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Document Description
Title
Behaviour
of
high-strength
concrete
under
biaxial
loading
conditions
Author
Hussein
,
Amgad
Ahmed
Description
Thesis
(Ph.D.)--Memorial
University
of
Newfoundland
,
1998.
Engineering
and
Applied
Science
Date
1998
Pagination
xxi, 245 leaves : ill.
Subject
High
strength
concrete--Testing;
Axial
loads
Degree
Ph.D.
Degree Grantor
Memorial University of Newfoundland. Faculty of Engineering and Applied Science
Discipline
Engineering and Applied Science
Language
Eng
Notes
Bibliography:
leaves
229-245.
Abstract
With the
increasing
applications
of
high
strength
concrete
in the
construction
industry
, the
understanding
of its
behaviour
under
multiaxial
loading
is
essential
for
reliable
analysis
and
safe
design.
This
thesis
encompasses
an
investigation
of the
behaviour
of
high
strength
concrete
under
biaxial
loading
conditions
, and a
constitutive
modelling
study
to
enable
numerical
prediction
,
through
the
finite
element
method
, of
such
a
behaviour.
--
The
experimental
phase
included
the
evaluation
and
design
of the
loading
platens.
The
test
set-up
and
supports
are
very
crucial
to this
type
of
testing
due
to the
friction
that
exists
between
the
testing
platens
and the
specimen.
A
theoretical
study
using
the
finite
element
approach
was
conducted
to
investigate
the
effect
of
confinement
on the
displacement
field
in
addition
to the
stress
distribution
in the
loading
direction.
Three
types
of
loading
platens
were
examined:
the
dry
solid
platens
, the
brush
support
and
teflon
friction
reducing
pads.
The
results
of the
simulation
indicated
that the
most
homogeneous
stress
and
displacement
field
are
achieved
through
the
brush
platens.
Based
on the
finite
element
investigation
, the
size
and
dimensions
of the
brush
platens
were
recommended.
They were
used
in the
experimental
study.
--
A
test
set-up
was
designed
and
manufactured.
Modern
control
schemes
and
highspeed
data
acquisition
system
were be
used
to
monitor
the
material
response
and
collect
the
experimental
results.
Four
different
types
of
high
strength
concrete
plate
specimens
were
tested
under
different
biaxial
load
combinations.
The
principal
deformations
in the
specimen
were
recorded
and the
crack
patterns
and
failure
modes
were
examined.
Based
on the
strength
data
,
failure
envelopes
were
developed
for
each
type
of
concrete.
The
test
results
revealed
that the
failure
envelopes
of
concrete
depends
on the
concrete
strength
and on the
type
of
aggregates.
A
pronounced
difference
was
found
between
the
high
strength
light
weight
and the
high
strength
normal
weight
concrete.
The
deformation
characteristics
indicated
that
high
strength
concrete
shows
a
linear
behaviour
up
to a
higher
stress
than
normal
strength
concrete.
It
also has a
higher
discontinuity
limits.
The
observed
failure
modes
showed
that there
is
no
fundamental
difference
in the
crack
patterns
and
failure
modes
due
to the
increase
in the
compressive
strength
of the
concrete
or
due
to the
use
of
light
weight
aggregates
under
different
biaxial
loading
combinations.
--
The
test
results
were
used
to
modify
and
calibrate
a
fracture
energy-based
non-associated
model
for
high-strength
concrete.
The
model
was
implemented
in a
general
purpose
finite
element
program
and was
verified
against
the
test
results.
Using
the
proposed
constitutive
model
, a
finite
element
study
was
carried
out
to
analyze
the
standard
compression
test
on a
concrete
cylinder.
The
effects
of the
compressive
strength
,
cylinder
size
,
loading
platens
and
sulphur
capping
were
investigated.
The
study
confirmed
that a
triaxial
compressive
stress
state
exists
at the
cylinder
end
, and a
large
stress
concentration
occurs
at the
corner.
The
simulation
results
revealed
that the
use
of a
standard
bearing
block
is
essential
in
testing
high
strength
concrete.
Moreover
, in
some
cases
, the
use
of a
non
standard
bearing
block
can
result
in a
lower
strength
,
which
was
observed
experimentally.
The
simulation
provided
an
explanation
for
such
a
behaviour.
Finally
, the
finite
element
analysis
demonstrated
that the
use
of
soft
materials
, as
friction
reducers
,
could
create
drastic
changes
in the
state
of
stress
in the
specimen
as
well
as its
compressive
strength.
The
use
of
soft
materials
should
,
therefore
, be
carried
out
with
caution.
Type
Text
Resource Type
Electronic
thesis
or
dissertation
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
a1260847
Rights
The author retains copyright ownership and moral rights in this thesis. Neither the thesis nor substantial extracts from it may be printed or otherwise reproduced without the author's permission.
Collection
Electronic
Theses
and
Dissertations
Scanning Status
Completed
PDF File
(24.09
MB)
--
http://collections.mun.ca/PDFs/theses/Hussein_AmgadAhmed2.pdf
CONTENTdm file name
266118.cpd
