Related MCQs

• A uniform cylinder of length L is compressed to half of its original length. Calculate true strain and engineering strain for the cylinder.
• A tensile specimen of 6 mm diameter and gauge length 25 mm reached a maximum load of 45 kN and fractured at 35 kN. The maximum diameter at fracture is 5mm. Determine the true stress at the fracture point.
• A tensile specimen of 6 mm diameter and gauge length 25 mm reached a maximum load of 45 kN and fractured at 35 kN. The maximum diameter at fracture is 5mm. Determine the engineering stress at maximum load (Ultimate tensile strength).
• What is the relationship between engineering stress and true stress?<br>Given that; s = engineering stress, = true stress, e = engineering strain, = true strain.
• For perfectly plastic material, Poisson s ratio is equal to ________
• The advantage of using true strain is that the total true strain is equal to the sum of the incremental strains.
• A uniform cylinder of length L is elongated to twice of its original length. Calculate true strain and engineering strain for the cylinder in percentage?
• The relationship between the true strain and engineering strain is given as _____<br>Where e=conventional strain, = Engineering strain
• The initial length of sample is L_o and instantaneous length of the sample is L. The true strain of the material will be equal to _________
• The engineering stress-strain curve does not give an accurate indication of the deformation characteristic of the material because it s calculation is based on the original dimension of the specimen. These dimensions continuously change during the test.