PROJECTS
Senior Project
Past experiences that I have grown and learned from
Using Solid Works, I designed and modeled a wood-vise
Bill Of Materials for vise assembly *Note Part was designed using ANSI standards and load failure was analyzed and sizes adjusted to meet the required load This model is designed to withstand a shear force of 2000 lbs on the thread with F.O.S of 100.
An alternate design to the face just to further exercise my dimensioning strategies and modeling techniques
Using Solid Works, I designed and modeled a wood-vise
This schematic illustrates the component routing. It starts in the top left with the piezo disc, which emits an alternating current during deflection. Below it, is the ultra efficient LTC3588 full-wave bridge rectifier. When enough power enters the IC a regulated voltage outputs to the rechargeable battery. To the right is the ultra-low power LED flasher circuit powered by the charging battery.
Go-Kart Design and Fabrication
Solid Works Final Go-kart design: Information gathered from model included bar-bending angles, suspension geometry and configuration, and estimated material volume
One of many hours spent, measuring, measuring again, and cutting steel pipe, and prep grinding weld joints
After full assembly it was time to take test the limits of this machine. Plowing through rugged terrain, my buddies and I could not get it to break. Success.
Solid Works Final Go-kart design: Information gathered from model included bar-bending angles, suspension geometry and configuration, and estimated material volume
Wood Vise Assembly
1000W Brushless DC motor 48V Lithium Ion Battery
Close up of Ultra Caps and Series Resistors to regulate voltage and dissipate heat
The capacitors used for the project
1000W Brushless DC motor 48V Lithium Ion Battery
E-Bike With Regenerative Braking using Ultra Capacitors
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