Abstract

Orientation imaging microscopy (OIM) is being used to investigate the microstructural influence on small crack growth at the crack tip. Although grain and grain boundary orientations have been reported to influence small crack growth, the effect has been difficult to quantify. OIM uses electron backscattered diffraction (EBSD) patterns in a scanning electron microscope (SEM) to form a spatially resolved map of crystal orientation, providing information on intra- and inter-grain orientation relationships.

Mini-extended compact tension (ECT) specimens were machined from an 1100 aluminum cold rolled sheet with a 45° angle, machined notch tip. The specimens were sized to fit into a Philips XL30/FEG SEM equipped with an EDAX/TSL EBSD/OIM system. Initial images were recorded prior to cycling of the mini-ECT specimen. Fatigue testing was conducted at constant amplitude loading in the near-threshold regime where small cracks are considered to be on the order of the corresponding grain size. The constant amplitude load testing was periodically interrupted to obtain EBSD images. The ability to map an area 800 × 1300 μm in front of the machined notch tip was demonstrated. This study determined that the plastic deformation, which occurs in a zone in front of the crack tip, did not degrade the EBSD image quality. Use of this technique provides the capability to characterize local crystal orientation during deformation processes such as fatigue crack growth.

References

1.
Chan
,
K. S.
,
Lankford
,
J.
, and
Davidson
,
D. L.
, “
A Comparison of Crack-Tip Field Parameters for Large and Small Fatigue Cracks
,”
J. Eng. Mater.
, I,
108
,
1986
, pp.
206
-
213
.
2.
Atlas of Fatigue Curves
,
H. E.
Boyer
, Ed.,
ASM
.
3.
Suresh
,
S.
,
Fatigue of Materials
,
Cambridge University Press
,
Cambridge
,
1991
.
4.
Kim
,
W. H.
and
Laird
,
C.
Crack Nucleation and Stage I Propagation in High Strain Fatigue — I. Microscopic and Interferometric Observations
,”
Acta. Metal.
,
26
,
1978
, pp.
777
-
787
.
5.
Li
,
C.
,
Zhang
,
P.
, and
Zhang
,
T.
On Crystallographic Crack Transfer Across Interfaces in Four Types of Aluminum Bicrystal
,”
Mat. Sci. and Engr.
,
A183
,
1994
, pp.
23
-
30
.
6.
Li
,
C.
Crystallographic Fatigue Crack Growth in Incompatible Aluminum Bicrystals: Its Dependence on Secondary Slip
,”
Met. Trans. A
,
23
,
1992
, pp.
3293
-
3301
.
7.
Neumann
,
P.
New Experiments Concerning the Slip Processes at Propagating Fatigue Cracks-I
,”
Act. Met.
,
22
,
1974
, pp.
1155
-
1165
.
8.
Liu
,
H. W.
, “
A Review of Fatigue Crack Growth Analyses
,”
Theoretical and Applied Fracture Mechanics
 0167-8442,
16
,
1991
, pp.
91
-
108
.
9.
Laird
,
C.
, ASTM STP 415,
Fatigue Crack Propagation
,
ASTM International
,
West Conshohocken, PA
,
1967
, p. 131.
10.
Zurek
,
A. K.
,
James
,
M. R.
, and
Morris
,
W. L.
, “
The Effect of Grain Size on Fatigue Growth of Short Cracks
,”
Metal. Trans. A
,
14
,
1983
, pp.
1697
-
1705
.
11.
Blochwitz
,
C.
,
Brechbuehl
,
J.
, and
Tirschler
,
W.
, “
Analysis of Activated Slip Systems in Fatigued Nickel Polycrystals Using the EBSD-Technique in the Scanning Electron Microscope
,”
Mat. Sci. and Engr.
,
A210
,
1996
, pp.
42
-
47
.
12.
Villechaise
,
P.
,
Sabatier
,
L.
, and
Girard
,
J. C.
On Slip Band Features and Crack Initiation in Fatigued 316L Austenitic Stainless Steel: Part 1: Analysis by Electron Backseattered Diffraction and Atomic Force Microscopy
,”
Mat. Sci. and Engr.
,
A323
,
2002
, pp.
377
-
385
.
13.
Hu
,
Y. M.
,
Floer
,
W.
,
Krupp
,
U.
, and
Christ
,
H-J
, “
Microstructurally Short Fatigue Crack Initiation and Growth in Ti-6.8Mo-4.5Fe-1.5Al
,”
Mat. Sci. and Engr.
,
278
,
2000
, pp.
170
-
180
.
14.
Blochwitz
,
C.
,
Richter
,
R.
,
Tirschler
,
W.
, and
Obrtlik
,
K.
, “
The Effect of Local Textures on Microcrack Propagation in Fatigued f.e.e. Metals
,”
Mat. Sci. and Engr.
,
234/236
,
1997
, pp.
563
-
566
.
15.
Tatschl
,
A.
,
Scherer
,
S.
,
Werth
,
P.
, and
Kolednik
,
O.
, “
Automatic Local Deformation Measurements by Means of a Digital Image Analysis System
,”
Advances in Mechanical Behavior, Plasticity and Damage
, Vol.
2
,
D.
Miannay
,
P.
Costa
,
D.
Francois
, and
A.
Pineau
, Eds.,
Elsevier
,
2000
, pp.
899
-
904
.
This content is only available via PDF.
You do not currently have access to this content.