4. A control pedal for actuating a spring mechanism is shown. Calculate the shear stress in...
scenes M1.1 Normal, shear, and bearing stress For the pin connection shown, Pin diameter = 16 mm determine the normal stress acting on the gross area, the normal stress acting on the net plate area, the shear stress in the pin, and the bearing stress in the 45 kN steel plate at the pin. (Stress units MPa) Pin 70 mm Gusset Steel plate Ogross 10 mm thickness Onet Column T pin Ob
scene 1.1 Normal, shear, and bearing stress For the pin connection shown, determine the normal stress acting on the gross area, the normal stress acting on the net area, the shear stress in the pin, and the bearing stress in the steel plate at the pin. (Stress units = MPa) Pin diameter = 12 mm Gusset plate 25 kN Pin 55 mm Steel plate 6 mm thickness Column Try one 1st 2nd 3 attempt enter t 2001-2017
Note: help me solve problem 1.33 only using Fig
P1.33
Answer:
Shear stress A : 3670psi
Shear stress B : 4320psi
Thank you
22 CHAPTER 1 Stress 45° 10 m 200 lb 6 ft l 12 in. 2 ft o A 4 ft 3 ft 36 in. FIG. P1.33 FIG. P1.34 FIG. P1.35 1.33 The bracket is supported by 1/2-in. diameter pins at A and B (the pin at B fits in the 45° slot in the bracket)....
Learning Goal: To calculate torsional deformation and shear stress due to an applied force in a door handle design. A locked door handle is composed of a solid circular shaft AB with a diameter fb = 105 mm and a flat plate BC with a force P = 76 N applied at point C as shown. Let c = 543 mm, d = 125 mm, and e = 145 mm. (Treat the handle as if it were a cantilever beam.)...
Learning Goal: To calculate torsional deformation and shear stress due to an applied force in a door handle design. A locked door handle is composed of a solid circular shaft AB with a diameter of b = 101 mm and a flat plate BC with a force P = 77 N applied at point C as shown. Let c = 473 mm, d = 126 mm, and e = 148 mm (Treat the handle as if it were a cantilever...
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
Learning Goal: To calculate torsional deformation and shear stress due to an applied force in a door handle design. A locked door handle is composed of a solid circular shaft AB with a diameter fb = 105 mm and a flat plate BC with a force P = 76 N applied at point C as shown. Let c = 543 mm, d = 125 mm, and e = 145 mm. (Treat the handle as if it were a cantilever beam.)...
Ignore shear force energy in any energy calculation
10mm . 20 mm A spring clamp is shown. The two curved ends just touch with no stress in the clamp. For a max allowable normal stress of 4 MPa in the clamp, determine the max clamping force. For this force what is the max opening width for the clamp. The clamp is made of stainless steel (18-8) 2. 210 mm 200 mm 220 mm
10mm . 20 mm A spring clamp...
A 3 m rigid bar AB is supported with a vertical translational spring at A and a pin at B The bar is subjected to a linearly varying distributed load with maximum intensity g Calculate the vertical deformation of the spring if the spring constant is 700 kN/m. (ans: 21.43 mm) 2. A steel cable with a nominal diameter of 25 mm is used in a construction yard to lift a bridge section weighing 38 kN. The cable has an...
(16 points) Difficulty (4/5)
A mechanical connection known as a clevis and pin is shown. The
dimensions of the assembly are given as:
a = 30 mm
b = 33 mm
c = 10 mm
d = 18 mm
t = 22 mm
W = 45 mm
L = 113 mm
In order to avoid failure in the materials used to create the
parts:
-The normal stress in the pin must be limited to 680 MPa.
-The shearing stress in...