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Full-Text Articles in Engineering
Orchard Bin Atv Trailer, Neil F. Leitz
Orchard Bin Atv Trailer, Neil F. Leitz
All Undergraduate Projects
A local orchardist was experiencing a problem that was being caused by their lack of apple picking bin moving equipment. The orchardist needed a well-engineered solution to this lack of equipment. The solution arrived at was a five bin trailer. There were multiple design requirements for this trailer, including the device needing to be able to interface with an ATV, be able to be loaded by hand, be able to carry five bins, and not exceed a budget of $750. While perfecting the design of the trailer, a number of different disciplines were utilized, which included dynamics, kinematics, static loading …
Asme Mini Rc Baja: Drivetrain, Jason M. Moore
Asme Mini Rc Baja: Drivetrain, Jason M. Moore
All Undergraduate Projects
Title and author: ASME mini RC Baja Drivetrain by Jason Moore; partner Mike Cox. (Engineering Technologies, Safety, and Construction)
Abstract/Artists Statement: The issue that this project is concerned with is how to design and build a drivetrain, steering and suspension systems for an RC car. The systems must be simple and functional. Furthermore, these systems will be designed to fit on a small chassis and not interfere with each other. They also need to be strong and durable enough to propel the car forward and maneuver through various obstacles and be built in a way that is easy to take …
H.F. Hauff Pruner Housing & Ergonomics, Erich E. Heilman
H.F. Hauff Pruner Housing & Ergonomics, Erich E. Heilman
All Undergraduate Projects
The technology of electric tree pruners in the current agricultural market has many engineering problems, including; a deficit in power output, excessive overheating, and ergonomics. The 3-man pruner team has coordinated with H.F. Hauff Co. Inc., an agricultural equipment company owned by Neil Hauff, to produce an electric pruner prototype which addresses these problems. The methods used to design the optimal pruner prototype includes traditional engineering stress analysis, force flow analysis, finite element software, and Solidworks modeling software. The construction of the pruner involved manual machining methods and C.N.C. (Computerized Numerical Control) mill technology. During the design process, the team …
Tabletop Die Cast System, Brad C. Barringer
Tabletop Die Cast System, Brad C. Barringer
All Undergraduate Projects
The project was to design, manufacture, and test a tabletop die cast system to be used as lab equipment in MET 257 – Casting Processes. The motivation for this project was the MET 257 – Casting Processes instructor’s desire to physically demonstrate the die casting process, but they were unable to find a system that would meet all of their requirements. They required a system design that was small, portable, would fit in the foundries limited space, had an open concept to allow students to see what was occurring during the pour, and compatibility with the foundries current equipment. The …
Multiple Apple Box Lift 1/10th Scale Model, Kyle J. Burlingame
Multiple Apple Box Lift 1/10th Scale Model, Kyle J. Burlingame
All Undergraduate Projects
Title and Author: 1/10th Scale Multiple Apple Box Lift by Kyle Burlingame (Engineering Technologies, Safety, and Construction) Abstract/Artist statement: A 1/10th scale Multiple Apple Box Lift was designed and built as a proof of concept for a full scale device. The Multiple Apple Box Lift was designed to meet a customer’s requirements and to be presented at SOURCE. This device lifts the top half of the stacked apple boxes on a pallet in order to allow access to the boxes in the middle of the stack. The device can be manually operated by two people while in-between narrow rows of …
Truss Alignment Tool, Jason Hedin
Truss Alignment Tool, Jason Hedin
All Undergraduate Projects
The purpose of this project is to follow the engineering process from start to finish, and create a fully functioning truss alignment tool that has been designed, constructed, and tested successfully. The first phase involves the design of the truss alignment tool. The main design requirements of the tool includes taking an input force of 60 pounds and outputting the 630 pounds of clamping force needed to realign a set of two stacked trusses and pull their bottom edges flush. The second phase involves the construction of the tool. This involves all machining processes associated with the cutting, shaping, and …