![]() This work has culminated in a number of peer-reviewed articles, book chapters, education essays, and two co-authored books including Same-sex Partners: The Social Demography of Sexual Orientation (SUNY Press, 2009) with Amanda K. Specifically, their research adds to our knowledge about how categorization or labeling processes yield different outcomes in treatment and resources. While these two fields may seem unrelated, their research utilizes both perspectives to examine sexual, gender, and family inequalities. Their two major research interests are social psychology and the demography of sexual orientation. ![]() Compton is a Full Professor of Sociology at the University of New Orleans. Liberal Arts, Education & Human Developmentĭ’Lane R.Professional and Continuing Education (PaCE).Yokoyama, “Plasto-hydrodynamic deformation of brittle bulk metallic glass at room temperature,” Journal of Physics D – Applied Physics, 41 (2008). Zok, "A Constitutive Description of the Inelastic Response of Ceramics," Journal of the American Ceramic Society, 94 S204-214 (2011). Zok, “Damage Development in an Armor Ceramic Under Quasi-Static Indentation,” Journal of the American Ceramic Society, 94 S215-225 (2011). Utz, “Micromechanical models to guide the development of synthetic ‘brick and mortar’ composites,” Journal of the Mechanics and Physics of Solids, 60 1545-1560 (2012). Begley, “High Strength Alumina Micro-Beams Fabricated by Inkjet Printing,” Journal of the American Ceramic Society, 95 3016–3018 (2012). Zok, “Damage Development in an Armor Alumina Impacted with Ductile Metal Spheres,” Journal of Mechanics of Materials and Structures 7 575-591 (2012). Zok, “ Failure Initiation during Impact of Metal Spheres onto Ceramic Targets,” International Journal of Impact Engineering, 55 11-23 (2013).ī.G. Zok, " Impact Response of Layered Steel-Alumina Targets," Mechanics of Materials, 60 80-92 (2013).ī.G. Zok, " Impact Resistance of TiC-based Cermets," International Journal of Impact Engineering, 62 75-87 (2013).Į.A. Zok, “ Effect of Core Topology on Projectile Penetration in Hybrid Aluminum/Alumina Sandwich Structures,” International Journal of Impact Engineering, 62 99-113 (2013).ī.G. Lewis, “3D-Printing of Lightweight Cellular Composites,” Advanced Materials, 26 (34), 5930-5935 (2014). Buehler, “Structural optimization of 3D-printed synthetic spider webs for high strength,” Nature Communications 6:7038 doi: 10.1038/ncomms8038 (2015).ī.G. Blue, “ Numerical Simulation of Big Area Additive Manufacturing (3D Priting) of a Full Size Car,” SAMPE Journal 51 (4) 27-36 (2015). Wadley, “Ballistic impact response of an UHMWPE fiber reinforced laminate encasing an aluminum-alumina hybrid panel,” International Journal of Impact Engineering, In press (2015). Cover Art: "3D Printing: 3D-Printing of Lightweight Cellular Composites," Advanced Materials, 26 (34), 6043 (2014).Web of Science Highly Cited Paper: “3D-printing of lightweight cellular composites,” Advanced Materials, 2014.R&D100 Award for GENOA 3D printing software with AlphaStar Corporation.Invited Speaker - NAE Japan-America Frontiers of Engineering Symposium, 2016.Peer reviewer for the International Journal of Impact Engineering, Journal of Applied Physics, Journal of Applied Physics, Journal of Experimental Mechanics, Journal of Applied Mechanics, and European Journal of Mechanics-A/Solids Member, American Ceramic Society, Engineering Ceramics Divisionįairmont Chateau Lake Louise Student Scholarship Ph.D., 2012, University of California, Santa Barbaraī.S., 2006, University of Kentucky, Lexington Potential areas of application include aerospace, nuclear power, armor, wear materials, and lightweight, highly efficient structures for the transportation sector. These represent a huge area of untapped potential now accessible via additive manufacturing techniques. Of particular interest are printable fiber-reinforced polymer and ceramic matrix composites (PMC's and CMC's) and multi-material hybrid structures. This requires establishing the link between feedstock processing parameters, deposition parameters, and the mechanical and functional properties of the resulting materials through mechanical testing, numerical simulation, and modeling. Wyss Institute for Biologically Inspired Engineeringĭeveloping new high-performance materials for additive manufacturing (AM) technologies, and developing the necessary fundamental understanding of AM processes to enable the application of rigorous engineering principles to AM components. ![]() ![]() School of Engineering and Applied Sciences Materials Scientist in Additive Manufacturing Associate Professor in Mechanical EngineeringĪssistant Professor in Mechanical Engineering
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