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Full-Text Articles in Applied Mechanics
Asme Human Powered Vehicle, Benjamin Knaus, Philip Basmadjian, Nick Supat
Asme Human Powered Vehicle, Benjamin Knaus, Philip Basmadjian, Nick Supat
Mechanical Engineering
Speed Solutions has been contracted to design and build a Human Powered Vehicle (HPV) frame and drivetrain for the Cal Poly HPV club to use in their 2011 race season. This project is being funded by the Cal Poly HPV club and their sponsors. The goal is to design, test and build a bicycle frame that the HPV club can attach to a fairing of their design. Primary design considerations will include speed, weight, cost, rider ergonomics, reliability and ease of repair. This vehicle will be used to compete in ASME’s Human Powered Vehicle Challenge (HPVC) series of races.
A Study Of Golf Club Head Kinematics Near Impact, Stephen James Murphy, David Wadsworth Lavelle, Kevin Philip Melancon
A Study Of Golf Club Head Kinematics Near Impact, Stephen James Murphy, David Wadsworth Lavelle, Kevin Philip Melancon
Mechanical Engineering
No abstract provided.
Sae Baja: Final Drive Gearbox, Michael Mccausland, Michael Watkins, Ian Masterson, Andrew Sommer
Sae Baja: Final Drive Gearbox, Michael Mccausland, Michael Watkins, Ian Masterson, Andrew Sommer
Mechanical Engineering
This paper presents the results of a manual transmission project for SAE Baja. A full engineering process is documented, including problem definition, scheduling, conceptualization, decision theory, synthesis, analysis, manufacturing, and testing. A comparison is made between existing and potential mechanical power train solutions. The final design is analyzed in dynamic simulations, AGMA stress, predicted FFT spectrums, and shifting rod buckling. A number of complicated parts are manufactured through investment casting and direct CNC machining. Issues in the final assembly have prevented the project from being fully realized, recommendations are made for future SAE Baja teams.
Solar Array Suspension Mechanism Final Design Report For Atk Space, Alex Gould, Randon Kruse, Jeremy Graul, Patrick Barney
Solar Array Suspension Mechanism Final Design Report For Atk Space, Alex Gould, Randon Kruse, Jeremy Graul, Patrick Barney
Mechanical Engineering
The purpose of this project is to improve the existing Solar Array Suspension Mechanism used by ATK Space for the manufacturing and testing of deployable solar arrays. The current system requires too much time to operate and has too many removable parts that may fall and damage the solar arrays. Through the design and verification process the team successfully constructed a quick connecting suspension mechanism that requires no tools to use and has no removable parts. The final design includes the existing force gauge and large adjustment bars used by ATK Space with the addition of a compression spring adjustment …