1. Feasibility MSA P11213

2. Base Plate Feasibility 3 plastics were looked at for MSA mounting board material: ABS, Acrylic, and polypropylene. Due to cost requirements, cheapest material (polypropylene) analyzed first, but discarded due to too much deflection. Acrylic being cheaper than the ABS sheet was analyzed and was found structurally feasible. Following is the analysis of a load factor of safety of 5 times the max MSA weight. 25lbs In this very conservative analysis, max strain is.025”, which is considerably less than any deflection noticeable enough to affect MSA performance. Stress values are approximately 10 times less than the yield stress of 10200psi.

3. 25 lb force in middle of plate Supported by 4 outer bolt holes. Factor of safety 5 times greater than Max allowable MSA weight.

4. Strain

5. Equivalent Stress

6. Max Principal Stress

7. Pin Feasibility Other than plastic base, pinned connections are only other area of concern for structural feasibility. ¼ inch clevis pins have been selected to make the pinned hinged connections between the links. Hand calculations were performed on pin in shear and bearing stress on link for 5lb force and passed for yielding of the parts. ANSYS workbench used to verify hand calculations as well as test higher loadings to ensure factor of safety.

8. 25 lb force applied to the top of the link. This is a loading factor five times greater than max MSA weight.

9. Pin deformation

10. Pin Equivalent Stress

11. Pin Max Principal Stress

12. Equivalent Stress on Link Hole