1. Comparative Review of 3D Printed Walls and The Methods Used by Companies in the Industry Open Access Author: Bello, Nicholas Title: Comparative Review of 3D Printed Walls and The Methods Used by Companies in the Industry Area of Honors: Civil Engineering Keywords: 3D PrintingConcreteStructural AnalysisThermal Analysis File: Download Nick_Bello_Schreyer_Thesis__1__Redacted.pdf Thesis Supervisors: Ali M Memari, Thesis SupervisorS. Ilgin Guler, Thesis Honors Advisor
2. Investigation of the Printability and Curing of Barium Titanate Composites with Direct Ink Writing Open Access Author: Karekatte, Rishabh Title: Investigation of the Printability and Curing of Barium Titanate Composites with Direct Ink Writing Area of Honors: Mechanical Engineering Keywords: Barium Titanate3D PrintingDirect Ink WritingPolymer-Ceramic CompositesCeramicsPolymersPrintabilityCurability File: Download Karekatte_Rishabh_Schreyer_Thesis.pdf Thesis Supervisors: Zoubeida Ounaies, Thesis SupervisorBo Cheng, Thesis Honors AdvisorAmrita Basak, Thesis SupervisorAmira Barhoumi Meddeb, Thesis Supervisor
3. 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
4. Developing A Wound-Assay for Modeling Collective Cell Migration In Vitro Open Access Author: Narayanamangalam, Aryath Title: Developing A Wound-Assay for Modeling Collective Cell Migration In Vitro Area of Honors: Biomedical Engineering Keywords: Collective Cell MigrationWound HealingWound AssayScratch AssayNanofibersBiomaterialsCell MigrationCancer MetastasisElectrospinningStereolithography3D Printing File: Download Developing_A_Wound-Assay_for_Modeling_Collective_Cell_Migration_In-Vitro_FINAL.pdf Thesis Supervisors: Justin Lee Brown, Thesis SupervisorJustin Lee Brown, Thesis Honors AdvisorPak Kin Wong, Faculty Reader
5. Tensile Behavior of Triply Periodic Minimal Surface Lattices as Infill for Additively Manufactured Polylactic Acid Open Access Author: Campbell, Jaron Title: Tensile Behavior of Triply Periodic Minimal Surface Lattices as Infill for Additively Manufactured Polylactic Acid Area of Honors: Mechanical Engineering Keywords: Additive Manufacturing3D PrintingInfillTPMSTriply Periodic Minimal SurfaceFused Filament FabricationAnisotropyTensile File: Download Campbell_Thesis_Final_Draft.pdf Thesis Supervisors: Amrita Basak, Thesis SupervisorMargaret Louise Byron, Thesis Honors Advisor