80mm F 30mm 40mm 30mm F d=15mm The steel plate shown is connected to the bracket...
A rigid beam AFBC in Fig.3 is supported by a hinged joint at A and connected to a vertical post BD by a hinged connection at B. Rigid beam AFBC and vertical post cross-sectional dimension of 10mmx250mm and 15mmx200mm, respectively. Two concentrated loads Pi and P2 act on the rigid beam at point F and C, respectively. Details at support A and connection B are also shown in the figure. Compute (a) normal stress in vertical post BD (state whether...
i need clear and right solution pleaee. pleaes A steel plate of (0.5 in thickness) shown in the figure was fixed by four bolts of (0.5*13-UNC grade 4) to the vertical steel column of (0.6 in thickness) as shown in figure below. An inclined eccentric force F of 10 kips was subjected to the plate at point A. Calculate: (a) The maximum stress in the rivets. (b) Check the safety factor if the plate and wall have a tensile strength...
The tension member shown in Figure 1 is subjected to a tensile force T. The member has an L89x89x7.9 cross-section with 350W steel. The member is connected to a gusset plate through four A325 bolts having 3/4"(19 mm) diameter as shown. The threading can be assumed to intercept the plane of shear and the connection is short. The dimensions taken are a=30mm, b=60mm, and c=40mm. (a) Determine the tensile resistance of the member based on the potential failure trajectories 1-1...
follow australian codes (a) The rigid bolted connection shown in Figure 4 is used to transmit a total vertical load of 350 kN applied as shown. Two bracket plates are connected to the flanges of the I section using the bolt groups (refer figure 4) and hence, the bolts are loaded in- plane. Determine if the bolted connection shown in Figure 4 can safely support the applied load (use cl. 9.4.1 AS4100 1998). The bolts are M20 of 8.8S grade...
The assembly shown in the figure below consists of solid AB, BC and CD rods connected together, the solid rod AB has 10 mm diameter and 100 mm length, the solid rod BC has 20 mm diameter a 120 mm length, while the solid rod CD has 10 mm diameter and 100 mm length. Allh rods are made of steel with E-200 GPa. the assembly is subjected to 100 kN tensile force (CLO5) The average normal stress between A and...
The rotating solid steel shaft is simply supported by bearings at points B and C and is driven by a disc (not shown) which meshes with the disc at D as shown. The force F from the drive disc acts vertically as shown in figure where F = 2.2 kN. The shaft transmits a torque to point A of TA=380 Nm. The shaft is machined from steel. a. Using a factor of safety of 3, determine the shaft diameter at various...
Complefe the following: problem Parameters/notes Change the load: Dead -10 psf. Live - 30 psf hint: first trace the load W to the ends of the rods, then draw a FBD of the beam and rod and solve for reactions at C and B. Use this info to find the force in the rod. Your answer should be the diameter of a round rod rounded to 1/8" increment). Change the load to 400,000 Ibs See Appendix table A3 for Steel...
The gears attached to the fixed-end steel shaft are subjected to the torques shown in the figure. If the shear modulus of elasticity is 150 GPa a determine the following: nd the shaft has a diameter of 14 mm, a. Sketch the torque diagram along the steel shaft. b. Determine the maximum shear stress at Tmax and specify location. c. Sketch the shear stress distribution along the radial line at location specified in (b). d. Determine the displacement of the...
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...
We were unable to transcribe this imager Engineenng eratures in the rim by around 313 K compared with earlier piston designs. The piston's steel skirt is much more rigid than the aluminum skirt in smaller deformation and allowing for designs with tighter clearances tin harmful exhaust emissions) from the piston. This design has been shown to reduce piston termn results in a more stable piston with less oil consumption (thus further r which are machined prior to welding. The process...