More Like this

1. Modeling Structural Dynamics with 3D Printed Parts: 3D-Printing Dynamics Design (3D3) Competition – Fall 2024

   https://doi.org/10.17603/ds2-ad14-vf88  

   Werner, Richard; Becerra, Dylan; Harvey, Philip (January 2025, Designsafe-CI)

   The 3D-printing Dynamics Design (3D3) Competition intends to train School of Civil Engineering & Environmental Science (CEES) undergraduates at the University of Oklahoma in fundamental concepts related to vibrations, structural dynamics, and earthquake engineering through a semester-long, hands-on competition run in parallel with Introduction to Dynamics for Architectural and Civil Engineers (CEES 3263). Competition participants, or 3D3 Scholars, design, build, and test a bench-scale shake table using 3D-printed components. The designs of these shake tables are published here, along with all the STL files needed for teachers or students elsewhere to fabricate the tables. Also, the data collected during the challenges is published. 

   more » « less
2. How 3-D Printing Can Display Structural Dynamics: 3D-Printing Dynamics Design (3D3) Competition – Fall 2023

   https://doi.org/10.17603/ds2-jc2c-3h46  

   Becerra, Dylan; Griffin, Mia; Thwala, Menziwokuhle; Harvey, Philip (December 2023, Designsafe-CI)

   This report will explore concepts regarding structural dynamics through the utilization of a 3-D printed structure. The report has been broken into 4 challenges, each with its own concept being investigated. Within Challenge 1, a wheel was designed and printed to generate the lowest possible angular acceleration while gathering examining the theory behind rotational motion. Challenge 2 explored cyclical motion as this is where the shake table was designed and constructed. This challenge allowed for an understanding of how ground motion can be generated under a structure. Challenge 3 consisted of free vibration tests through the design of columns with a targeted natural frequency. Challenge 4 compounded off of Challenge 2 and Challenge 3 when the structure was subjected to forced, cyclical motion, from the shake table in order to explore concepts such as displacement and transmissibility generated from a structure subjected to forced vibration.The 3D-printing Dynamics Design (3D3) Competition intends to train School of Civil Engineering & Environmental Science (CEES) undergraduates at the University of Oklahoma in fundamental concepts related to vibrations, structural dynamics, and earthquake engineering through a semester-long, hands-on competition run in parallel with Introduction to Dynamics for Architectural and Civil Engineers (CEES 3263). Competition participants, or 3D3 Scholars, design, build, and test a bench-scale shake table using 3D-printed components. The designs of these shake tables are published here, along with all the STL files needed for teachers or students elsewhere to fabricate the tables. Also, the data collected during the challenges is published. 

   more » « less
3. Modeling Dynamic Systems Through 3D Printing: 3D-Printing Dynamics Design (3D3) Competition – Fall 2023

   https://doi.org/10.17603/ds2-sqrw-az03  

   Hutto, Bethany; Griffin, Mia; Thwala, Menziwokuhle; Harvey, Philip (December 2023, Designsafe-CI)

   The report involves the application and testing of dynamics concepts through the use of 3D-printed components. It includes various challenges promoting innovation and critical thinking. Challenge 1 focused on exploring angular motion through the design of a 3D-printed wheel. In Challenge 2, a shake table was developed by creating a reciprocating mechanism that converted rotational-to-linear motion. The kinematic relations of the 3D model were derived from the geometry of the mechanism to meet a targeted acceleration. Challenge 3 applied structural dynamics concepts by designing columns of a structure to meet a natural frequency. Challenge 4 built upon previous challenges to test a structure and shake table under forced vibrations. The results from the experiment were used to analyze the dynamic response of a structural system. The challenges integrated 3D design and mathematical modeling to understand the importance of dynamic behaviors in structural engineering.The 3D-printing Dynamics Design (3D3) Competition intends to train School of Civil Engineering & Environmental Science (CEES) undergraduates at the University of Oklahoma in fundamental concepts related to vibrations, structural dynamics, and earthquake engineering through a semester-long, hands-on competition run in parallel with Introduction to Dynamics for Architectural and Civil Engineers (CEES 3263). Competition participants, or 3D3 Scholars, design, build, and test a bench-scale shake table using 3D-printed components. The designs of these shake tables are published here, along with all the STL files needed for teachers or students elsewhere to fabricate the tables. Also, the data collected during the challenges is published. 

   more » « less
4. Structural Dynamics Principals Demonstrated With 3-D Printed Models: 3D-Printing Dynamics Design (3D3) Competition – Fall 2023

   https://doi.org/10.17603/ds2-q7zj-1v49  

   Barnes, William; Griffin, Mia; Thwala, Menziwokuhle; Harvey, Philip (December 2023, Designsafe-CI)

   Structural dynamics is the study of the behavior of structures under dynamic loads and forces. This report displays various concepts in dynamics by creating and testing 3D printed models designed and tested with certain goals. The project is organized into four Challenges, each exploring a specific dynamics concept. Challenge 1 analyzes angular acceleration and inertia’s impact on a wheel. Challenge 2 is based around designing and testing a reciprocating motion device capable of turning rotational displacement into linear displacement. Challenge 3 focuses on designing a small structure’s columns to have a specific natural frequency. Challenge 4 combines the reciprocating motion device and the structure from the previous two challenges to make a shake table. This shake table tests the structure at several different forcing frequencies to observe the impact that the forcing frequency has on the displacement at the top of the structure.The 3D-printing Dynamics Design (3D3) Competition intends to train School of Civil Engineering & Environmental Science (CEES) undergraduates at the University of Oklahoma in fundamental concepts related to vibrations, structural dynamics, and earthquake engineering through a semester-long, hands-on competition run in parallel with Introduction to Dynamics for Architectural and Civil Engineers (CEES 3263). Competition participants, or 3D3 Scholars, design, build, and test a bench-scale shake table using 3D-printed components. The designs of these shake tables are published here, along with all the STL files needed for teachers or students elsewhere to fabricate the tables. Also, the data collected during the challenges is published. 

   more » « less
5. Structural Dynamics Investigated Through 3-D Printing: 3D-Printing Dynamics Design (3D3) Competition – Fall 2023

   https://doi.org/10.17603/ds2-mxzs-1a07  

   Lehman, Aaron; Griffin, Mia; Thwala, Menziwokuhle; Harvey, Philip (December 2023, Designsafe-CI)

   The goal of this project is to gain a better understanding of the importance of structural integrity and how structures behave under motion. This report intends to investigate and analyze structural dynamics’ concepts with 3-D printed components in four unique challenges. Challenge 1 explores angular acceleration and rotational dynamics through a 3-D printed wheel. Challenge 2 focuses on reciprocating motion by designing and assembling a mechanism that is connected to a 3-D printed shake table. Challenge 3 involves creating structural columns which are assembled in a single-story structure. It also dives into concepts such as the natural frequency of a structure and how elements of design will influence it. Challenge 4 incorporates both Challenges 2 and 3 by shaking the single-story structure through the reciprocating motion mechanism. It also looks at important structural dynamics’ concepts such as transmissibility and resonance.The 3D-printing Dynamics Design (3D3) Competition intends to train School of Civil Engineering & Environmental Science (CEES) undergraduates at the University of Oklahoma in fundamental concepts related to vibrations, structural dynamics, and earthquake engineering through a semester-long, hands-on competition run in parallel with Introduction to Dynamics for Architectural and Civil Engineers (CEES 3263). Competition participants, or 3D3 Scholars, design, build, and test a bench-scale shake table using 3D-printed components. The designs of these shake tables are published here, along with all the STL files needed for teachers or students elsewhere to fabricate the tables. Also, the data collected during the challenges is published. 

   more » « less