The A-36 steel bolt is required to absorb the energy of a 2 kg mass that...
The assembly consists of an A-36 steel bolt and a C83400 red brass tube. The nut is drawn up snug against the tube so that L-75 mm. Determine the maximum additiona amount of advance (in mm) of the nut on the bolt so that none of the material will yield. The bolt has a diameter of 7 mm and the tube has a cross-sectional area of 100 mm2 Brass tube: EBrass 101 GPa 250 MPa Esteel -200 GPa A-36 Bolt
QA4 A brass sleeve S is fitted over a steel bolt B, Fig QA4, and the nut is tightened until it is just snug. The bolt has a diameter de 25 mm and the sleeve has inside and outside diameters di 26 mm and dz 36 mm, respectively. (a) Calculate the temperature rise AT that is required to produce a compressive stress of [14 marks) 25 MN/m2 in the sleeve. (b) Find the overall deflection if the overall length of...
If we wish to achieve a stress of 500 MPa in the M10 steel bolt calculate the force, Fi, and the strain of the bolt. The modulus of elasticity is 207 GPa and the tensile stress area is 58 mm2. Enter the strain in Table 1. (2 Marks) Calculate the required torque, T, using T = 0.2Fd where d is the bolt diameter (10 mm) and F is the force in the bolt due to the stress. (2 Marks) calculate...
The steel bolt has a diameter of 8 mm and fits through an aluminum sleeve as shown. The sleeve has an inner diameter of 10 mm and an outer diameter of 12 mm The nut at A is adjusted so that it just presses up against the sleeve. ▼ Part A If the assembly is originally at a temperature of T1 25。C and then is heated to a temperature of Ta = 100。C determ ne the average normal stress in...
Props. 4-0 //00 4-89. The steel bar has the dimensions shown. Determine the maximum axial force P that can be applied so as not to exceed an allowable tensile stress of oallow= 150 MPa 20 mm 60 mm 30 mm P< r=15 mm 24 mm Prob. 4-89 4-90. The A-36 steel nlate has
Required information The 4-mm-diameter cable BC is made of a steel with E= 200 GPa. Knowing that the maximum stress in the cable must not exceed 200 MPa and that the elongation of the cable must not exceed 7 mm. Ifa - 3 m and b 4 m, find the allowable load P that can be applied as shown
131 The concrete beam is reinforced with three 20-mm- diameter steel rods. Assume that the concrete cannot support tensile stress. If the allowable compressive stress for concrete is (allown2.5 MPa and the allowable tensile stress for steel is (?allow)st-220 MPa, determine the required dimension d so that both the concrete and steel achieve their allowable stress simultaneously. This condition is said to be 'balanced'. Also, compute the corresponding maximum allowable internal moment M that can be applied to the beam....
Question 3 For the simply supported steel beam with cross section and loading shown (see Figure 3a), knowing that uniformly distributed load w=60 kN/m, Young modulus E = 200 GPa, and yield stress Cyield=200 MPa (in both tension and compression). ул 15 mm w=60 kN/m ... 1 B A 15 mm + 300 mm IC - i 2.5m 1 1 15 mm 7.5m 1 150 mm Figure 3a (a) Check if: the beam is safe with respect to yielding (using...
Question 2 The pressure gage in an air cylinder reads 1,680 kPa. The cylinder is constructed of a 12-mm thick rolled-steel plate with an internal diameter of 700 mm. The tangential (hoop) stress (MPa) inside the tank is most nearly: O a) 25 MPa ob) 50 MPa O c) 77 MPa od) 100 MPa In the plate shown, it is required that the stress concentration of a hole does not exceed that at the fillet. The hole diameter is: mm...
I Review Part A Rods AC and BC are used to suspend the 320 kg mass. Figure 1) each rod is made of a matorial for which the average normal stress can not exceed 150 MPa, determine the minimum required diameter of each rod to the nearest mm. Express your answer as an int︸ and include the appropriate units. d- Value Units Figure C1 of 1 Submit Previous Answers Request Answer Incorrect: Try Again Provide Feedback Next >