Recent Journal publications (By Subject):
Molecular Dynamics & Nanotechnology (To top)
N. Chandra, S. Namilae, and C. Shet, Local elastic properties of carbon nanotubes in the presence of Stone -Wales defects, Physical Review B, B69, 094101, 1-12, (2004)
C. Shet, N. Chandra, and S. Namilae, Defect-defect interaction in carbon nanotubes under mechanical loading, Mechanics of Advanced Materials and Structures, (2004) (accepted).
S. Namilae, N. Chandra, and C. Shet, Mechanical behavior of functionalized nanotubes, Chemical Physics Letters 387, 247-252, (2004).
C. Shet, N. Chandra, and S. Namilae, Defect annihilations in carbon nanotubes under thermo-mechanical loading, Journal of Material Sciences Letters, (accepted for publication).
N. Chandra and S. Namilae, Multi-scale modeling of nanocystalline materials, Materials Science Forum , 447-448, 19-26, 2004.
S. Namilae, C. Shet, N. Chandra and T.G. Nieh, Atomistic simulation of grain boundary sliding in pure and magnesium doped aluminum bicrystals, Scripta Materialia 46, 49-54 (2002).
S. Namilae, C. Shet, N. Chandra and T.G. Nieh, Atomistic simulation of the effect of trace elements on grain boundary of aluminum, Materials Science Forum, 357-359, 387-392, (2001).
C. Shet, H. Li and N. Chandra, Interface Models for grain boundary sliding and migration, Materials Science Forum 357-359, 577-586, (2001).
N. Chandra and P. Dang, Atomistic Simulation of Grain Boundary Sliding and Migration, Journal of Materials Science, 34, 4, 656-666 (1998).
N. Chandra, Mechanics of Superplastic Deformations at Atomic Scale, Materials Science Forum, 304, 3, 411-419 (1998).
Cohesive Zone Modeling (To top)
C. Shet and N. Chandra, The effect of the shape of the T-d cohesive zone curves on the fracture responses, Mechanics of Advanced Materials and Structures, (in print), 2003.
H. Li and N. Chandra, Analysis of Crack Growth and Crack-tip Plasticity in Ductile Material Using Cohesive Zone Models, International Journal of Plasticity, 19, 849-882, (2003).
N. Chandra, H. Li, C. Shet and H. Ghonem, Some Issues in the Application of Cohesive Zone Models for Metal-ceramic Interface. International Journal of Solids and Structures, 39, 2827-2855, (2002).
C. Shet and N. Chandra, Analysis of Energy Balance When Using Cohesive Zone Models to Simulate Fracture Process, ASME Journal of Engineering Materials and Technology, 124, 440-450, (2002).
N. Chandra and C. Shet, A Micromechanistic Perspective of Cohesive Zone Approach in Modeling Fracture. Computer Modeling in Engineering & Sciences, to appear, (2004)
N. Chandra, Evaluation of Interfacial Fracture Toughness Using Cohesive Zone Models, Composites Part A: Applied Science and Manufacturing, 33, 1433-1447, (2002).
C. Shet, H. Li and N. Chandra, Interface Models for grain boundary sliding and migration, Materials Science Forum 357-359, 577-586, (2001).
N. Chandra and H. Ghonem, Interfacial Mechanics of push-out tests: theory and experiments, Composites Part A: Applied Science and Manufacturing, 32, 3-4, 575-584, (2001).
D. Osborne, N. Chandra and, H. Ghonem, Interface Behavior of Ti Matrix Composites at elevated temperature, Composites Part A: Applied Science and Manufacturing, 32, 3-4, 545-553, (2001).
N. Chandra, S. C. Rama and Z. Chen, Process Modeling of Superplastic materials, Materials Transactions JIM, 40, 8, 723-726 (1999).
S. R. Voleti, C. R. Ananth and N. Chandra, Effect of Fiber Fracture and Matrix Yielding on Load Sharing in Continuous Fiber Metal Matrix Composites, Journal of Composites Technology and Research, 20, 4, 203-209, (1998).
C.R. Ananth, S. R. Voleti and N. Chandra, Effect of Fiber Fracture and Interfacial Debonding on the Evolution of Damage in Metal Matrix Composites, Composites Part A, 29A, 1203-1211, (1998)
S. Mukherjee, C. R. Ananth and N. Chandra, Effect of Interface Chemistry on the Fracture Properties of Titanium Matrix Composites, Composites Part A, 29A, 1213-1219, (1998)
S. R. Voleti, C. R. Ananth and N. Chandra, Effect of Interfacial Properties on the Fiber Fragmentation Process in Polymer Matrix Composites, Journal of Composites Technology and Research, 20, 1, 16-26, (1998).
S. Mukherjee, C. R. Ananth and N. Chandra, Evaluation of Fracture Toughness of MMC Interfaces Using Thin-slice Push-out Tests, Scripta Materialia, 36, 1333-1338 (1997).
C. R. Ananth, S. Mukherjee, and N. Chandra, Effect of Time Dependent Matrix Behavior on the Evolution of Processing-Induced Residual Stresses in Metal Matrix Composites, Journal of Composites Technology and Research 19, 3, 134-141, (1997).
S. Mukherjee, C. R. Ananth and N. Chandra, Effect of Residual Stresses on the Interfacial Fracture Behavior of Metal Matrix Composites, Composite Science and Technology, 57, 1501-112, (1997).
C. R. Ananth and N. Chandra, Elevated temperature interfacial behavior of MMC: a computational study, Composites: Part A, 27A, 805-811 (1996).
C. R. Ananth and N. Chandra, Evaluation of Interfacial Properties of Metal Matrix Composites from Fiber Push-out Tests, Mechanics of Composite Materials and Structures, 2, 309-328 (1995).
Xie, Z.Y. and N. Chandra, Application of GPS Tensors to Fiber Reinforced Composites, Journal of Composite Materials, 29, 1448-1514, (1995).
S. Mukherjee, H. Garmestani and N. Chandra, Experimental Investigation of Thermally Induced Plastic Deformation of MMCs Using Backscattered Kikuchi Method, Scripta Metallurgica et Materialia, 33, 1, 93-99 (1995).
N. Chandra and C.R. Ananth, Analysis of Interfacial Behavior in MMCs and IMCs Using thin Slice Push-out Tests', Composite Science and Technology, 54, 1 , 87-100, (1995).
C. R. Ananth and N. Chandra, Numerical Modeling of Fiber Push-Out Test in Metallic and Intermetallic Matrix Composites-Mechanics of the Failure Process', Journal of Composite Materials, 29, 11, 1488-1514, (1995).
N. Chandra., C.R. Ananth and H. Garmestani, Micromechanical Modeling of Process-Induced Residual Stresses in Ti-24Al-11Nb/SCS6 Composite', Journal of Composite Technology and Research, 17, 37-46, (1994).
Z. Xie and N. Chandra, Application of Equation Regulation Method to Multi-Phase Composites', International Journal of Non-linear Mechanics, 28, 6, 687-704, (1993).
M.J. Tan, C.L. Chen and N. Chandra, Re-examination of the missing strain during superplastic deformation of Al7475, Materials Science and engineering A (In print) 2004
N. Chandra, Constitutive behavior of Superplastic materials, International Journal for nonlinear mechanics, 37, 461-484, (2002).
N. Chandra and S. Namilae, Multi-scale modeling of nanocystalline materials, Materials Science Forum , 447-448, 19-26, 2004.
S. Namilae, C. Shet, N. Chandra and T.G. Nieh, Atomistic simulation of grain boundary sliding in pure and magnesium doped aluminum bicrystals, Scripta Materialia 46, 49-54 (2002).
S. Namilae, C. Shet, N. Chandra and T.G. Nieh, Atomistic simulation of the effect of trace elements on grain boundary of aluminum, Materials Science Forum, 357-359, 387-392, (2001).
C. Shet, H. Li and N. Chandra, Interface Models for grain boundary sliding and migration, Materials Science Forum 357-359, 577-586, (2001).
N. Chandra and P. Dang, Atomistic Simulation of Grain Boundary Sliding and Migration, Journal of Materials Science, 34, 4, 656-666 (1998).
N. Chandra, Mechanics of Superplastic Deformations at Atomic Scale, Materials Science Forum, 304, 3, 411-419 (1998).
S Namilae and N Chandra, Multiscale model to study the effect of interfaces in carbon nanotube based composites, JEMT (In Review)
S. R. Voleti, N. Chandra and J R. Miller, Global-Local Analysis of Large-scale Composite Structures Using Finite Element Methods, Composites & Structures, 58, 3, 453-464, (1996).
S. R. Voleti, J R. Miller and N. Chandra, Structural optimization of the superconducting outsert of a hybrid 45 T hybrid magnet, Cryogenics, 37, 105-111,1997
Webpage is under construction: list is not complete