axial loads are applied to the compound rod that is composed of aluminum segment rigidly connected between steel and bronze segment. What is the stress in each material given that P=10kN
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Axial loads are applied to the compound rod that is composed of an aluminium segment rigidly connected between steel and bronze segments. Working stresses are 120 MPa for steel, 68 MPa for aluminum, and 110 MPa for bronze. (A)What is the value of P in KN if the stress in aluminum governs? Use two decimal places.(B)What is the value of P in KN if the stress in steel governs?(C) What is the value of P in KN if the stress...
An aluminum rod is rigidly attached between a steel rod and a bronze rod as shown in the figure. Axial loads are applied at the positions indicated. Allowable axial and shear stresses are 250 MPa and 110 MPa in steel, 130 MPa and 75 MPa in aluminum, and 110 MPa and 65 MPa in bronze respectively. What is the maximum force P that can be applied to the assembly?
Axial loads are applied with rigid bearing plates to the solid cylindrical rods shown in the figure. The diameter of aluminum rod (1) is 2.00 in, the diameter of brass rod (2) is 1.5 in, and the diameter of steel rod (3) is 3.00 in. Draw the axial load diagram along the structure and determine the normal stress in each of the three rods. 3- k4lips 15k-1 20 kips Skip 2o kips
9) The aluminum rod AB and bronze rod BC are joined at the collar B and fixed connected at their ends. An axial load, P, is applied at point B. Neglect any effects of the collar at B itself. The cross-sectional area of each rod is A. Determine the reactions (with respect to the reaction vectors shown Given: PB-20 N (applied at point B) EAB 73 GPa (aluminum); EBc 103 GPa (bronze) AAB-250 mm2 . ABC-100 mm2 10m 2m Determine...
A solid aluminum [E = 76 GPa] rod (1) is connected to a solid bronze [E = 93 GPa] rod (2) at flange B, as shown. Aluminum rod (1) has an outside diameter of 31 mm and bronze rod (2) has an outside diameter of 15 mm. The norma stress in the aluminum rod must be limited to 128 MPa, and the normal stress in the bronze rod must be limited to 97 MPa. Assume L1 = 180 mm and...
can anyone help me, how to get the stress of the steel rod ,aluminum rod and bronze rod
9) The aluminum rod AB and bronze rod BC are joined at the collar B and fixed connected at their ends. An axial load, P, is applied at point B. Neglect any effects of the collar at B itself. The cross-sectional area of cach rod is A. Determine the reactions (with respect to the reaction vectors shown). Given: Pg = 20 N (applied at point B) EAB-73 GPa (aluminum); EBc 103 GPa (bronze) Cross-sectional areas: AAB = 250 mm: ABC-100...
Problèm GIVEN b 2) Three rod elements shown above are stress free when they are assembled together and attached to the rigid walls A and D. Element (1) is steel with E1 30 x 103ksi, cross - sectional area Ai - 2.0 in, length L1-80 in and coefficient of thermal expansion α1=7x10-6/0F; the corresponding values for the aluminum element (2) are: E2 10 x 103ksi, A2-3.6 in, L,- 60 in, a2 13 x 10-6/oF; the corresponding values for the bronze...
The composite bar is firmly fixed at both ends. The bar is stress-free at 60°F Compute the stress in each material after the 50-kip force 42 in is applied and the temperature is increased to 120°F. Use α-6.5 x 10-6/°F for steel and α-1 2.8 x 10-6/°F for aluminum. At what temperature will the aluminum and steel have stresses of equal magnitude after the 50-kip force is applied? Problem 4(25 Points) The rigid bar ABCD is supported by a pin...