6 MECHANICAL ENGINEERING PRINCIPLESNow try the following exercise
Exercise 2 Further problems on strain- A wire of length 4.5 m has a percentage
strain of 0.050% when loaded with a ten-
sile force. Determine the extension in the
wire. [2.25 mm] - A metal bar 2.5 m long extends by
0.05 mm when a tensile load is applied to
it. Determine (a) the strain, (b) the
percentage strain.
[(a) 0.00002 (b) 0.002%]- An 80 cm long bar contracts axially
by 0.2 mm when a compressive load is
applied to it. Determine the strain and the
percentage strain. [0.00025, 0.025%] - A pipe has an outside diameter of 20 mm,
an inside diameter of 10 mm and length
0.30 m and it supports a compressive
load of 50 kN. The pipe shortens by
0.6 mm when the load is applied.
Determine (a) the compressive stress,
(b) the compressive strain in the pipe
when supporting this load.
[(a) 212.2 MPa (b) 0.002 or 0.20%]- When a circular hole of diameter 40 mm
is punched out of a 1.5 mm thick metal
plate, the shear stress needed to cause
fracture is 100 MPa. Determine (a) the
minimum force to be applied to the
punch, and (b) the compressive stress in
the punch at this value.
[(a) 18.85 kN (b) 15.0 MPa]- A rectangular block of plastic material
400 mm long by 15 mm wide by 300 mm
high has its lower face fixed to a bench
and a force of 150 N is applied to the
upper face and in line with it. The upper
face moves 12 mm relative to the lower
face. Determine (a) the shear stress, and
(b) the shear strain in the upper face,
assuming the deformation is uniform.
[(a) 25 kPa (b) 0.04% or 4%]1.7 Elasticity, limit of proportionality
and elastic limit
Elasticityis the ability of a material to return to its
original shape and size on the removal of external
forces.
Plasticity is the property of a material of being
permanently deformed by a force without breaking.
Thus if a material does not return to the original
shape, it is said to be plastic.
Within certain load limits, mild steel, copper,
polythene and rubber are examples of elastic mate-
rials; lead and plasticine are examples of plastic
materials.
If a tensile force applied to a uniform bar of mild
steel is gradually increased and the corresponding
extension of the bar is measured, then provided the
applied force is not too large, a graph depicting these
results is likely to be as shown in Figure 1.7. Since
the graph is a straight line,extension is directly
proportional to the applied force.ExtensionxForceFFigure 1.The point on the graph where extension is no
longer proportional to the applied force is known as
thelimit of proportionality. Just beyond this point
the material can behave in a non-linear elastic man-
ner, until theelastic limitis reached. If the applied
force is large, it is found that the material becomes
plastic and no longer returns to its original length
when the force is removed. The material is then
said to have passed its elastic limit and the result-
ing graph of force/extension is no longer a straight
line. Stress,σ=F/A, from Section 1.5, and since,
for a particular bar, areaAcan be considered as a
constant, thenF∝σ.
Strainε =x/L, from Section 1.6, and since for
a particular barLis constant, thenx∝ε. Hence
for stress applied to a material below the limit of