Answer:
Computation of the load is not possible since e(test) > e(yield).
Step-by-step explanation:
Given
E = 103 GPa = 103*10⁹ Pa
σy = 275 MPa = 275*10⁶ Pa
L₀ = 250 mm = 0.25 m
ΔL = 7.6 mm = 0.0076 m
D = 12.7 mm = 0.0127 m
We are asked to ascertain whether or not it is possible to compute, for brass, the magnitude of the load necessary to produce an elongation of 7.6 mm (0.30 in).
It is first necessary to compute the strain at yielding from the yield strength and the elastic modulus, and then the strain experienced by the test specimen. Then, if
e(test) < e(yield)
deformation is elastic, and the load may be computed using Equation
P = ΔL*A*E/L₀
However, if
e(test) > e(yield)
computation of the load is not possible inasmuch as deformation is plastic and we have neither a stress-strain plot nor a mathematical expression relating plastic stress and strain. We compute these two strain values as
ε(test) = ΔL / L₀ = 7.6 mm / 250 mm = 0.0304
and
ε(yield) = σy / E = (275*10⁶ Pa) / (103*10⁹ Pa) = 0.00267
Therefore, computation of the load is not possible since e(test) > e(yield).
0.0304 > 0.00267