A 10 mm diameter Brinell hardness indenter produced an indentation 1.62 mm in diameter (Di) in...

Consider the 1040 carbon steel listed in Table 6.1. (a) A 20-mm-diameter bar of this alloy...

Consider the 1040 carbon steel listed in Table 6.1. (a) A 20-mm-diameter bar of this alloy is used as a structural member in an engineering design. The unstressed length of the bar is precisely 1 m. The structural load on the bar is 1 .2 x 10^5 N in tension. What will be the length of the bar under this structural load? (b) A design engineer is considering a structural change that will increase the tensile load on this member....

A cylindrical specimen of stainless steel having diameter of 12.8 mm and a guage length of...

A cylindrical specimen of stainless steel having diameter of 12.8 mm and a guage length of 50.88 mm(2.000in.) is pulled in tension. Use the load-elongation characterisitcs shown in the following table. Plot the data as engineering stress vs. engineering strain. Then compute the modulus of elasticity, yeild strength at a strain offset of 0.002, determine the tensile strength of this alloy, approximate ductility in percent elongation and the modulus of resilience. N mm 0 50.8 12700 50.825 25400 50.851 38100...

A normal mild steel specimen having 50 mm 2 cross section area and 10 cm long...

A normal mild steel specimen having 50 mm 2 cross section area and 10 cm long gauge length was tested. 1. Draw the stress- strain diagram 2. calculate the final length of the bar compare when the specimen unloaded from 400 MPa? 3. calculate the elastic and plastic deformation when the specimen unloaded from 400 MPa Proportionality limit Ultimate Load Failure Load Stress (MPa) 320////// 500 /////////400 Strain 0.0018 //// 0.06///////// 0.12

A 250 mm diameter of cast iron pipe flows 39.3 L/s of SAE 10 oil along...

A 250 mm diameter of cast iron pipe flows 39.3 L/s of SAE 10 oil along 500 m length. Given: dynamic viscosity, μ and density, ρ of SAE 10 oil are 1.04 x 10-1 Ns/m2 and 917 kg/m3 respectively. By assuming the flow is laminar, determine energy head and pressure loss due to pipe friction using Hagen-Poiseuille equation and friction factor, f.

An iron wire of 10 m long with a cross section area of 2.0 mm2 is...

An iron wire of 10 m long with a cross section area of 2.0 mm2 is used to support a 400-kg load.  Its elongation is (in mm)    (a) 1.5   (b) 9.8    ( c) 15.8  (d) 37.9  ΔL/Lo =(F/A)/Y A wire 10 m long with a cross section area of 3 mm2 stretches by 12 mm when a 500-kg mass was suspended from it.  The Young’s modulus for this wire  is (in Pa)   (a) 1.5   (b) 9.8     ( c) 15.8     (d) 37.9                                        Y = (F/A)/(ΔL/Lo) When a pressure of 3 MPa is...

1. An aircraft weights 120,000 lbs., it has 35,000 lbs. of fuel added. What will be...

1. An aircraft weights 120,000 lbs., it has 35,000 lbs. of fuel added. What will be its takeoff weight? If there is 350 lbs. of excess weight what will be its new weight? Hint 1 kg = 2.21 lbs. Gravity = 9.81 N/m (up to 5 points) 2. Why is the fracture value less than the UTS value shown on a stress-strain graph? (up to 5 points) 3. Use the table below that gives the yield point for three materials....