| DeBartolo 129 | DeBartolo 138 | DeBartolo 140 | |||||
| 8:30 | Breakfast | ||||||
| 8:50 | Room Chairperson meeting | ||||||
| 9:00 | Opening Remarks - DeBartolo 138 | ||||||
| Aero-Optics | Biomaterials | Turbomachinery | |||||
| Chair - Siegenthaler, John | Chair - Converse, Gabriel | Chair - Stephens, David | |||||
| 9:15 | Cress, Jacob | Landrigan, Matthew Daniel | Logue, Michaela Marie | ||||
| Numerical generation of boundary layer OPD | Systematic error in the measure of microdamage by modulus degredation during four-point bending fatigue of cortical bone | Scattering of acoustic waves by a rotor | |||||
| 9:30 | Ponder, Zachariah | Zhao, Yang | Bennington, Matthew | ||||
| Numerical investigation of a 2-D shear layer | Nanoindentation on a material bonded to a rigid wall | Casing Treatments in Axial Compressors | |||||
| 9:45 | Wittich, Donald J. II | Kane, Robert | Mikrut, Paul | ||||
| Revised scaling of optical distortions caused by compressible, subsonic turbulent boundary layers | Fabrication and mechanical testing of hydroxyapatite reinforced porous tissue scaffolds. | Blade image velocimetry | |||||
| 10:00 | Abado, Shaddy | Ross, Ryan | Schmitz, John | ||||
| Designing a new 10X10 high-bandwidth 2-D wavefront sensor | Gold-based contrast agents for detection of microdamage in bone | Design of a transonic research turbine facility: Campbell diagram analysis | |||||
| 10:15 | Poster Session/Coffee Break | ||||||
| 10:30 | |||||||
| Biomechanics | Aero-Optics / Acoustics | Fluid Dynamics | |||||
| Chair - Van Ness, Daniel | Chair - Nightingale, Alice Marie | Chair - Schatzman, David | |||||
| 10:45 | Shi, Xiutao | Wang, Kan | Calderon-Munoz, Williams | ||||
| Investigating the failing properties of trabecular bone using FEA and fabric tensor | Towards large eddy simulation of the aero-optical distortion and control | Hydrodynamic instability of 2-D electron flow in semiconductors | |||||
| 11:00 | Penninger, Charles L. | Ross, Mark | Jimenez Lozano, Joel | ||||
| Investigation of osteoclast resorption mehcanisms in a hybrid cellular automaton model of bone remodelling | Effects of turbulence on the tonal self-noise generated by a 2-D circular cylinder in a cross flow | Pumping characteristics of ureteral peristalsis: analysis and experiment | |||||
| 11:15 | Dubey, Devendra | Slaboch, Paul Edward | Puliti, Gianluca | ||||
| Nanomechanics on interfacial interactions between type-I collagen and calcium hydroxyapetite structures using molecular dynamics | Vortical-acoustic interactions in a flow-excited helmholtz resonator at low Mach numbers | Transport properties of nanofluids | |||||
| 11:30 | Hollingsworth, Nathaniel | Yang, Qin | Zikoski, Zachary | ||||
| Modeling the shear response of the annulus fibrosus | The sound of boundary-layer flow over a roughness element | Shock capturing schemes for the euler equations | |||||
| 11:45 | Group Picture - Main Building | ||||||
| 12:00 | Lunch - McKenna Hall | ||||||
| Guest Speaker - Mr. Daniel T. Jensen (MS '90) - "Lessons from an Aerospace Career (So Far...)" | |||||||
| Rolls-Royce, Collaboration Capability Development Team Lead | |||||||
| Robotics / Particle Dynamics | Flow Control | Biomaterials | |||||
| Chair - Davis, Michael | Chair - Babie, Brian | Chair - Li, Yue | |||||
| 1:45 | Flickinger, Daniel | Mengers, Joshua | Lv, Dayu | ||||
| Remote low frequency state feedback kinematic motion control for mobile robot trajectory tracking | Plasma annemometer: high frequency AC driven, weakly ionized plasma probe and its applications | A metabolism model in man | |||||
| 2:00 | Post, David | Stephens, Julia Elizabeth | Deuerling, Justin | ||||
| Actuator Selection for Jumping Legged Robots | High speed turbine blade tip clearance control: thickness to gap effect | Specimen-specific multiscale model for the anisotropic elastic constants of human cortical bone | |||||
| 2:15 | Newkirk, Jeremy | Mertz, Benjamin | Henkels, Julia | ||||
| Dynamic performance analysis of a robotic system using reliability-based design optimization | Simulation of plasma actuator on artbitrarily shaped surfaces | Polymer fiber characterization using atomic force microscopy | |||||
| 2:30 | Kim, Oleg Vitalievich | Porter, Christopher O. | Jones, Kyle | ||||
| Numerical simulation of particle desposition in a square duct | Spatially Distributed Forcing and Jet Vectoring with a Dielectric Barrier Discharge Plasma Acutator | ||||||
| 2:45 | Dorofeeva, Irina | Vorob'ev, Aleksandr | Post, Marissa Jade | ||||
| Numerical simulations of cavitation in aviation fuel | An experimental investigation of lift enhancement and roll control using plasma actuators | Design and manufacture of polymer osteointegrative scaffolds | |||||
| 3:00 | Poster Session/Coffee Break | ||||||
| Biomechanics / Biomaterials | Heat Transfer | Flow Control | |||||
| Chair - Liu, Kaifeng | Chair - Nightingale, Jason | Chair - He, Chuan | |||||
| 3:15 | Mejia-Rodriguez, Gilberto | Wang, Hainan | Bowles, Patrick | ||||
| A variable fidelity model management framework for designing multiphase materials | 3-omega method for thermal conductivity measurement | Closed-loop helicopter-rotor blade flow control using plasma actuators | |||||
| 3:30 | Garrison, Jacqueline | Guo, Jia | Hewit, Ryan | ||||
| Effects of pre-existing damage on the failure behavior of bovine trabecular bone | Thermal and electrical study of novel superlattice thermoelectric material | Seperation control on trailing edge radii using plasma actuators: an application to vehicle drag reduction | |||||
| 3:45 | Wu, Ziheng | Guajardo Cuellar, Alejandro | Ho, Joanna | ||||
| Computational simulation of bone indentation and viscoelasticity | Atoms vibrations and heat conduction in micro and nano-scale | Compression, flexure, and torsion modes in submerged shells | |||||
| 4:00 | Rutten, Anthony | Samvedi, Vikas | McElrath, Cory | ||||
| Medicine delivery into bone-ingrowth scaffold | Interfacial thermal conductivity analyses at nanoscale for silicon and silicon carbide thin films | Experimental investigation of suction on the absolute instability of a rotating disk boundary layer | |||||