WELD F 2. t=10 mm 100 1 500 D=30 mm D=20 mm 2 Weld seam cross section The piece F=1000 N, S235 a) What is the safety coefficient in the static state? b) What is the safety factor in the fully variable state?
please answer all thank you Homework - State Loading Advanced (Part 2) A solid round 20 mm diameter hur is based as shown below, where the lead iP XOAN, the downward tr adise.SSAN, the lig h the is M-20 Nm, and the true lead is T-30 Nm. This results in certain stresses in the bar the base al Points located at the top of the har d ew from (located ISO w from 4-y il Decated 270cw from located in...
For the 1.5" shaft shown below: 10 in 2 B 1 200 lbf 10 in 1000 lbf 500 lbf 100 lbf 1. Draw the FBD with all corresponding forces (10 points) 2. Draw the shear diagram with all corresponding values (20 points) 3. Draw the moment diagram with all corresponding values (20 points) 4. Find the location with the highest stress, what is the stress at this location? (20 points) 5. Use Mohr's circle or von Misses criteria to find...
# 11 r=9mm r 6 mm d 10 kN 100 kN 40 mm+40 mm-+-40 mm-. T- 500 N-m Determine the most critical section by using Von Mieses criteria Dimensions of the various diameters are d-30 mm, D-45 mm and d2-40 mm. All loads are constant
please can you solve it as quick as possible. of square cross section is built up by gluing together three strips, each 20 mm x 60 mm in cross section (see figure). The beam has a A l 500 mm. total weight of 5 N and is simply supported with span length L 20 mm 20 mm 60 mm 20 mm 60 mm Considering the weight of the beam (q) calculate the maximum permissible CCW moment M that may be...
Link OB is 20 mm wide and 10 mm thick and is made from low-carbon steel with Sy= 200 MPa. The pin joints are constructed with sufficient size and fit to provide good resistance to out-of-plane bending. Determine the factor of safety for out-of-plane buckling. 400 mm 800 mm where F=1250 N The factor of safety for out-of-plane buckling is 3.54.
solve this question by writing a code in MATLAB 3. Abending member with a rectangular cross section is made of ABS plastic and has dimensions, as defined in Fig. 8.13(a), of b = 28 mm and t = 10 mm. For a safety factor against brittle fracture of 3.2, determine the largest through-thickness edge crack length, a, that can be allowed if: a. M = 15 N·m. b. M = 4.0 N-m. 4. What are the safety factors against fully...
5. (20 pts) A notched circular shaft shown is subjected to fully reversed bending. D-12.7mm, d-10.16 mm, and r-0.5mm. The steel material has the following mechanical and fatigue properties: yield strength (0o)-1000 MPa, ultimate strength (o ) 1200 MPa, the fatigue strength coefficient (σ) 1600 MPa, the fatigue strength exponent (b) 0.1, and the fatigue limit (oe)-400 MPa. a) (10 pts) Determine the fatigue (S-N) curve for the given notched circular shaft under fully reversed bending (computer generated graph is...
What stresses would you need to calculate in order to develop the 2D state of stress for point B on the cross section of the pipe assembly 400 mm al 200 mm 1500 N 1000 N 20 mm Section a-a a. Normal stress due to normal force, normal stress due to bending moment b. Shear stress due to shear force, normal stress due to normal force, normal stress due to bending moment due to normal force, normal stress due to...
A notched circular shaft shown is subjected to fully reversed bending. D=12.7mm, d=10.16 mm, and r=0.5mm. The steel material has the following mechanical and fatigue properties: yield strength (σ0)=1000 MPa, ultimate strength (σu)=1200 MPa, the fatigue strength coefficient (σf’)=1600 MPa, the fatigue strength exponent (b)=-0.1, and the fatigue limit (σe)=400 MPa. 5. (20 pts) A notched circular shaft shown is subjected to fully reversed bending. D-12.7mm, d-10.16 mm, and r-0.5mm. The steel material has the following mechanical and fatigue properties:...