GTBL042-07 GTBL042-Callister-v2 August 6, 2007 12:43
206 • Chapter 7 / Mechanical PropertiesStress (103 psi)8006004002000StrainStress (MPa)120100806040200
0 0.1 0.2 0.3 0.4 0.5–200°C–100°C25 °CFigure 7.14
Engineering
stress–strain
behavior for iron at
three temperatures.Incorporation of Equation 7.5 into Equation 7.13b yields
Modulus of resilience
for linear elastic
behavior, and
incorporating
Hooke’s lawUr=1
2
σyy=1
2
σy(σy
E)
=
σy^2
2 E(7.14)
Thus, resilient materials are those having high yield strengths and low moduli of
elasticity; such alloys would be used in spring applications.Toughness
toughness Toughnessis a mechanical term that is used in several contexts; loosely speaking,
it is a measure of the ability of a material to absorb energy up to fracture. Spec-
imen geometry as well as the manner of load application are important in tough-
ness determinations. For dynamic (high strain rate) loading conditions and when a
notch (or point of stress concentration) is present,notch toughnessis assessed by
using an impact test, as discussed in Section 9.8. Furthermore, fracture toughness is
a property indicative of a material’s resistance to fracture when a crack is present
(Section 9.5).Stress0.002 StrainσyyFigure 7.15 Schematic representation showing how modulus
of resilience (corresponding to the shaded area) is determined
from the tensile stress–strain behavior of a material.