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?
An aluminum rod is rigidly attached between a steel rod and a bronze rod as shown in the figure
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...
can anyone help me, how to get the stress of the steel rod ,aluminum rod and bronze rod
1) A circular brass bar AC of diameter 100 mm is rigidly connected to a circular steel bar CB of the same diameter as shown. The composite bar is rigidly held at its two ends A and B. A torque T is applied to the shaft at point C. Knowing that the allowable shear stresses in the brass and steel are 120 MPa and 250 MPa, respectively, determine the allowable torque Tallow. The shear moduli for brass and steel are...
500 mm 1) A circular brass bar AC of diameter 100 mm is rigidly connected to a circular steel bar CB of the same diameter as shown. The composite bar is rigidly held at its two ends A and B. A torque T is applied to the shaft at point C. Knowing that the allowable shear stresses in the brass and steel are 120 MPa and 250 MPa, respectively, determine the allowable torque Tallow. The shear moduli for brass and...
Problem 1: The Am1004-T61 magnesium tube is bonded to the A36 steel rod. If the allowable shear stress for the magnesium and steel are 45 MPa and 75 MPa respectively, determine the maximum torque that can be applied at A. Also determine the corresponding angle of twist. G-75GPa, Gmg=18GPa. shor sless mages
2.4-15 The aluminum and steel pipes shown in the figure are fastened to rigid supports at ends A and B and to a rigid plate Cat their junction. The aluminum pipe is twice as long as the steel pipe. Two equal and symmetrically placed loads P act on the plate at C (a) Obtain formulas for the axial stresses a, and o in the aluminum and steel pipes, respectively (b) Calculate the stresses for the following data: P 12 kips,...
The 2014-T6 aluminum rod AC is reinforced with the firmly bonded A992 steel tube BC. (Figure 1) When no load is applied to the assembly, the gap between end C and the rigid support is 0.5 mm. Part A Determine the support reaction at C when an axial force of P= 340 kN is applied. Part B Determine the support reaction at D when an axial force of P = 340 kN is applied.
Question #2 [12 marks] 15 mm The Figure shows a steel bar of rectangular cross section (10x40 mm) carries a tensile load P and is attached to a support by means of a round pin of diameter 15 mm. The allowable stresses for the bar in tension and the pin in shear are Gallow -120 MPa and Tallow 60 MPa, respectively. What is the maximum permissible value of 10 mm the load P? 40 mm Question #3 [16 marks] Cross...
The 2014-T6 aluminum rod AC is reinforced with the firmly bonded A992 steel tube BC. (Figure 1) When no load is applied to the assembly, the gap between end and the rigid support is 0.5 mm. Part A Determine the support reaction at C when an axial force of P = 515 kN is applied. Express your answer to three significant figures and include appropriate units. UA C ? Value Units Submit Request Answer Part B Figure 1 1 of...
I Solve any five of following questions (show all the necessary steps) and submit until August-01-2020 in PDF file format 1. Draw the shear and bending-moment diagrams for the beam and loading shown below and A B 400 mm 400 mm 250 mm 12 kN 8 KN If the shaft has a diameter of 6cm, Determine the A. Shear forces B. Moment of arms C. The absolute maximum Bending stress in the shaft. 2. Two solid cylindrical rods AB and...