What is fatigue strength (i.e. S in the Figure above) in [MPa] at the cycles calculated in (a) for this aluminium alloy. Determine the total number of cycles during the time .

Posted in Math/Physic/Economic/Statistic Problems By EzekielPosted on November 23, 2021Tagged Aluminum alloy, assignmenthelp, collegeessays, Fatigue strength, Load cycling

A 2014-T6 aluminum rod (3.5 cm in diameter) is subjected to a repeated tension-compression load cycling along its axis at a frequency of 100 Hz. If the part must last approximately 278 hours before failure, calculate the maximum allowable load amplitude (in N).

400 300 200 tr, 0 103 — – 1045 steel — — — —40 — 80 70 60 50 a 10 2014-76 aluminum alloy I Red bens I 104 105 104 lot 10° Cycles to failure. N 109

(a) Determine the total number of cycles during the time .

(b) What is fatigue strength (i.e. S in the Figure above) in [MPa] at the cycles calculated in (a) for this aluminum alloy .

What is fatigue strength (i.e. S in the Figure above) in [MPa] at the cycles calculated in (a) for this aluminium alloy. Determine the total number of cycles during the time .