A load of P= 3.0 kips is applied to the connection. The failure stress of the pin material is 25 ksi. Design the diameter of the pin to the nearest 1/16-inch assuming a factor of safety of 2. D
Q: Problem 2: The short cylindrical block of 2014-T6 aluminum, having an original diameter of 0.5 in.…
A: Given:d=0.5 inL=1.5 inP=800 lbE=10.6*106 Psiμ=0.35
Q: Both ends of the fixed (fixed) rod were mounted at 0 °C. Calculate the minimum diameter of the bar…
A:
Q: Determine the minimum diameter value [cm] for a pin operating under double shear stress and having a…
A: The factor of safety for the shearing is, f=5 The shear force acting on the pin is, P=85 kN The…
Q: The AB bond must be made of a steel for which the normal stress limit is 450 MPa. Determine the…
A:
Q: Q1/ Find the required thickness in the machine member shown below if oy = 625 N/mm", %3D de = 250…
A:
Q: 15 in 05 im 24 in The machine link shown is subjected to an axial load P, as shown. The link is…
A:
Q: A load P is supported by two springs arranged IN SERIES. The upper spring has 20 turns of…
A:
Q: PROBLEM: 3 A helical spring made of C50 steel has an outside diameter of 91 mm and a wire…
A:
Q: A steel [E = 207 GPa] tension member is being designed for an automobile. It must withstand a load…
A: Given data: E=207 GPaF=3050 Nδ=0.12 mmL=600 mmσy=440 MPaFOS=6.7 Need to determine the minimum…
Q: 13. Buckling of Columns EXAMPLE 3 An aluminum column of length L and rectangular cross-section has a…
A:
Q: Q3/ Thickness of plate is 5mm and its yield stress is 630 MPa with endurance limit equals 225 MPa,…
A:
Q: A force F, = 450lb is applied to the bracket shown. Shaft AB is made of ASTM Gray cast iron. Specify…
A: Consider M as the bending moment of the shaft and T as the torque on applied on the shaft. Write the…
Q: A cylindrical pressure vessel has an internal diameter of 1600 mm and is subject to an internal…
A: Given, d=1600 mm p=30 bar = 3 MPa = 3 N/mm2 t= 15 mm σu= 600 N/mm2 ηc = 50% ηL = 80%
Q: The solid steel beam has a square cross sectional profile and supports a load of 65.5 kN. The steel…
A:
Q: Rigid bar ACB is supported by an elastic circular strut DC having an outer diameter of 16 in. and…
A:
Q: Q31 A 75 mm diameter compound bar is constructed by shrinking a circular brass bush onto the outside…
A:
Q: A steel plate subjected to a force of 3 kN and fixed to a vertical channel by means of four…
A: Given data: Force F=3 kN Yield Strength Syt=380Nmm2 Factor of safety FOS=2 Diameter of shank d=?
Q: Problem 3) Determine the thickness of a 120 mm wide uniform plate for safe continuous operation if…
A:
Q: The plate shown is made of an AISI 1050 CD steel and is subjected to M, = ±12,000 Ib.in. If a factor…
A: From the given figure, z-axis is the neutral axis. Calculate the maximum value of the distance from…
Q: The structure below is made from stock (same stock for A-B-C and B-D) that is 5 mm thick (into the…
A:
Q: A circular-cross-section bar with a diameter of 50 mm and a length of 1.25 m is axially loaded. The…
A: For the above problem we calculate the transitional slenderness ratio whose value decides which…
Q: ermine the parameters for each question below, assume E = 200 GPa. i) Critical load for the square…
A: Given:Modulus of elasticity, E=200 GPa
Q: Determine the maximum safe load that can be applied to the bar shown in Figure 3(b) if a safety…
A:
Q: Question 1: [Strain Energy Due to Direct Stresses] A steel bar of a length, diameter and Young's…
A:
Q: Determine the maximum safe load P that can be applied to the machine part that is 90-mm wide and…
A: GivenW=90mmt=12mmσallow=100Mpa
Q: Figure Q5 (b) shows the tube is made of copper and has an outer diameter of 45 mm and a wall…
A:
Q: Question 1: [Strain Energy Due to Direct Stresses] A steel bar of a length, diameter and Young's…
A:
Q: 340 kN Problem 1 -70mm The cast iron block consists of two pieces with 70 mm square cross-section.…
A: Given:(σb)fail in cast iron=550MPaτfail in steel=450MPaFactor of safety for castiron=2.2Factor of…
Q: The outside diameter of a thin-walled steel tube is 100mm, and the material thickness is Smm. The…
A:
Q: QN 47 A link of S-shape made of a round steel bar is shown in Figure. It is made of plain carbon…
A: Load = 1 KN FOS = 4.5 Syt = 380 N/mm2
Q: A steel connecting rodis subjected to a completely reversed axial load of 160 kN. Suggest the…
A:
Q: -The connection shown in the figure if the screw is type 98 and the two plates are A'SI 1040 CD…
A:
Q: A -0.5 m- 400 KN B -0.5 m- C 0.4 m D E F Figure 2 (not to scale) The assembly shown in Figure 2…
A: Answer: ◆ The normal stress in post AD and CF: 168 MPa. ◆ The normal stress in post BE: 43 MPa.
Q: Question 1: [Strain Energy Due to Direct Stresses] A steel bar of a length, diameter and Young’s…
A:
Q: 14. A steel tie rod on bridge must be made to withstand a pull of 4500 lbs. Find the diameter of the…
A: Given data as per question Pulling force =4500 lbsFactor of safty =4Design stress =15000…
Q: 16 mm PROBLEM 10.9 Determine the critical load of a pin-ended steel tube that is 5 m long and has a…
A:
Q: Link OB is 20 mm wide and 10 mm thick and is made from low-carbon steel with Sy 200 MPa. The pin…
A:
Q: 2) The pillow block shown in Figure 2 is attached to the fixed plate by using two M20x1.5 ISO class…
A: Introduction: A factor of safety factor is an engineering phrase that describes how much stronger a…
Q: Question 1: [Strain Energy Due to Direct Stresses] A steel bar of a length, diameter and Young's…
A:
Q: Select the lightest W shape that will act as a column 8 m long with hinged ends and support an axial…
A:
Q: Column is one of a structural element in a building. The column is made of a steel pipe with total…
A: Given data as per question Smaller diameter =36 mm Larger diameter 40 mm Modulus of elasticity =210…
Q: To calculate the maximum axial loads for a column based on yielding and buckling about both axes,…
A: Given that, Calculating maximum and minimum moment of inertia of column,
Q: The bell-crank mechanism shown below is supported by a single-shear pin connection at B and a roller…
A: Find the maximum load
Q: 4. The bar below is subjected to an axial load of P. The safety factor against compressive failure…
A:
Q: Why is is that when I compute for the diameter, the answer is 7.9706? How was 13.22 obtained?
A:
Q: The structural connection shown in Fig. 2 is subjected to an eccentric force P of 15 kN with an…
A: given; P=15KNL=500mma=150mmb=100mmSyt=400N/mm2factor of safety (FOS)=2size of bolt (d)=?
Q: A rod of diameter 30 mm is to sustain an axial compressive load of 20 kN and twisting moment of 1.5…
A:
Q: 6) double shear. The shear stress at failure for the pin material is 16.0 ksi. You are given a…
A: given : shear stress at failure=16 ksi factor of shaftey=2.5
Q: 3. A square aluminum bar is to support a load of 40 kN on a length of 3 m. Assuming pinned ends,…
A:
Trending now
This is a popular solution!
Step by step
Solved in 4 steps
- A cantilever aluminum column has a square tube cross section with an outer dimension of 150 mm. The column has a length L = 4 m and is designed to support an axial load of 45 kN. Find the minimum required thickness of the section if the factor of safety n = 2.5 with respect to buckling. Assume that the modulus of elasticity is 72 GPa and the proportional limit is 480 MPa.Repeat the previous problem using ? = 50° and stresses on the rotated element: sy1= 70 MPa, ??y1=-82 MPa, and tx1y1=-35 MPa.What is the maximum possible value of the clamping Force C in the jaws of the pliers shown in the figure if the ultimate shear stress in the 5-mm diameter pin is 340 MPa? What is the maximum permissible value of the applied load P to maintain a factor of safety of 3.0 with respect to failure of the pin?
- For the assembly shown, determine the displacement of points B and D as the load of 50KN is applied at D. Rod BC is steel with length = 2m, A = 600mm2 E =200GPa.Bar ABD is rigid. What is the stress in the rod CB? What is the shear stress of the bolt of the pin at A if its diameter is 20mm? Please provide complete FBD.Please answer this NEATLY, COMPLETELY, and CORRECTLY for an UPVOTE. A 2 kip/ft distributed load is applied on member AB, which is supported by a pin at A and bar BC. The connections at points A and B are shown in detail. All pins have a diameter of 0.5 in while all members have cross-sectional dimensions of 1.5 x 1 in. Determine the following:a. maximum normal stress in member BC (ksi)b. normal and shear stress in a horizontal section across member BC apart from the pin (ksi)c. shear stress in pins A and B (ksi)d. maximum bearing stress on member AB (ksi)A suspension system of a mountain bike is held by a pin at point C and supported by a shock absorber BD. If the bike is designed to withstand a load P = 1500N with safety factor FS = 2, ultimate shear stress τu = 150 MPa and ultimate tensile stress σu = 360 Mpa, determine pin B and pin C diameters
- A load P is supported by two concentric steel springs.Given:Inner Spring:30 turns of 20-mm ø wireMean ø = 150 mmOuter Spring:20 turns of 30-mm ø wireMean ø = 200 mmFind the maximum load that will not exceed a shearing stress of 140 MPa in eitherspring. G = 83 GPa.the right-angle bar is supported by a pin at B and a roller at C. what is the maximum safe value of the load P that can be applied if the shear stress in the pin is limited to 20000 psi? the 3/4 in diameter pin is in double shearThe tube is made of copper and has an outer diameter of 35 mm and a wall thickness of 7 mm. Determine the eccentric load P that it can support without failure.The tube is pin supported at its ends. Ecu = 120 GPa, sY = 750 MPa.
- In the system shown, when a compression load P is applied to the rod, what is the bearing stress value in the bearings through which the d diameter pin passes? P = 10kN, pim çapı: d=20mm, bir yatağın kalınlığı: t = 10mmDetermine the minimum diameter d to the nearest 18 in. of the rod to safely support the load. The rod is made of a material having an allowable normal stress of sallow = 20 ksi and an allowable shear stress of tallow = 10 ksi.Topic: MACHINE DESIGN A submersible cylinder used in research has a cylindrical pressure hull of outside diameter 3.0 m and a wall thickness of 150 mm. It is constructed of an aluminum alloy, having a yield point of 450 MPa. Determine the tangential stress, in terms of MPa, in the cylindrical portion of the pressure hull whenthe vehicle is at its operating depth of 5500 m below the surface of the sea. Consider sea water to have a specific weight of 104 N/m3