.V. Singh, B.K. Mishra, M. Brahmankar, V. Bhasin, K. Sharma, I.A. Khan, Numerical Simulations of 3-D Cracks Using Coupled EFGM and FEM, International Journal for Computational Methods in Engineering Science & Mechanics, Vol. 15, pp. 227–231, 2014.  http://dx.doi.org/10.1080/15502287.2014.882438
  39. Vineet Kumar, I.V. Singh, B.K. Mishra, R. Jayaganthan, Improved Fracture Toughness of Cryorolled and Room Temperature Rolled 6082 Al Alloys, Acta Metallurgica Sinica, Vol. 27, pp. 359–367, 2014. (SCI, IF= 0.523) http://dx.doi.org/10.1007/s40195-014-0057-z 
  40. A.K. Sahoo, I.V. Singh, B. K. Mishra, XFEM for the Evaluation of Elastic Properties of CNT-Based 3-D Full Five Directional Braided Composites, Advanced Composite Materials, Vol. 23, pp. 351–373, 2014.  (SCI, IF= 1.029)  http://dx.doi.org/10.1080/09243046.2013.871173
  41. S. Bhattacharya, I.V. Singh, B.K. Mishra, Fatigue Life Simulation of Functionally Graded Materials under Cyclic Thermal Load Using XFEM, International Journal of Mechanical Sciences, Vol. 82, pp. 41-59, 2014. (SCI, IF=2.481)  http://dx.doi.org/10.1016/j.ijmecsci.2014.03.005
  42. Sunkulp Goel, Nachiket Keskar, R. Jayaganthan, I.V. Singh, D. Srivastava, G.K. Dey, N. Saibaba, Mechanical Behaviour and Microstructural Characterizations of Ultrafine grained Zircaloy-2 processed by Cryorolling, Materials Science and Engineering: A, Vol. 603, pp. 23-29, 2014.  (SCI, IF=2.647)  http://dx.doi.org/10.1016/j.msea.2014.02.025
  43. Sunkulp Goel, R. Jayaganthan, I.V. Singh, D. Srivastava, G.K. Dey, N. Saibaba, Mechanical and microstructural characterizations of ultrafine grained Zircaloy-2 produced by room temperature rolling, Materials & Design, Vol. 55, pp. 612-618, 2014. (SCI, IF=3.997) http://dx.doi.org/10.1016/j.matdes.2013.09.039
  44. H. Pathak, A. Singh, I.V. Singh, Fatigue Crack Growth Simulations of 3-D Problems Using XFEM, International Journal of Mechanical Sciences, Vol. 76, pp. 112-131, 2013. (SCI, IF=2.481)  http://dx.doi.org/10.1016/j.ijmecsci.2013.09.001
  45. P. Das, R.  Jayaganthan, I.V. Singh, Experimental Finding of Initiation Fracture Toughness and FEM Simulation of Fracture Behaviour of UFG 7075 Al Alloy, Advanced Materials Letters, Vol. 4(9), pp. 668–681, 2013. http://dx.doi.org/10.5185/amlett.2013.2417
  46. Kamal Sharma, I.V. Singh, B.K. Mishra and A.S. Shedbale, The Effect of Inhomogeneities on Edge Crack: A Numerical Study using XFEM, International Journal for Computational Methods in Engineering Science & Mechanics, Vol. 14(6), pp. 505-523, 2013.  http://dx.doi.org/10.1080/15502287.2013.820227
  47. S. Bhattacharya, I.V. Singh, B.K. Mishra, Mixed-Mode Fatigue Crack Growth Analysis of Functionally Graded materials by XFEM, International Journal of Fracture, Vol. 183, pp. 81-97, 2013. (SCI, IF=1.642) http://dx.doi.org/10.1007/s10704-013-9877-5  
  48. Ankit Agarwal, I.V. Singh and B. K. Mishra, Evaluation of Elastic Properties of Interpenetrating Phase Composites by Meshfree Method, Journal of Composite Material, Vol. 47(11), pp. 1407-1423, 2013. (SCI, IF= 1.242) http://dx.doi.org/10.1177/0021998312448494 
  49. S. Bhattacharya, I.V. Singh, B.K. Mishra, T.Q. Bui, Fatigue Crack Growth Simulations of Interfacial Cracks in Bi-layered FGMs using XFEM, Computational Mechanics, Vol. 52(4), pp.799-814, 2013. (SCI, IF=2.639) http://dx.doi.org/10.1007/s00466-013-0845-8  
  50. H. Pathak, A. Singh, I.V. Singh and S.K. Yadav, A Simple and Efficient XFEM Approach for 3-D Cracks in Linear Elastic Materials, International Journal of Fracture, Vol. 181, pp. 189-208, 2013. (SCI, IF=1.642) http://dx.doi.org/10.1007/s10704-013-9835-2  
  51. S. Bhattacharya, I.V. Singh, B.K. Mishra, Fatigue Life Estimation of Functionally Graded Materials using XFEM, Engineering With Computers, Vol. 29(4), pp. 427-448, 2013. (SCI, IF=1.46) http://dx.doi.org/10.1007/s00366-012-0261-2
  52. Ankit Agarwal, I.V. Singh, B.K. Mishra, Numerical Prediction of Elasto-Plastic Behaviour of Interpenetrating Phase Composites By EFGM, Composites: Part B, Vol. 51, pp. 327-336, 2013. (SCI, IF=3.85)
  53. Mohit Pant, I.V. Singh and B.K. Mishra, A Novel Enrichment Criterion for Modeling Kinked Cracks using Element Free Galerkin Method, International Journal of Mechanical Sciences, Vol. 68, pp. 140-149, 2013.  (SCI, IF=2.481)
  54. H. Pathak, A. Singh, I.V. Singh, Fatigue Crack Growth Simulations of Bi-material Interfacial Cracks under Thermo-Elastic Loading by Extended Finite Element Method, European Journal of Computational Mechanics, Vol. 22(1), pp. 79–104, 2013.
  55. P. Das, I. V. Singh, R. Jayaganthan, Crack Growth Simulation of Bulk and Ultrafine Grained 7075 Al Alloy by XFEM, International Journal of Materials and Product Technology, Vol. 44(3/4), pp. 252-276, 2012. (SCI, IF=0.365)
  56. P. Das, I.V. Singh, R. Jayaganthan, An Experimental Evaluation of Material Properties and Fracture Simulation of Cryorolled 7075 Al Alloy, Journal of Materials Engineering and Performance, Vol. 21(7), pp. 1167-1181, 2012. (SCIE, IF=1.094)
  57. H. Pathak, A. Singh, I.V. Singh, Numerical Simulation of Bi-material Interfacial Cracks Using EFGM and XFEM, International Journal of Mechanics and Materials in Design, Vol. 8, pp. 9-36, 2012. (SCI, IF=1.926)
  58. I.V. Singh, B.K. Mishra, S. Bhattacharya and R.U. Patil, The Numerical Simulation of Fatigue Crack Growth Using Extended Finite Element Method, International Journal of Fatigue, Vol. 36, pp. 109-119, 2012. (SCIE, IF=2.162)
  59. I.V. Singh, B.K. Mishra, S. Bhattacharya, XFEM Simulation of Cracks, Holes and Inclusions in Functionally Graded Materials, International Journal of Mechanics and Materials in Design, Vol. 7, pp. 199-218, 2011. (SCI, IF=1.926)
  60. P. Das, R. Jayaganthan, T. Chowdhury, I.V. Singh, Fatigue Behaviour and Crack Growth Rate of Cryorolled Al 7075 Alloy, Materials Science and Engineering A, Vol. 528, pp. 7124-7132, 2011. (SCI, IF=2.647)
  61. Mohit Pant, I.V. Singh, B.K. Mishra, Evaluation of Mixed Mode Stress Intensity Factors for Interface Cracks using EFGM, Applied Mathematical Modeling, Vol. 35, pp. 3443-3459, 2011. (SCI, IF=2.229)
  62. Mohit Pant, I.V. Singh, B.K. Mishra, A Numerical Study of Crack Interactions under Thermo-Mechanical Load Using EFGM, Journal of Mechanical Science and Technology, Vol. 25(2), pp. 403-413, 2011. (SCI, IF= 0.761)
  63. P. Das, R. Jayaganthan, I.V. Singh, Tensile and Impact-Toughness Behaviour of Cryorolled Al 7075 Alloy, Materials & Design, Vol. 32(3), pp. 1298-1305, 2011. (SCI, IF=3.997)
  64. I.V. Singh, B.K. Mishra, Mohit Pant, An Enrichment based New Criterion for the Simulation of Multiple Interacting Cracks using Element Free Galerkin Method, International Journal of Fracture, Vol. 167(2), pp. 157-171, 2011. (SCI, IF=1.642)
  65. Mohit Pant, I.V. Singh, B.K. Mishra, Numerical Simulation of Thermo-Elastic Fracture Problems using Element Free Galerkin MethodInternational Journal of Mechanical Sciences, Vol. 52, pp. 1745-1755, 2010. (SCI, IF=2.481)
  66. Mohit Pant, I.V. Singh, B.K. Mishra, Vivek Bhasin, Kamal Sharma and I. A. Khan, Meshfree Solution of 2-D Edge Crack Problems under Thermo-Mechanical Load, Journal of ASTM International, Vol. 7(5), pp. 12, 2010.
  67. Rajesh Sharma, Rama Bhargava, I.V. Singh, Combined Effect of Magnetic Field and Heat Absorption on Unsteady Free Convection and Heat Transfer Flow in a Micropolar Fluid Past a Semi-infinite Moving Plate with Viscous Dissipation using Element Free Galerkin Method” Applied Mathematics and Computation, Vol. 217(1), pp. 308–321, 2010. (SCI, IF=1.345)
  68. I.V. Singh, B.K. Mishra, Mohit Pant, A Modified Intrinsic Enriched EFGM for Multiple Cracks Simulation, Materials & Design, Vol. 31 (1), pp. 628–632, 2010. (SCI, IF=3.997)
  69. I.V. Singh, Masa. Tanaka, M. Endo, Element Free Galerkin Method for Transient Thermal Analysis of Carbon Nanotube Composites, Thermal Science, Vol. 12 (2), pp. 3948, 2008. (SCIE, IF=0.939)
  70. I.V. Singh and A. Singh, A Meshfree Solution of Two-Dimensional Potential Flow Problems, International Journal of Fluid and Thermal Engineering, Vol. 1 (2), pp. 112–122, 2008.
  71. I.V. Singh, Masa. Tanaka, M. Endo, Effect of Interface on the Thermal Conductivity of Carbon Nanotube Composites, International Journal of Thermal Sciences, Vol. 46 (9), pp. 842–847, 2007.  (SCI, IF=2.769)
  72. I.V. Singh, Masa. Tanaka, J. Zhang, M. Endo, Evaluation of Effective Thermal Conductivity of CNT-based Nano-Composites by Meshless EFG Method, International Journal of Numerical Methods for Heat and Fluid Flow, Vol. 17 (8), pp. 757–769, 2007. (SCI, IF=1.475)
  73. I.V. Singh, Masa. Tanaka, M. Endo, Meshless Method for Nonlinear Heat Conduction Analysis of Nano-Composites, Heat and Mass Transfer, Vol. 43 (10), pp. 1097–1106, 2007. (SCI, IF=1.044)
  74. A. Singh, I.V. Singh, R. Prakash, Numerical Analysis of Fluid Squeezed Between Two Parallel Plates by Meshless Method, Computers and Fluids, Vol. 36 (9), pp.1460–1480, 2007. (SCI, IF=1.891)
  75. I.V. Singh, Masa. Tanaka, M. Endo, Nonlinear Thermal Analysis of Carbon Nanotube Composites by Element Free Galerkin Method, Numerical Heat Transfer-Part A, Vol. 51 (11), pp. 1087–1102, 2007. (SCI, IF=1.937)
  76. W.T. Ang, I.V. Singh, Masa. Tanaka, An Axisymmetric Heat Conduction Model for a Multi-Material Cylindrical System with Application to Analysis of Carbon Nanotube Composites, International Journal of Engineering Science, Vol. 45 (1), pp. 22–33, 2007. (SCI, IF=3.165)
  77. I.V. Singh, Masa. Tanaka, M. Endo, Thermal Analysis of CNT-Based Nano-Composites by Element Free Galerkin Method, Computational Mechanics, Vol. 39(6), pp. 719–728, 2007.  (SCI, IF=2.639)
  78. A. Singh, I.V. Singh, R. Prakash, Meshless Element Free Galerkin Method for Unsteady Nonlinear Heat Transfer Problems, International Journal of Heat and Mass Transfer, Vol. 50(5-6), pp. 1212–1219, 2007. (SCI, IF= 2.857)
  79. I.V. Singh, Masa. Tanaka, Heat Transfer Analysis of Composite Slabs Using Meshless Element Free Galerkin Method, Computational Mechanics, Vol. 36(6), pp. 521–532, 2006. (SCI, IF=2.639)
  80. I.V. Singh, Masa. Tanaka, Thermal Solution of Cylindrical Composite Systems Using Meshless Method, Heat and Mass Transfer, Vol. 42(8), pp. 689–707, 2006. (SCI, IF= 1.044)
  81. A. Singh, I.V. Singh, R. Prakash, Meshless Analysis of Unsteady-State Heat Transfer in Semi-infinite Solid with Temperature Dependent Thermal Conductivity, International Communications in Heat and Mass Transfer, vol. 33(2), pp. 231–239, 2006.  (SCI, IF=2.559)
  82. A. Singh, I.V. Singh, R. Prakash, The Numerical Solution of Temperature Dependent Thermal Conductivity Problems using Meshless Method, Numerical Heat Transfer, Part A, Vol. 50(2), pp. 125–145, 2006. (SCI, IF=1.937)
  83. I.V. Singh, A Numerical Study of Weight Functions, Scaling and Penalty Parameters for Heat Transfer Applications, Numerical Heat Transfer: Part A, Vol. 47(10), pp. 1025–1053, 2005.
  84. I.V. Singh, P.K. Jain, Parallel Meshless EFG Solution for Fluid Flow Problems, Numerical Heat Transfer, Part-B, Vol. 48(1), pp. 45–66, 2005. (SCI, IF=1.33)
  85. I.V. Singh, P.K. Jain, Parallel EFG Algorithm for Heat Transfer Problems, Advances in Engineering Software, Vol. 36(8), pp. 554–560, 2005.  (SCI, IF=1.673)
  86. I.V. Singh, K. Sandeep, R. Prakash, The Effect of Weight Function and Scaling Parameter on Meshless EFG Results in Heat Transfer Problems, International Journal of Heat & Technology, Vol. 23(1), pp. 13–20, 2005.
  87. I.V. Singh, A Numerical Solution of Composite Heat Transfer Problems Using Meshless Method, International Journal of Heat and Mass Transfer, Vol. 47(10-11), pp. 2123–2138, 2004. (SCI, IF= 2.857)
  88. I.V. Singh, Parallel Implementation of the EFG Method for Heat Transfer and Fluid Flow Problems, Computational Mechanics, Vol. 34(6), pp. 453–463, 2004. (SCI, IF=2.639)
  89. I.V. Singh, Meshless EFG Method in 3-D Heat Transfer Problems: A Numerical Comparison, Cost and Error analysis, Numerical Heat Transfer: Part A, Vol. 46(2), pp. 199–220, 2004. (SCI, IF=1.937)
  90. I.V. Singh, K. Sandeep, R. Prakash, Heat Transfer Analysis of Two-Dimensional Fins Using Meshless Element-Free Galerkin Method, Numerical Heat Transfer: Part A, Vol. 44(1), pp.73–84, 2003. (SCI, IF=1.937)