An aluminum link is subjected to axial tension.The loading is limit

An aluminum link is subjected to axial tension.The loading is limited by the conditions of not yielding and not elongating excessively. The yield limit is satisfied if the stress remains below 50% of the 325 MPa yield stress. The elongation must remain below 0.1 mm. The link cross-section is rectangular, 3 mm by 7 mm. Assuming elastic behavior, determine the maximum allowable tensile force for two cases: (a) the length of the link is 35 mm and (b) the length of the link is 55 mm. Solution Area of the cross section = 7*3*10^-6 = 21*10^-6 m^2 Maximum allowable stress = 325 Mpa Allowable tensile load (T) = Stress * Area = 325*10^6 * 21*10^-6 = 6825 N a) Young's modulous of alluminium is 69 Gpa So, strain = 0.1/35 = 2.85 *10^-3 Stress = young's modulous * strain = 69*10^9 * 2.85*10^-3 = 197.14*10^6 = 197.14 MPa Hence, stress is less than 325 Mpa, so the tensile load is limited by the maximum elongation condtion. Maximum allowed force = Stress * area = 197.14*10^6 * 21*10^-6 = 4139.9 N b) Strain = (0.1/55) = 1.818 *10^-3 Stress = young's modulous * strain = 69*10^9 * 1.818*10^-3 = 197.14*10^6 = 125.44 MPa Again stress is less than 325 Mpa, so the tensile load is limited by the maximum elongation condtion. Maximum allowed force = Stress * area = 125.44*10^6 * 21*10^-6 = 2634.28 N I hope you got this :) If any doubt then please comment.