Asteroid Mobility Using Screw-Powered Vehicles
Description
The role of robotics mobility is essential in the world of research because it allows humans to perform jobs that are dull, dirty, or dangerous without being physically present. A typical robot environment is one that is smooth and predictable. Screw-powered vehicles (SPV's) have commonly been used in these predictable environment situations such as terrestrial applications like mud and snow. However, a gap remains in SPV's traversing complex environments, particularly debris and granular material. The goal is to study the characteristics of how a SPV might move and generate force in such a granular environment for Earth and space. In our study, the chosen granular environment is soda-lime glass beads for easy characterization. This study with glass beads focuses on two separate approaches. The first approach is using a single screw rotating while the apparatus remains static and analyzing the forces that impact the screw. The second approach includes using a full body craft with two double helix screws and analyzing the translational velocity of the craft. This study presents both experimental and computational results using simulations with Multi-Body Dynamics (MBD) and Discrete Element Method (DEM) software packages to investigate the trends of SPV's in a granular environment.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2018-05
Agent
- Author (aut): Ramirez, Sierra Monique
- Thesis director: Marvi, Hamid
- Committee member: Emady, Heather
- Committee member: Thoesen, Andrew
- Contributor (ctb): Mechanical and Aerospace Engineering Program
- Contributor (ctb): Barrett, The Honors College