Open Access. Powered by Scholars. Published by Universities.®
Engineering Science and Materials Commons™
Open Access. Powered by Scholars. Published by Universities.®
- Discipline
-
- Manufacturing (4)
- Mechanical Engineering (4)
- Other Engineering Science and Materials (3)
- Engineering Mechanics (2)
- Materials Science and Engineering (2)
-
- Mechanics of Materials (2)
- Metallurgy (2)
- Other Materials Science and Engineering (2)
- Structural Materials (2)
- Applied Mechanics (1)
- Computer Engineering (1)
- Controls and Control Theory (1)
- Data Storage Systems (1)
- Education (1)
- Electrical and Computer Engineering (1)
- Electro-Mechanical Systems (1)
- Heat Transfer, Combustion (1)
- Other Mechanical Engineering (1)
- Physical Sciences and Mathematics (1)
- Science and Mathematics Education (1)
- Systems and Communications (1)
- Keyword
-
- Design (2)
- Engineering (2)
- Automation (1)
- Classroom (1)
- Commutator (1)
-
- FEM (1)
- Finite Element (1)
- Improve (1)
- Improvement of existing process (1)
- Induction heating (1)
- Lacrosse (1)
- Manufacturing (1)
- Material Hardness tester (1)
- Material Strength (1)
- Material Testing (1)
- Materials (1)
- Measurement (1)
- Mechanical (1)
- Mechanical tester (1)
- Metrology (1)
- Runout (1)
- Sports (1)
- Stick (1)
- Tensile (1)
- Validation (1)
Articles 1 - 5 of 5
Full-Text Articles in Engineering Science and Materials
Determination And Validation Of Mechanical Properties Of Materials And Substructures, Karl Bates
Determination And Validation Of Mechanical Properties Of Materials And Substructures, Karl Bates
Williams Honors College, Honors Research Projects
The nature of this project is confidential and cannot be disclosed in detail. Generally, this project involves the manufacturing of an original design, which is subjected to a variety of tests – including tensile, compressive, bending, fatigue, and environmental testing, as well as qualitative destructive tests – to determine the mechanical properties of the component. This testing data compares with values predicted using Finite-Element Analysis. The validation of predicted FEM values is crucial to the success of this component, as it is designed for lifecritical applications. If test results indicate poor structural performance, considerable redesign will be necessary.
Ideal Lacrosse Stick, Josh Beck, Tyler Skoloda, Noah Reed, Stanley Dembosky
Ideal Lacrosse Stick, Josh Beck, Tyler Skoloda, Noah Reed, Stanley Dembosky
Williams Honors College, Honors Research Projects
This project is focused on the design of a new and innovative lacrosse stick. Our main points of focus will be the strength and durability of the head. As well as solving some of the problems that exist in existing equipment. These problems were identified by interviewing experienced players at the college level. Benefits would include a stronger head that is easier to use for a player on the field to do things like pass, catch, shoot, and field ground balls in an optimal manner. Normally players will have to purchase new heads every season as a result of warping …
Tabletop Mechanical Tester, Jamie Dombroski, Brian English, Richard Leffler, Andrew Shirk
Tabletop Mechanical Tester, Jamie Dombroski, Brian English, Richard Leffler, Andrew Shirk
Williams Honors College, Honors Research Projects
The need for hands-on and face-to-face experiences in the engineering classroom is very great. The equations, principles, and concepts can all be learned, but without the visual and tactile application, these don’t always sink in or become concrete. A small-scale tensile test machine was designed, sourced, manufactured, and tested for the purpose of being applied in classroom settings to provide this experience to engineering students. Extensive research was performed concerning tensile machines on the market, the essential elements of which are the load cell, grips, crosshead, extensometer, motor, and frame. The raw materials for the frame were purchased and drawings …
Automated Runout Measurement Tool, Ethan Tisch
Automated Runout Measurement Tool, Ethan Tisch
Williams Honors College, Honors Research Projects
A new measurement process and tool is to be developed to improve the existing method for measuring runout on the commutators of brushed DC product.
After an armature is manufactured, the commutator is inspected by placing the completed rotor assembly in one of several non-standard measurement fixtures. An indicator is then positioned on the commutator. A trained operator proceeds to rotate the armature while taking runout and bar-to-bar measurement at various positions along the length of the commutator.
This existing process is slow, costly, and unreliable. For these reasons, there is substantial economic pressure to develop a superior method for …
Jominy Hardenability Tester With In-Situ Heating, Luke Allen
Jominy Hardenability Tester With In-Situ Heating, Luke Allen
Williams Honors College, Honors Research Projects
This project centers on building a Jominy Hardenability tester with In-Situ heating for the manufacturing lab at the University of Akron. A new process and setup will be designed using engineering concepts in order to make the testing more efficient and safer for the teaching and testing of metal hardness. The current Jominy testing setup has efficiency issues within the transfer of specimen from induction heater to testing rig. Our design will simplify the design by creating a test rig that removes the traveling aspect of the specimen which will limit the amount of premature cooling done and will be …