Sunday, May 22, 2016

Week 8

Week 8

The machined parts that were ordered came in this week (Figure 1) however, the remaining parts did not. There was a power outage at Drexel and because of this it set back the shipment an entire week. As seen in figures two and three, the parts fit perfectly in the chassis. The parts that did not arrive include raw materials that need to be machined by the team and some fasteners that are required for assembling the pedal box.

Fig 1:  Machined parts

Fig 2:  Close up view of main structure of pedal box resting in the chassis

Fig 3:  Distant view of main structure of pedal box in the chassis 

Week 7

Week 7
After Dr. Tan's approval the group placed the order for the complex machine parts as well as the rest of the materials that will be needed for the pedal box. The group also finished the final draft of the final report which is due this week. Putting together a presentation on the final design is the next step for the team members.

Wednesday, May 11, 2016

Week 6

Week 6
With the new design, the group had to do finite element analysis on each part to verify that the entire assembly will be able to withstand a 450-pound force on the break pedal. Figure 1 shows a part of finite element analysis on the main structure of the pedal box. After completing the finite element analysis, the group showed the design to Dr. Tan to make sure the parts could be ordered. Once receiving the approval, the next step was to start a rough draft of the final report which will be due next week.

Figure 1:  Finite Element Analysis Factor of Safety Plot 





Week 5

Week 5

This week we had to redesign the majority of the pedal box due to the placement of the steering rack and pinion being overlooked and partially due to the team’s inexperience with Formula SAE racecars. When doing the redesign, as seen in Figure 1, the team had to go back to the drawing board and take new measurements. After doing so the next step was to create another pedal box with nearly all new sized pieces. The main structure will be machined from a 0.625” thick plate of 6061-T6 aluminum that is 8” wide by 13.25” long. All of the other pieces will also be constructed out of the same material as the main structure. The total calculated weight is said to be 5.95 pounds which is a 2.84-pound savings from the previous design. In the end this redesign set the group back approximately a week.

Figure 1:  Redesign Pedal Assembly 

Monday, May 2, 2016

Week 4

Week 4

During week 4, the team designed the Pedal Box in Solidworks.  The entire assembly will be made from various thicknesses of 6061-T6 Aluminum.  This material was chosen for its strength to weight ratio.  A few members performed a Finite Element Analysis of each part using Solidworks' built in features.  As stated in the Formula SAE rulebook, the brake pedal assembly must be able to withstand an applied force of 450 lbs. Every part had a safety factor above 1.5, which was the minimum value expected by the advisors.  The maximum displacement under that maximum load was 0.0328" which is well under the maximum values stated in the FSAE rules of 0.125".  Solidworks calculated the total mass of the assembly to be 8.79lbs.   
Figure 1: Isometric Front View With False Floor Shown

Figure 2: Isometric Rear View With False Floor Hidden