1. The Study, Testing, and Development of Direct Methanol Microscale Fuel Cells Open Access Author: Montagna, Paul Anthony Title: The Study, Testing, and Development of Direct Methanol Microscale Fuel Cells Area of Honors: Mechanical Engineering (Behrend) Keywords: fuel cellsmicroscalemethanolDMFCelectrodeanodecathodefuel molarityfuel flow rate File: Download Paul_Montagna-Thesis_Final_Submission.pdf Thesis Supervisors: Adam Scott Hollinger, Thesis SupervisorAmir Khalilollahi, Thesis Honors Advisor
2. THE STRUCTURAL INTEGRITY OF CYLINDRICAL LITHIUM ION CELLS IN MULTI-ROTOR QUADCOPTERS Open Access Author: Kassimatis, Joshua Title: THE STRUCTURAL INTEGRITY OF CYLINDRICAL LITHIUM ION CELLS IN MULTI-ROTOR QUADCOPTERS Area of Honors: Mechanical Engineering (Behrend) Keywords: Quadcopter ArmANSYSStress AnalysisLithium Ion BatteriesTopological OptimizationBattery Modeling File: Download Kassimatis_Schreyer_Honors_Thesis_Final.pdf Thesis Supervisors: Adam Scott Hollinger, Thesis SupervisorDr. Yi Wu, Thesis Honors Advisor
3. Universal Design Analysis for Improving the Usability of FFF 3D Printers Open Access Author: Grey, Rebecca Maureen Title: Universal Design Analysis for Improving the Usability of FFF 3D Printers Area of Honors: Mechanical Engineering (Behrend) Keywords: 3D PrintingFused Filament FabricationUniversal DesignUsabilityAging in Place File: Download Grey_Rebecca_Universal_Design_Analysis_for_Improving_the_Usability_of_FFF_3D_Printers.pdf Thesis Supervisors: Charlotte Marr De Vries, Thesis SupervisorAdam Scott Hollinger, Thesis Honors Advisor
4. 3D Printing of Electrically Conductive Polymer Composites Open Access Author: Vandervort, Zachary Title: 3D Printing of Electrically Conductive Polymer Composites Area of Honors: Mechanical Engineering (Behrend) Keywords: Hydrogen Fuel Cell3D PrintingAdditive ManufacturingElectrifi FilamentElectrical Conductivity File: Download 3D_Printing_of_Electrically_Conductive_Polymer_Composites_-_Z.Vandervort.pdf Thesis Supervisors: Adam Scott Hollinger, Thesis SupervisorAdam Scott Hollinger, Thesis Honors AdvisorBrian Phillip Lani, Faculty Reader
5. Micromechanical Modeling of Electrically Conductive Polymer Composites for Fuel Cell Bipolar Plates Open Access Author: Myers, Maxwell Title: Micromechanical Modeling of Electrically Conductive Polymer Composites for Fuel Cell Bipolar Plates Area of Honors: Mechanical Engineering (Behrend) Keywords: HydrogenHydrogen Fuel CellsCompositesCarbon FiberImage ProcessingMATLABBipolar PlatesAngle File: Download Myers_Thesis_Final_Draft_2.pdf Thesis Supervisors: Adam Scott Hollinger, Thesis SupervisorOladipo Onipede, Jr., Thesis Honors Advisor