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Image processing methods in ductile fracture of solids
MECHANICS RESEARCH COMMUNICATIONS 0093-6413/87 $3.00 + .00
Vol.14(1), 57-60, 1987. Printed in the USA Copyright (e) 1987 Pergamon Journals Ltd.
IMAGE PROCESSING METHODS IN DUCTILE FRACTURE OF SOLIDS
Y.J. Chao Department University Columbia,
of Mechanical Engineering of South Carolina SC 2 9 2 0 8
(Received
September
24
accepted for print
1986;
September
24
1986)
Introduction
Ductile fracture problem has been one of the major research a r e a s i n t h e m e c h a n i c s c o m m u n i t y i n r e c e n t y e a r s . Much e f f o r t has been devoted toward the development of a non-linear or ductile fracture mechanics methodology to characterize fracture behavior under elastic/plastic conditions. T h i s p a p e r r e p o r t s on c u r r e n t research work a t t h e U n i v e r s i t y of South Carolina i n w h i c h an innovative experimental a p p r o a c h i s d e v e l o p e d and a p p l i e d t o t h e elastic-plastic or fully-plastic fracture of a solid. The project's goal is to study the strain distribution in the nearcrack-tip field for various ranges of plastic zone s i z e and t h e conditions of J-dominance in plane-stress state. The p u r p o s e o f the research work i s t o p r o v i d e the needed experimental data toward a better understanding of the near-field behavior around the crack tip in ductile fracture. Some p r e l i m i n a r y results for the plastic zone s i z e and shape a r o u n d a n o t c h a r e g i v e n .
Basic
When
Concept
the
plastic metal
flow
increase
in a deformed
occurs.
changes.
polished planes
stress
before
a
result,
Furthermore,
if the
being
in surface
with
the
As
structural
loaded,
roughness
surface.
The
the
surface
plastic
of
the
is smooth
or
induces
an
flow
phenomenon
yielding,
texture
to the interaction
physical
57
exceeds
surface
object
the
due
metal
of
of the
slip
roughening
58
Y.J. CHAO
of an originally our
study
to quantify
are related
To extract
[lJ. image
digitized
to
construct
total such
intensity,
are
relations
can
as
shown
image
of
in Figure
root represents plastic the
distribution
Figure
2
shows
stress
hardening
the
symmetric
inside 600
four
is
the
Gyp,
0.235.
determined
size
monotonic is
33.5
Table
1
of
the
be
shape
in
Progress
A
loading
is
due to the By using and
a
the
comparison
plastic
a
304
by
the
The
and
zone
the
predicted. for
loadings.
is
tested.
determined ksi,
these field.
shape
can
and
specimen
average
region.
size,
zone
size
texture
near the notch
line of the specimen with a finite element
They show very good agreements.
Research
zone
zone
v-notched different
some
concentration
used
that
loads were under
plastic
are
between
that have occurred
plastic
plastic
specimen,
exponent
experimentally
the
tensile
the
specimens
stress
black dot pattern
changes
on
normalized assumes
by
computer.
loads
non-uniform
specimen
at the stress
the
steel,
of
under
a
surface
and
was
taken
relationships
then
to
The observed
curves,
strain
for
applied
the surface
calibration
experiments
statistical
contrast
is
performed
uniaxial
the
a pre-polished
1.
system
Smooth
The
One
specimens
deformation
stainless
be
in
then
curves.
normalized
also
vision
features. under
and
that
from a
parameters
form
are
relevant
established.
Single-edge-notched typical
digitized
techniques
strains
parameters
image of a specimen
in
calibration
texture
a computer
discontinuities
the
parameters,
the
using
motivates
Results
surface
surface,
extract
geometric
equivalent
useful
stored
flow occurs
changes.
and Preliminary
processing
image
without
texture
metal
and
as plastic deformation
In principle,
camera
Digital
to
Procedure
deformed
video
plastic
and quantify
plastically developed
surface
to the surface
Experimental
a
smooth
yield strain of
the
along
the
calculation.
IMAGE PROCESSING METHODS IN DUCTILE FRACTURE
59
A study of the strain distribution within the plastic
zone in a
notched element
specimen analysis
are used generated
with
is currently under
Experiments
elastic-plastic
investigation.
using
notched
These works
and data
specimens
finite
reduction
with
fatigue
cracks are currently underway to study the conditions
of J-dominance small
Various
comparison
to verify the proposed experimental
procedures.
both
and
for the HRR field in the plane
scale yielding
and
fracture parameters,
the measured near-field obtained
from
large
scale
stress
yielding
such as J-integral,
state
conditions.
calculated from
information will be compared with
far-field
measurements
and
for
the
those
approximate
theoretical solutions.
Acknowledgement
The w o r k
reported
Foundation acknowledge College
Grant their
here
was c o m p l e t e d
No.
MSM-8504976.
financial
of Engineering,
support
University
under
U.S.
The and
the
National
author support
Science
wishes
to
from
the
of South Carolina.
References
.
C. Lee, Y.J. Chao, W.H. Peters, and M.A. Sutton, "Surface Texture and Platic Deformation", Proceedings of 13th Southeastern Conference on Theoretical and Applied Mechanics, p. 275, (1986).
60
Y.J. CHAO
2
0
0 75Gvs
3
q
0 El50" s
! t
o
FIG.
i. Image of A L o a d e d Notched Plate
FIG.
FEM SOLUTION (IN)
LOAD
";4
L)2
2. E x p e r i m e n t a l l y Plastic Zones
0.0618
0_0700
0.75 O'ys
0.0687
0.0857
0-85ays
0.0847
0.0958
0.94 Gys
0.1108
0.1163
0.95 Qvs
0.1375
0.1400
F4 -- F T A B L E i.
Determined
EXPER. RESULT(IN)
17ys
0.69
X 3t/:4
C o m p a r i s o n of P l a s t i c Zone Size w i t h F i n i t e E l e m e n t Method.
Vol.14(1), 57-60, 1987. Printed in the USA Copyright (e) 1987 Pergamon Journals Ltd.
IMAGE PROCESSING METHODS IN DUCTILE FRACTURE OF SOLIDS
Y.J. Chao Department University Columbia,
of Mechanical Engineering of South Carolina SC 2 9 2 0 8
(Received
September
24
accepted for print
1986;
September
24
1986)
Introduction
Ductile fracture problem has been one of the major research a r e a s i n t h e m e c h a n i c s c o m m u n i t y i n r e c e n t y e a r s . Much e f f o r t has been devoted toward the development of a non-linear or ductile fracture mechanics methodology to characterize fracture behavior under elastic/plastic conditions. T h i s p a p e r r e p o r t s on c u r r e n t research work a t t h e U n i v e r s i t y of South Carolina i n w h i c h an innovative experimental a p p r o a c h i s d e v e l o p e d and a p p l i e d t o t h e elastic-plastic or fully-plastic fracture of a solid. The project's goal is to study the strain distribution in the nearcrack-tip field for various ranges of plastic zone s i z e and t h e conditions of J-dominance in plane-stress state. The p u r p o s e o f the research work i s t o p r o v i d e the needed experimental data toward a better understanding of the near-field behavior around the crack tip in ductile fracture. Some p r e l i m i n a r y results for the plastic zone s i z e and shape a r o u n d a n o t c h a r e g i v e n .
Basic
When
Concept
the
plastic metal
flow
increase
in a deformed
occurs.
changes.
polished planes
stress
before
a
result,
Furthermore,
if the
being
in surface
with
the
As
structural
loaded,
roughness
surface.
The
the
surface
plastic
of
the
is smooth
or
induces
an
flow
phenomenon
yielding,
texture
to the interaction
physical
57
exceeds
surface
object
the
due
metal
of
of the
slip
roughening
58
Y.J. CHAO
of an originally our
study
to quantify
are related
To extract
[lJ. image
digitized
to
construct
total such
intensity,
are
relations
can
as
shown
image
of
in Figure
root represents plastic the
distribution
Figure
2
shows
stress
hardening
the
symmetric
inside 600
four
is
the
Gyp,
0.235.
determined
size
monotonic is
33.5
Table
1
of
the
be
shape
in
Progress
A
loading
is
due to the By using and
a
the
comparison
plastic
a
304
by
the
The
and
zone
the
predicted. for
loadings.
is
tested.
determined ksi,
these field.
shape
can
and
specimen
average
region.
size,
zone
size
texture
near the notch
line of the specimen with a finite element
They show very good agreements.
Research
zone
zone
v-notched different
some
concentration
used
that
loads were under
plastic
are
between
that have occurred
plastic
plastic
specimen,
exponent
experimentally
the
tensile
the
specimens
stress
black dot pattern
changes
on
normalized assumes
by
computer.
loads
non-uniform
specimen
at the stress
the
steel,
of
under
a
surface
and
was
taken
relationships
then
to
The observed
curves,
strain
for
applied
the surface
calibration
experiments
statistical
contrast
is
performed
uniaxial
the
a pre-polished
1.
system
Smooth
The
One
specimens
deformation
stainless
be
in
then
curves.
normalized
also
vision
features. under
and
that
from a
parameters
form
are
relevant
established.
Single-edge-notched typical
digitized
techniques
strains
parameters
image of a specimen
in
calibration
texture
a computer
discontinuities
the
parameters,
the
using
motivates
Results
surface
surface,
extract
geometric
equivalent
useful
stored
flow occurs
changes.
and Preliminary
processing
image
without
texture
metal
and
as plastic deformation
In principle,
camera
Digital
to
Procedure
deformed
video
plastic
and quantify
plastically developed
surface
to the surface
Experimental
a
smooth
yield strain of
the
along
the
calculation.
IMAGE PROCESSING METHODS IN DUCTILE FRACTURE
59
A study of the strain distribution within the plastic
zone in a
notched element
specimen analysis
are used generated
with
is currently under
Experiments
elastic-plastic
investigation.
using
notched
These works
and data
specimens
finite
reduction
with
fatigue
cracks are currently underway to study the conditions
of J-dominance small
Various
comparison
to verify the proposed experimental
procedures.
both
and
for the HRR field in the plane
scale yielding
and
fracture parameters,
the measured near-field obtained
from
large
scale
stress
yielding
such as J-integral,
state
conditions.
calculated from
information will be compared with
far-field
measurements
and
for
the
those
approximate
theoretical solutions.
Acknowledgement
The w o r k
reported
Foundation acknowledge College
Grant their
here
was c o m p l e t e d
No.
MSM-8504976.
financial
of Engineering,
support
University
under
U.S.
The and
the
National
author support
Science
wishes
to
from
the
of South Carolina.
References
.
C. Lee, Y.J. Chao, W.H. Peters, and M.A. Sutton, "Surface Texture and Platic Deformation", Proceedings of 13th Southeastern Conference on Theoretical and Applied Mechanics, p. 275, (1986).
60
Y.J. CHAO
2
0
0 75Gvs
3
q
0 El50" s
! t
o
FIG.
i. Image of A L o a d e d Notched Plate
FIG.
FEM SOLUTION (IN)
LOAD
";4
L)2
2. E x p e r i m e n t a l l y Plastic Zones
0.0618
0_0700
0.75 O'ys
0.0687
0.0857
0-85ays
0.0847
0.0958
0.94 Gys
0.1108
0.1163
0.95 Qvs
0.1375
0.1400
F4 -- F T A B L E i.
Determined
EXPER. RESULT(IN)
17ys
0.69
X 3t/:4
C o m p a r i s o n of P l a s t i c Zone Size w i t h F i n i t e E l e m e n t Method.