1) Meyers, M. A., Vohringer, O. V., and Lubarda, V. A. (2001) The Onset of Twinning: A Constitutive Description, Acta materialia, 49, 4025-4039. [PDF]
2) Lubarda, V. A. and Krajcinovic, D. (1993) Damage Tensors and the Crack Density Distribution, Int. J. Solids Structures, 30, 2859-2877. [PDF]
3) Lubarda, V. A., Blume, J. A. and Needleman, A. (1993) An Analysis of Equilibrium Dislocation Distributions, Acta metall. mater., 41, 625-642. [PDF]
4) Lubarda, V. A. and Lee, E. H. (1981) A Correct Definition of Elastic and Plastic Deformation and its Computational Significance, J. Appl. Mech. 48, 35-40. [PDF]
5) Lubarda, V. A. and Hoger, A. (2002) On the Mechanics of Solids with a Growing Mass, Int. J. Solids Struct., 39, 4627-4664. [PDF]
6) Lubarda, V. A., Schneider, M. S., Kalantar, D. H., Remington, B. R. and Meyers, M. A. (2004), Void Growth by Dislocation Emission, Acta Materialia, 52, 1397-1408. [PDF]
7) Lubarda, V. A., Krajcinovic, D. and Mastilovic, S. (1994) Damage Model for Brittle Elastic Solids with Unequal Tensile and Compressive Strengths, Eng. Fract. Mech., 49, 681-697. [PDF]
8) Lubarda, V. A. and Krajcinovic, D. (1995) Some Fundamental Issues in the Rate Theory of Damage-Elastoplasticity, Int. J. Plasticity, 11, 763-797. [PDF]
9) Lubarda, V. A. (2003) On the Effective Lattice Parameter of Binary Alloys, Mech. Materials, 35, 53-68. [PDF]
10) Lubarda, V. A. and Markenscoff, X. (2000) Conservation Integrals in Couple Stress Elasticity, J. Mech. Phys. Solids, 48, 553-564. [PDF]
11) Lubarda, V. A. (2004), Constitutive Theories Based on the Multiplicative Decomposition of Deformation Gradient: Thermoelasticity, Elastoplasticity and Biomechanics, Appl. Mech. Rev., 57, 95-108. [PDF]
12) Dávila, L. P., Erhart, P., Bringa, E. M., Meyers, M. A., Lubarda, V. A., Schneider, M. S., Becker, R., Kumar, M. (2005), Atomistic Modeling of Shock-Induced Void Collapse in Copper, Appl. Phys. Lett., 86, Art. No. 161902. [PDF]
13) Lubarda, V. A., Benson, D. J. and M. A. Meyers (2003) Strain-Rate Effects in Rheological Models of Inelastic Response, Int. J. Plasticity, 19, 1097-1118. [PDF]
14) Lubarda, V. A. and Markenscoff, X. (1998) On the Absence of Eshelby Property for Ellipsoidal Inclusions, Int. J. Solids Struct., 35, 3405-3411. [PDF]
15) Meyers, M. A., Traiviratana, S., Lubarda, V. A., Benson, D. J., Bringa, E. M. (2009), The Role of Dislocations in the Growth of Nanosized Voids in Ductile Failure of Metals, J. of Materials, 61, 35-41. [PDF]
16) Krajcinovic, D., Lubarda, V. A. and Sumarac, D. (1993) Fundamental Aspects of the Brittle Cooperative Phenomena, Mech. of Materials, 15, 99-115. [PDF]
17) Lubarda, V. A., Sumarac, D. and Krajcinovic, D. (1993) Preisach Model and Hysteretic Behaviour of Ductile Materials, Eur. J. Mech. A/Solids, 12, 445-470. [PDF]
18) Lubarda, V. A. and Markenscoff (2003) On Conservation Integrals in Micropolar Elasticity, Phil. Mag. A, 83, 1365-1377. [PDF]
19) Lubarda, V. A. (2003) Circular Inclusions in Anti-plane Strain Couple Stress Elasticity, Int. J. Solids Struct., 40, 3827-3851. [PDF]
20) Lubarda, V. A. and Krajcinovic, D. (1995) Constitutive Structure of the Rate Theory of Damage in Brittle Elastic Solids, Appl. Math. Comput., 67, 81-101. [PDF]
21) Lubarda, V. A. (2004) On Thermodynamic Potentials in Linear Thermoelasticity, Int. J. Solids Struct. 41, 7377-7398. [PDF]
21) Lubarda, V. A. (2011) Emission of Dislocations from Nanovoids under Combined Loading, Int. J. Plasticity, 27, 181-200. [PDF]
22) Lubarda, V. A., Talke, K. A.. (2011) Analysis of the Equilibrium Droplet Shape Based on an Ellipsoidal Droplet Model, Langmuir, 27, 10705-10713.
23) Lubarda, V. A. (1994) An Analysis of Large-Strain Damage Elastoplasticity, Int. J. Solids Struct., 31, 2951-2964. [PDF]
24) Lubarda, V. A. and Shih, C. F. (1994) Plastic Spin and Related Issues in Phenomenological Plasticity, J. Appl. Mech., 61, 524-529. [PDF]