Examination of 3D Scanning and Printing
Presenter(s)
Early-Year Research Presenters
Abstract
We are collaboratively exploring 3D scanning and printing technologies, investigating their potential across various objects and assessing the feasibility and quality aspects of 3D printing. With the advancement of 3D imaging techniques, the ability to capture details of objects has significantly improved, offering a wide array of applications across industries. This research critically examines the feasibility of employing 3D scanning for diverse objects, evaluating its efficacy in capturing accurate representations. Furthermore, it scrutinizes the quality of 3D printing outputs, considering factors such as resolution, material properties, and structural integrity. By comprehensively analyzing both the scanning and printing processes, this study aims to provide insights into optimizing workflows and enhancing the overall efficiency and quality of 3D replication technologies.
College
Non-Colleged
Department
Teaching, Learning, and Technology (TLT)
Campus
Winona
First Advisor/Mentor
Thomas Hill
Location
Ballroom - Kryzsko Commons
Start Date
4-18-2024 10:00 AM
End Date
4-18-2024 11:00 AM
Presentation Type
Poster Session - Early-Year RCA
Format of Presentation or Performance
In-Person
Session
1b=10am-11am
Poster Number
8
Examination of 3D Scanning and Printing
Ballroom - Kryzsko Commons
We are collaboratively exploring 3D scanning and printing technologies, investigating their potential across various objects and assessing the feasibility and quality aspects of 3D printing. With the advancement of 3D imaging techniques, the ability to capture details of objects has significantly improved, offering a wide array of applications across industries. This research critically examines the feasibility of employing 3D scanning for diverse objects, evaluating its efficacy in capturing accurate representations. Furthermore, it scrutinizes the quality of 3D printing outputs, considering factors such as resolution, material properties, and structural integrity. By comprehensively analyzing both the scanning and printing processes, this study aims to provide insights into optimizing workflows and enhancing the overall efficiency and quality of 3D replication technologies.
