Part Designs

Molded Flange:

This part was designed to utilize SolidWorks parametric equations to dictate the number and spacing of the fins and holes in the part.

Heat Sink:

This part also makes use of parametric equations to determine the number of fins and their spacing. In designing this part, a sensor was also added to figure out how much of the material is exposed to the air to determine how effectively the part could conduct electricity.

Steel Bicycle Disk Brake Rotor:

This brake rotor makes use of circular patterns to determine the locations of the holes in the part.

Flange:

This part demonstrates use of extruded and revolved geometry as well as application of material properties.

Hinge:

This hinge is a part of an assembly for a small door, it utilizes revolved features and linear patterns.

Pulley:

This pulley also makes use of extruded and revolved geometry as well as the application of material properties.

Assemblies

Geneva Wheel

The Geneva Mechanism uses constant rotational motion to dictate periodic motion. This assembly uses physical dynamics and mates to determine the motion of the parts.

Door Assembly

This exploded view of the assembly shows the screws and hinges connected to a small square door. The assembly makes use of linearly patterned mates.

Linkage Assembly

This assembly was an exploration of the range of motion in link assemblies. This assembly fixes one link and assigns one link as the rotary motor to drive the motion of the other links.

Slider Crank

In the slider crank shown the driving link rotates with full range of motion so that the slider will move along a straight surface back and forth.

Elena Moore

Part Designs

Assemblies

Geneva Wheel

Door Assembly

Linkage Assembly

Slider Crank

Drawings

Sample Problem Sets (Statics)

Sample Problem Sets (Geometric Modeling)