GTBL042-08 GTBL042-Callister-v3 October 4, 2007 11:51
2nd Revised Pages252 • Chapter 8 / Deformation and Strengthening MechanismsFigure 8.9 Slip in a zinc single crystal. (From
C. F. Elam,The Distortion of Metal Crystals,
Oxford University Press, London, 1935.)EXAMPLE PROBLEM 8.1Resolved Shear Stress and Stress-to-Initiate-Yielding
Computations
Consider a single crystal of BCC iron oriented so that a tensile stress is applied
along a [010] direction.
(a)Compute the resolved shear stress along a (110) plane and in a [111] direc-
tion when a tensile stress of 52 MPa (7500 psi) is applied.
(b)If slip occurs on a (110) plane and in a [111] direction and the critical
resolved shear stress is 30 MPa (4350 psi), calculate the magnitude of the
applied tensile stress necessary to initiate yielding.Solution
(a)A BCC unit cell along with the slip direction and plane as well as the
direction of the applied stress are shown in the accompanying diagram.
In order to solve this problem we must use Equation 8.2. However, it is
first necessary to determine values forφandλ, where, from the diagram,
φis the angle between the normal to the (110) slip plane (i.e., the [110]
direction) and the [010] direction, andλrepresents the angle between [111]
and [010] directions. In general, for cubic unit cells, an angleθbetween
directions 1 and 2, represented by [u 1 v 1 w 1 ] and [u 2 v 2 w 2 ], respectively, is
equal toθ=cos−^1⎡
⎣√( u^1 u^2 +v^1 v^2 +w^1 w^2
u^21 +v^21 +w^21)(
u^22 +v^22 +w^22