4) Two forces are applied as
shown to the rod AB, which is welded to the 50-mm diameter cylinder
DE. Assuming that all stresses remain below the yield point of the
material, find the stress tensor at point H. Answer is below.
Homework Answers
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4) Two forces are applied as
shown to the rod AB, which is welded to the...
The rod shown below is composed of two pieces: the diameter of piece AC is 3...
The rod shown below is composed of two pieces: the diameter of piece AC is 3 in, and the diameter of piece CD is 2 in. Both pieces are made of brass: Young's modulus is E = 15x10 psi and the shear modulus is G = 5.6x10 psi. The applied external axial forces are Pc = 50 kips and Po = 30 kips. The applied extemal torques are Tg = 25 kip in and To= 10 kip in. (Hint: for...
Problem #6 (30 points): Two solid cylindrical rods are joined at point B Rod AB is...
Problem #6 (30 points): Two solid cylindrical rods are joined at point B Rod AB is made of steel (E, 30 x 10s psi), with a length of 40 in and a diameter of 2 in. Rod BC is made of alumin loaded with axial forces at two points, as shown below. The total elongation of ABC is limited to 0.05 in, and the normal stresses in AB and BC should not exceed 35 ksi and 10 ksi, respectively. You...
The hydraulic cylinder AB partiaily controls rod EF's position. it is locKed in the position shown....
The hydraulic cylinder AB partiaily controls rod EF's position. it is locKed in the position shown. DE is 15mm thick & bolted at A to the rod with a gmm diameter bolt. DererMine a) Averoge shearing b) Bearing stre ss at A in DE Stress n bolt 75 mm 100mm 75 20 1 2KN 200mm C 45mm
1. The part shown consists of a bent rod with a solid circular cross section of...
1. The part shown consists of a bent rod with a solid circular cross section of diameter 20 mm. Consider the cross- section on a cut at both a-a, and b-b. 400 mm A] For each cut, label the shear force, bending moments, and torsion moments. Then determine the critical point with the highest normal stress at each cross- section. No stress calculations are required. /100 mm 1 BJ Determine the point of highest normal stress for the bent rod...
The mechanism below is in equilibrium under forces P1 of 5 kN and P2 applied at...
The mechanism below is in equilibrium under forces P1 of 5 kN
and P2 applied at A and D respectively.
Determine:
1. The diameter of the connecting rod CD given the normal stress
is limited to 140 MPa
2. The shear stress in the 8 mm diameter pin at B.
P1 150 mm 200 mm 10 mm 8 mm 60° 6 mm
The shaft shown in Figure is supported by bearings cach end, which have bores of 20.0...
The shaft shown in Figure is supported by bearings cach end, which have bores of 20.0 mm. Design the shaft to carry the given load if it is steady and the shaft is stationary. Make the dimension a as large as possible while keeping the stress safe. Determine the required diameter in the middle portion. The maximum fillet permissible is 2.0 mm. Use SAE 1137 cold-drawn steel. Use a design factor of 3 The material properties are as follows:- Q-1...
A cylindrical pressure vessel of 250 mm mean diameter and 6 mm wall thickness is fabricated...
A cylindrical pressure vessel of 250 mm mean diameter and 6 mm
wall thickness is fabricated from a 1.2 m length of spirally welded
pipe AB as shown. Tank gauge pressure is 4 MPa and centric axial
forces P and P1 of 240 kN act through rigid end plates. Determine:
(a) Net longitudinal and hoop stresses. (b) Normal stress acting
perpendicular to weld and shear stress parallel to weld (show
sketch of Mohr’s circle). (c) Determine the Factor of Safety...
A rigid beam BCD is supported on a roller support at C (4m from B) and has two bars AB and DE attached at each end
A rigid beam BCD is supported on a roller support at C (4m from B) and has two bars AB and DE attached at each end. The bars can carry either tension or compressive forces. The rigid beam carries a UDL of I kN/m across BC and a point load of P at D as shown in the figure above. The length of the two bars is 3000 mm. The elastic modulus of both bars is 200 GPa and the...
A concentrated load of P = 62 kips is applied to beam AB, as shown in...
A concentrated load of P = 62 kips is applied to beam AB, as shown in the figure. Rod (1) has a diameter of 1.7 in., and its yield strength is 31 ksi. Pin A is supported in a double shear connection, and the ultimate shear strength of pin A is 77 ksi. Assume a=4.6 ft, b=7.1 ft, C=8.3 ft, d=11 in. (a) Determine the normal stress in rod (1). (b) Determine the factor of safety with respect to the...
with steps please Question4 A thick-walled cylinder of mild steel with internal diameter of 80 mm and external diame...
with steps please
Question4 A thick-walled cylinder of mild steel with internal diameter of 80 mm and external diameter of 120 mm is loaded by internal pressure. The yield strength of the material is 300 MPa. a. Find the internal pressure required to initiate yielding in the cylinder using Lame's formulation. Sketch the stress distribution giving significant stress values. b. Find the plastic limit pressure at which the cylinder is fully plastic using non-linear formulation. Sketch the stress distribution giving...
The rod shown below is composed of two pieces: the diameter of piece AC is 3 in, and the diameter of piece CD is 2 in. Both pieces are made of brass: Young's modulus is E = 15x10 psi and the shear modulus is G = 5.6x10 psi. The applied external axial forces are Pc = 50 kips and Po = 30 kips. The applied extemal torques are Tg = 25 kip in and To= 10 kip in. (Hint: for...
Problem #6 (30 points): Two solid cylindrical rods are joined at point B Rod AB is made of steel (E, 30 x 10s psi), with a length of 40 in and a diameter of 2 in. Rod BC is made of alumin loaded with axial forces at two points, as shown below. The total elongation of ABC is limited to 0.05 in, and the normal stresses in AB and BC should not exceed 35 ksi and 10 ksi, respectively. You...
The hydraulic cylinder AB partiaily controls rod EF's position. it is locKed in the position shown. DE is 15mm thick & bolted at A to the rod with a gmm diameter bolt. DererMine a) Averoge shearing b) Bearing stre ss at A in DE Stress n bolt 75 mm 100mm 75 20 1 2KN 200mm C 45mm
1. The part shown consists of a bent rod with a solid circular cross section of diameter 20 mm. Consider the cross- section on a cut at both a-a, and b-b. 400 mm A] For each cut, label the shear force, bending moments, and torsion moments. Then determine the critical point with the highest normal stress at each cross- section. No stress calculations are required. /100 mm 1 BJ Determine the point of highest normal stress for the bent rod...
The mechanism below is in equilibrium under forces P1 of 5 kN
and P2 applied at A and D respectively.
Determine:
1. The diameter of the connecting rod CD given the normal stress
is limited to 140 MPa
2. The shear stress in the 8 mm diameter pin at B.
P1 150 mm 200 mm 10 mm 8 mm 60° 6 mm
The shaft shown in Figure is supported by bearings cach end, which have bores of 20.0 mm. Design the shaft to carry the given load if it is steady and the shaft is stationary. Make the dimension a as large as possible while keeping the stress safe. Determine the required diameter in the middle portion. The maximum fillet permissible is 2.0 mm. Use SAE 1137 cold-drawn steel. Use a design factor of 3 The material properties are as follows:- Q-1...
A cylindrical pressure vessel of 250 mm mean diameter and 6 mm
wall thickness is fabricated from a 1.2 m length of spirally welded
pipe AB as shown. Tank gauge pressure is 4 MPa and centric axial
forces P and P1 of 240 kN act through rigid end plates. Determine:
(a) Net longitudinal and hoop stresses. (b) Normal stress acting
perpendicular to weld and shear stress parallel to weld (show
sketch of Mohr’s circle). (c) Determine the Factor of Safety...
A concentrated load of P = 62 kips is applied to beam AB, as shown in the figure. Rod (1) has a diameter of 1.7 in., and its yield strength is 31 ksi. Pin A is supported in a double shear connection, and the ultimate shear strength of pin A is 77 ksi. Assume a=4.6 ft, b=7.1 ft, C=8.3 ft, d=11 in. (a) Determine the normal stress in rod (1). (b) Determine the factor of safety with respect to the...
with steps please
Question4 A thick-walled cylinder of mild steel with internal diameter of 80 mm and external diameter of 120 mm is loaded by internal pressure. The yield strength of the material is 300 MPa. a. Find the internal pressure required to initiate yielding in the cylinder using Lame's formulation. Sketch the stress distribution giving significant stress values. b. Find the plastic limit pressure at which the cylinder is fully plastic using non-linear formulation. Sketch the stress distribution giving...
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