- Quarter car suspension system model.
- Lumped capacitance heat transfer model of a motorcycle engine.
- Modeling occupant response in rear end automobile collision.
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- Applied Duhamel integral, used assumed modes method to find mode shapes, and applied modal superposition to estimate the steady and transient responses of the system
- Analyzed an ANSYS model to compare frequency results and plot mode shapes, and obtained displacement time-history using transient modal linear superposition and direct numerical integration.
- Obtained and plotted Von Mises stress of the beam to determine if the system would fail or not.
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- Determined optimal number of different types of donors for cortical and cancellous tissues for different bone graft products for the maximum profit by applying linear programming methods.
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- Designed the modular frame that allows attachment of multiple systems for different missions.
- Designed the drive system and the brush placements for balanced motion and desired swath.
- Performed theoretical and Ansys Workbench analysis on housings (motor & electrical) and frames.
- Integrated electrical and electronics system design including motors, power distribution, and controllers.
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- Designed the automotive wheel subjected to appropriate loading under set failure criteria.
- Performed design iterations and material selections to prevent failure within safety factor.
- Checked structural integrity in Ansys Workbench by applying failure theories.
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- Modeled a simple wheel assembly of the Menzi Muck A91 and produced drawings on Pro-E.
- Worked with teammates to ensure on time delivery of parts and assembly report as a format manager.
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