• J.M. Emery, M.D. Grigoriu, and R.V. Field Jr., “Bayesian methods for characterizing unknown parameters of material models,” Applied Mathematical Modelling, (2016) available online.  doi:10.1016/j.apm.2016.01.046
  • A.A. Brown, L.A. Deibler, L.L. Beghini, T.D. Kostka, B.R. Antoun, “Process modeling and experiments for forging and welding,”book chapter in Challenges in Mechanics of Time Dependent Materials, B. Antoun (Ed.), Springer, vol. 2 p. 19-25, 2016.
  • H. Lim, R. Dingreville, L.A. Deibler, T.E. Buchheit, C.C. Battaile.  ”Investigation of grain-scale microstructural variability in tantalum using crystal plasticity-finite element simulations,” Comp. Mater. Sci. 117 (2016) 437-444
  • S. Welsh, M. Kapoor, O. Underwood, R.L. Martens, G.B. Thompson, J.L. Evans, “Influence of Grain Boundary Character and Annealing Time on Segregation in Commercially Pure Nickel,” J. Mater. (2016) 1-15
  • H. Lim, H., Abdeljawad, F., Owen, S.J., Hanks, B.W., Foulk, J.W., Battaile, C.C., “Incorporating physically-based microstructures in materials modeling: Bridging phase field and crystal plasticity frameworks,” Model. Simul. Mater. Sci. Eng., (2016), In press.
  • J.E. Bishop, J.M. Emery, R.V. Field Jr., D.J. Littlewood, and A.J. Baines, “Direct numerical simulations in solid mechanics for quantifying the macroscale effects of microstructure and material-model form error,” JOM, (2016), in press.
  • J. Madison, "Integrated Computational Materials Engineering: Tools, Simulations and New Applications," JOM, (2016) in press.


  • T. E. Buchheit, J. D. Carroll, B. G. Clark, B. L. Boyce, “Evaluating absolute rotation in a polycrystal during in-situ tensile deformation using EBSD”, Microscopy and Microanalysis, 2015, doi:10.1017/S1431927615000677.
  • H. Lim, L.M. Hale, J.A. Zimmerman, C.C. Battaile, and C.R. Weinberger, “A multi-scale model of dislocation plasticity in a-Fe: incorporating temperature, strain rate and non-schmid effects”,  Int. J. Plasticity, 73 (2015) 100-118. 
  • C.C. Battaile, J.M. Emery, L.N. Brewer, and B.L. Boyce, "Crystal Plasticity Simulations of Microstructure-Induced Variability in the Deformation Behavior at Void-Like Defects in Polycrystalline Brass," Philosophical Magazine, 2015. 
  • H. Lim, C. R. Weinberger, C. C. Battaile, J. D. Carroll, B. L. Boyce, “A physically based temperature and strain rate dependent crystal plasticity model for BCC metals,” J. Mech. Phys. Sol., 74, p. 80-96, 2015. 
  • J. M. Emery, R. V. Field, Jr., J. W. Foulk, III, K. N. Karlson, and M. Grigoriu, “Predicting laser weld reliability with stochastic reduced-order models”, International Journal for Numerical Methods in Engineering, 103, 914-936, 2015. 
  • J. Bishop, J. Emery, R. Field, C. Weinberger, D. Littlewood, "Direct numerical simulations in solid mechanics for understanding the macroscale effects of microscale material variability", Comp. Meth. App. Mech. Eng., 287, 262-289, 2015. 
  • L.M. Hale, H. Lim, J.A. Zimmerman, C.C. Battaile, and C.R. Weinberger, “Insights on Activation Enthalpy for Non-Schmid Slip in BCC Metals,” Scripta Mater., 99,p.  89-92, 2015. 
  • M.T. Janish, P.G. Kotula, B.L. Boyce, and C.B. Carter, “The observation of fcc and hcp tantalum,” J. Mater Sci., v. 50 (2015) 3706-3715. 
  • H. Lim, J.D. Carroll, C.C. Battaile, C.R. Weinberger, and B.L. Boyce, “Quantitative comparison between experimental measurements and CP-FEM predictions of plastic deformation in a tantalum oligocrystal,” Int. J. Mech. Sci., v92, 98-108, 2015. 
  • R. V. Field, Jr., M. Grigoriu, and J. M. Emery, "On the efficacy of stochastic collocation, stochastic Galerkin, and stochastic reduced order models for solving stochastic problems", Probabilistic Engineering Mechanics, 40, 60-72, 2015.
  • J. Wang, Z. Zeng, C.R. Weinberger, Z. Zhang, T. Zhu, S.X. Mao, “In situ atomic-scale observation of twinning dominated deformation in nanoscale body-centred cubic tungsten”, Nature Materials, DOI: 10.1038/NMAT4228. 
  • D.F. Susan, T.B. Crenshaw, J.S. Gearhart, “The effects of casting porosity on the tensile behavior of investment cast 17-4PH stainless steel”, Journal of Materials Engineering and Performance, 24, 2917-2923, 2015. 
  • J.E. Bishop, J.M. Emery, R.V. Field Jr., C.R. Weinberger, and D.J. Littlewood, “Direct numerical simulations in solid mechanics with comparisons to homogenization theory,” Comp. Meth. App. Mech. Eng., Volume 287, April 2015, pp. 262–289.


  • T.R. Bieler, S.C. Sutton, B.E. Dunlap, Z.A. Keith, P. Eisenlohr, M.A. Crimp, B.L. Boyce, “Grain boundary responses to heterogeneous deformation in tantalum polycrystals”, JOM, 66, p. 121-128, 2014. 
  • H. Lim, S. Subedi, D. T. Fullwood, B. L. Adams, R. H. Wagoner, “A Practical Meso-Scale Polycrystal Model to Predict Dislocation Densities and the Hall-Petch Effect", Materials Transactions, 55 (1), p. 35-38, 2014. 
  • N. A. Pedrazas, T. E. Buchheit, E. A. Holm, E. M. Taleff, “Dynamic Abnormal Grain Growth in Tantalum”, Mater. Sci. Eng. A, 610, p. 76-84, 2014. 
  • J.D. Madison, L.K. Aagesen, V.W.L. Chan, K. Thornton, “Advancing Quantitative Description of Porosity in Autogeneous Laser-Welds of 304L Stainless Steel, Integrating Materials and Manufacturing Innovation, vol. 3, 2014.  
  • L.M. Hale, J.A. Zimmerman and C.R. Weinberger, "Simulations of bcc tantalum screw dislocations: why classical inter-atomic potentials predict {112} slip", Comp. Mater. Sci., 90, p. 106 (2014) 
  • J.A. Zimmerman, A.S. Sabau, M. Asle Zaeem, M.A. Tschopp and D.E. Spearot, "Algorithm Development in Computational Materials Science", JOM, 66, p. 397 (2014) 
  • T.R. Bieler, P. Eisenlohr, C.Zhang, H. Phukan, M.A. Crimp, "Grain Boundaries and Interfaces in Slip Transfer", Current Opinion in Solid State & Materials Science, 18, p. 212-226, 2014. 
  • L. Smith, J.A. Zimmerman, L.M. Hale, and D. Farkas, “Molecular Dynamics Study of Deformation and Fracture in a Tantalum Nano-Crystalline Thin Film,” Mod. Sim. Mater. Sci. Eng., 22, p. 045010, 2014.  
  • H. Lim, J.D. Carroll, C.C. Battaile, T.E. Buchheit, B.L. Boyce, and C.R. Weinberger, “Grain-scale Experimental Validation of Crystal Plasticity Finite Element Simulations of Tantalum Oligocrystals,” Int. J. Plasticity, 60, p. 1-18, 2014. 
  • C.M. Barr, L. Barnard, J.E. Nathaniel, K.Hattar, K.A. Unocic, I. Szlurska, D. Morgan, and M.L. Taheri, “Grain boundary character dependence of radiation induced segregation in a model Ni-Cr alloy,” J. Mater. Res.,  30, (9) p. 1290-1299, 2014. 
  • C.M. Barr, G.A. Vetterick, K.A. Unocic, K. Hattar, X.-M. Bai, and M.L. Taheri, “Anisotropic radiation-induced segregation in 316L austenitic stainless steel with grain boundary character,” Acta Mater. 67 (2014) 145-155.


  • C.R. Weinberger, B.L. Boyce, and C.C. Battaile, “Slip planes in BCC transition metals”, International Materials Reviews, 58(5), p.296-314, 2013.
  • B.L. Boyce, B.G. Clark, P. Lu, J.D. Carroll, and C.R. Weinberger, “The morphology of tensile failure in tantalum”, Metallurgical and Materials Transactions A, 44(10), p. 4567-4580, 2013
  • J. Carroll, W. Z. Abuzaid, J. Lambros, H. Sehitoglu, "On the interactions between strain accumulation, microstructure, and fatigue crack behavior", International Journal of Fracture, 180, p. 223-241, April 2013.
  • H. Lim, C. R. Weinberger, C .C. Battaile, T. E. Buchheit, "Application of generalized non-Schmid yield law to low temperature plasticity in BCC transition metals", Modeling and Simulation in Materials Science and Engineering, 21, p. 145015, 2013.
  • C.R. Weinberger, G.J. Tucker, and S.M. Foiles, “The Peierls potential of screw dislocations in BCC transition metals: predictions form density functional theory”, Phys. Rev. B, 87, p. 054114, 2013.
  • J.D. Carroll, B.G. Clark, T.E. Buchheit, B.L. Boyce, C.R. Weinberger, "An experimental statistical analysis of stress projection factors in BCC tantalum", submitted to Materials Science and Engineering A, February 2013.
  • Madison, L.K. Aagesen, C.C. Battaile, J.M. Rodelas, T.K.C.S. Payton, "Coupling 3D quantitative interrogation of weld microstructure with 3D models of mechanical response", Metallogr. Microstruct., Anal., 2, p. 359-363, 2013.