Michael J. Borden Civil, Construction, and Environmental Engineering North Carolina State University 2501 Stinson Dr. Box 7908 Raleigh, NC 27695-7908 919.515.7631 mjborden@ncsu.edu http://www4.ncsu.edu/ mjborden Research Interests Computational fracture and damage mechanics computational mechanics of materials phase-field methods isogeometric analysis based on NURBS and T-splines adaptivity scientific and high performance computing Education PhD, Computational Science, Engineering, and Mathematics, 2012 The University of Texas at Austin, Advisor: Thomas J.R. Hughes MS, Computational and Applied Mathematics, 2009 The University of Texas at Austin MS, Civil Engineering, 2002 Brigham Young University, Provo, Utah BS, Civil and Environmental Engineering, cum laude, 2002 Brigham Young University, Provo, Utah Research Experience 8/2014 present Assistant Professor, North Carolina State University 9/2012 8/2014 Postdoctoral Fellow, The University of Texas at Austin 9/2010 8/2012 Graduate Research Assistant, The University of Texas at Austin 5/2002 12/2011 Research Scientist (Technical Staff), Sandia National Laboratories 5/1999 5/2002 Student Research Assistant, Brigham Young University Awards Robert J. Melosh Medal finalist: 2013 Sandia National Laboratories Doctoral Studies Program Fellowship: 2007 2010 Sandia National Laboratories Employee Recognition Award: 2007 Best Student Technical Poster, 10th International Meshing Roundtable: 2001 Brigham Young University Office of Research and Creative Activities Undergraduate Scholarship: 2000 1 of 6
Refereed Journal Articles D. Schillinger, M. J. Borden, and H. K. Stolarski. Isogeometric collocation for phase-field fracture models. Computer Methods in Applied Mechanics and Engineering, 284:583 610, 2015. M. J. Borden, T. J. R. Hughes, C. M. Landis, and C. V. Verhoosel. A higher-order phasefield model for brittle fracture: Formulation and analysis within the isogeometric analysis framework. Computer Methods in Applied Mechanics and Engineering, 273:100 118, 2014. Z.A. Wilson, M. J. Borden, and C. M. Landis. A phase-field model for fracture in piezoelectric ceramics. International Journal of Fracture, 183(2):135 153, 2013. J. Liu, L. Dedè, J. A. Evans, M. J. Borden, and T. J. R. Hughes. Isogeometric analysis of the advective Cahn-Hilliard equation: spinodal decomposition under shear flow. Journal of Computational Physics, 242:321 350, 2013. D. Schillinger, L. Dedè, M. A. Scott, J. A. Evans, M. J. Borden, E. Rank, and T. J. R. Hughes. An isogeometric design-through-analysis methodology based on adaptive hierarchical refinement of NURBS, immersed boundary methods, and T-spline CAD surfaces. Computer Methods in Applied Mechanics and Engineering, 249-252:116 150, 2012. L. Dedè, M. J. Borden, and T. J. R. Hughes. Isogeometric analysis for topology optimization with a phase field model. Archives of Computational Methods in Engineering, 19(3):427 465, 2012. M. J. Borden, C. V. Verhoosel, M. A. Scott, T. J. R. Hughes, and C. M. Landis. A phasefield description of dynamic brittle fracture. Computer Methods in Applied Mechanics and Engineering, 217-220:77 95, 2012. M. A. Scott, M. J. Borden, C. V. Verhoosel, T. W. Sederberg, and T. J. R. Hughes. Isogeometric finite element data structures based on Bézier extraction of T-splines. International Journal for Numerical Methods in Engineering, 88(2):126 156, 2011. M. J. Borden, M. A. Scott, J. A. Evans, and T. J. R. Hughes. Isogeometric finite element data structures based on Bézier extraction of NURBS. International Journal for Numerical Methods in Engineering, 87(1-5):15 47, 2011. S. E. Benzley, N. J. Harris, M. Scott, M. Borden, and S. J. Owen. Conformal refinement and coarsening of unstructured hexahedral meshes. Journal of Computing and Information Science in Engineering, 5:330 337, 2005. Refereed Conference Papers D. Schillinger, L. Dedè, M. A. Scott, J. A. Evans, M. J. Borden, E. Rank, and T. J. R. Hughes. Isogeometric analysis and the finite cell method. In Proceedings of the European Congress on Computational Methods in Applied Sciences and Engineering, Vienna, Austria, 2012. K. Merkley, C. Ernst, J. F. Shepherd, and M. J. Borden. Proceedings of the 16th International Meshing Roundtable, chapter Methods and Applications of Generalized Sheet Insertion for Hexahedral Meshing, pages 233 250. Springer Berlin Heidelberg, 2008. 2 of 6
M. Parrish, M. Borden, and M. Staten. Proceedings of the 16th International Meshing Roundtable, chapter A Selective Approach to Conformal Refinement of Unstructured Hexahedral Finite Element Meshes, pages 251 268. Springer Berlin Heidelberg, 2008. M. J. Borden, S. E. Benzley, and J. Shepherd. Mesh cutting: Fitting simple all-hexahedral meshes to complex geometries. 8th International Conference on Numerical Grid Generation in Computational Field Simulations, pages 727 736, 2002. M. J. Borden, S. E. Benzley, and J. F. Shepherd. Hexahedral sheet extraction. Proceedings, 11th International Meshing Roundtable, pages 147 152, 2002. S. E. Benzley, M. Borden, and S. A. Mitchell. A refinement technique for all-hexahedral adaptive meshing. Computational Fluid and Solid Mechanics, Proceedings, First MIT Conference on Computational Fluid and Solid Mechanics, pages 1519 1523, 2001. M. Borden, S. Benzley, S. A. Mitchell, D. R. White, and R. Meyers. The cleave and fill tool: An all-hexahedral refinement algorithm for swept meshes. Proceedings, 9th International Meshing Roundtable, pages 69 76, 2000. Book Chapters C. V. Verhoosel, M. A. Scott, M. J. Borden, T. J. R. Hughes, and R. de Borst. Discretization of higher-order gradient damage models using isogeometric finite elements. In G. Pijaudier- Cabot and F. Dufour, editors, Damage Mechanics of Cementitious Materials and Structures, pages 89 120. Wiley-ISTE, 2012. C. V. Verhoosel, M. A. Scott, M. J. Borden, R. de Borst, and T. J. R. Hughes. Isogeometric failure analysis. In D. Mueller-Hoeppe, S. Loehnert, and S. Reese, editors, Recent Developments and Innovative Applications in Computational Mechanics, pages 275 282. Springer- Verlag, 2011. Invited Seminar and Keynote Presentations M. J. Borden. The variational approach to prediction fracture in brittle and ductile materials. Brown University, School of Engineering, April 2015. M. J. Borden. Developing comutational models for material failure: An engineer embraces mathematics. North Carolina State University, Department of Civil, Construction, and Environmental Engineering, March 2015. M. J. Borden. Phase-field methods for predicting static and dynamic fracture. Duke University, Department of Civil and Environmental Engineering, February 2015. M. J. Borden. Phase-field models for simulation of three-dimensional fracture problems. University of Illinois at Urbana-Champaign, Department of Mechanical Science and Engineering, April 2014. M. J. Borden. Phase-field models for large scale simulations of three-dimensional fracture problems. Northwestern University, Department of Mechanical Engineering, January 2014. 3 of 6
M. J. Borden. Isogeometric analysis and phase-field models for dynamic fracture in brittle and ductile materials. University of California, San Diego, Structural Engineering Seminar, June 2013. M. J. Borden, T. J. R. Hughes, and C. M. Landis. Phase-field models for dynamic crack propagation (keynote). In European Congress on Computational Methods in Applied Sciences and Engineering 2012, Vienna, Austria, September 2012. Other Presentations M. J. Borden, T. J. R. Hughes, and C. M. Landis. Phase-field methods for predicting fracture in brittle and ductile materials. In Society of Engineering Science 51st Annual Technical Meeting, West Lafayette, Indiana, October 2014. M. J. Borden, T. J. R. Hughes, C. M. Landis, and I. J. Lee. Phase-field models for dynamic fracture in brittle and ductile material. In 17th U.S. National Congress on Theoretical and Applied Mechanics, East Lansing, Michigan, June 2014. M. J. Borden, T. J. R. Hughes, C. M. Landis, and I. J. Lee. Application of isogeometric analysis to higher-order phase-field formulations for fracture in brittle and ductile material. In IGA 2014: Integrating Design and Analysis, Austin, Texas, 2014. M. J. Borden, T. J. R. Hughes, and C. M. Landis. Methods for improving convergence and accuracy of phase-field models for dynamic fracture in brittle and ductile materials. In 12th US National Congress on Computational Mechanics, Raleigh, North Carolina, July 2013. M. J. Borden, T. J. R. Hughes, and C. M. Landis. Higher-order phase-field models for dynamic crack propagation. In Advances in Computational Mechanics (ACM 2013), San Diego, CA, February 2013. M. J. Borden, T. J. R. Hughes, C. M. Landis, and M. A. Scott. Isogeometric analysis for higher-order damage and pahse-field fracture models. In Physics-Based Modeling in Design and Development for U.S. Defense Conference, November 2012. M. J. Borden, T. J. R. Hughes, and C. M. Landis. Phase-field models for dynamic brittle fracture. In Society of Engineering Science 49th Annual Technical Meeting, Atlanta, Georgia, October 2012. M. J. Borden, T. J. R. Hughes, and C. M. Landis. Phase-field models for dynamic crack propagation in ductile material. In Society of Engineering Science 49th Annual Technical Meeting, Atlanta, Georgia, October 2012. M. J. Borden, T. J. R. Hughes, and C. M. Landis. Phase-field models for dynamic crack propagation. In 10th World Congress on Computational Mechanics, São Paulo, Brazil, July 2012. M. J. Borden, T. J. R. Hughes, C. M. Landis, M. A. Scott, and C. V. Verhoosel. Isogeometric analysis of dynamic crack propagation using a phase-field model. In 11th US National Congress on Computational Mechanics, Minneapolis, Minnesota, July 2011. M. J. Borden, T. J. R. Hughes, C. M. Landis, M. A. Scott, and C. V. Verhoosel. Isogeometric analysis and phase-field modeling of crack propagation. In J. Oliver, M. Jirásek, and 4 of 6
N. Moës, editors, Computational Modeling of Fracture and Failure of Materials and Structures, Barcelona, Spain, 2011. M. J. Borden, T. J. R. Hughes, C. M. Landis, M. A. Scott, and C. V. Verhoosel. Isogeometric analysis and phase-field modeling of dynamic linear elastic fracture mechanics. In Isogeometric Analysis 2011: Integrating Design and Analysis, Austin, Texas, 2011. M. J. Borden, M. A. Scott, J. A. Evans, and T. J. R. Hughes. Computing with bezierbased isogeometric elements: A tutorial. In 10th US National Congress on Computational Mechanics, 2009. M. J. Borden and M. L. Brewer. Techniques for robust target-to-source imprinting for decomposition of many-to-many sweepable volumes. In 9th US National Congress on Computational Mechanics, 2007. M. J. Borden. Improved decomposition and meshing for n-to-m sweepable volumes. In 8th US National Congress on Computational Mechanics, 2005. M. J. Borden and J. F. Shepherd. A survey of hex mesh modification techniques: Where we are and where we are going. In 7th US National Congress on Computational Mechanics, 2003. Patents M. J. Borden and J. F. Shepherd. Method of modifying a volume mesh using sheet extraction. US Patent 7,181,377, February 2007. M. J. Borden and J. F. Shepherd. Method of modifying a volume mesh using sheet insertion. US Patent 7,098,912, August 2006. Teaching Experience CE 325 (Matrix) Structural Analysis I CE 794 Advanced FEA for Geometrically Nonlinear Problems Mechanics of Solids (at UT-Austin) Academic Service Journal Reviewer: Computer Methods in Applied Mechanics and Engineering International Journal for Numerical Methods in Engineering Journal of the Mechanics and Physics of Solids International Journal of Fracture Computational Mechanics Journal of Computational Physics Engineering with Computers Finite Elements in Analysis and Design 5 of 6
Memberships 2003 present 2003 present 2012 present United States Association for Computational Mechanics (USACM) International Association for Computational Mechanics (IACM) Society of Engineering Science (SES) May 26, 2015 6 of 6