REVIEWS ON ADVANCED MATERIALS SCIENCE,
Journal Year:
2024,
Volume and Issue:
63(1)
Published: Jan. 1, 2024
Abstract
This
study
thoroughly
reviews
the
recent
design
methods
for
ultra-high-performance
concrete
(UHPC)
with
agricultural
waste.
The
goal
is
to
identify
UHPC
composites
that
meets
environmental
sustainability
requirements
while
fulfilling
workability,
durability,
and
mechanical
properties.
capacity
of
typical
review
studies
limited
in
bridging
various
literature
aspects
systematically.
article
includes
comparative
analyses
identifying
these
methods’
intrinsic
connections
current
trends.
analysis
indicates
71%
documents
on
incorporating
waste
into
are
“Engineering”
“Materials
Science”
disciplines,
69%
being
journal
articles,
27%
conference
documents.
Significant
research
keywords
involve
“Ultra-High-Performance
Concrete,”
“Cements,”
“Sustainable
Development,”
“Agricultural
Wastes,”
highlighting
extensive
exploration
UHPC.
It
has
been
discovered
can
replace
silica
fume
UHPC,
improving
strength
durability
by
reducing
pore
volume
enhancing
microstructure.
Substituting
5–30%
cement
rice
husk
ash
significantly
boosts
compressive
strength,
hydration,
structure,
pozzolanic
reaction,
offering
substantial
benefits
supporting
construction
industry’s
contribution
low-carbon
sustainable
development.
provides
guidance
recommendations
developing
meet
diverse
specifications,
promoting
environmentally
friendly
practices.
Journal of Materials Research and Technology,
Journal Year:
2023,
Volume and Issue:
24, P. 8533 - 8546
Published: May 1, 2023
The
influence
of
waste
glass
powder
(WGP)
with
fly
ash
in
certain
proportions
on
geopolymer
concrete
(GPC)
was
investigated
by
exchanging
different
molarity
and
WGP
percentages
GPC.
For
this
objective,
altered
having
10%,
20%,
30%,
40%,
the
effect
sodium
hydroxide
(NaOH)
examined.
compressive
strength
tests,
splitting
tensile
flexural
tests
were
conducted.
workability
setting
time
also
evaluated.
With
addition
WGP,
for
molarities
(M)
11,
13,
16
NaOH
reduced
an
average
17%,
67%,
respectively.
findings
showed
that
slump
values
decreased
as
increased.
Molarity
significantly
affected
time,
but
had
no
time.
Although
high
increased
capacity,
a
noticeable
negative
workability.
This
study
demonstrated
slight
capacity
Furthermore,
when
combined
effects
taken
into
account,
use
10%
M13
recommended
to
obtain
optimum
sustainable
GPC
considering
both
fresh
hardening
properties.
Scanning
electron
microscopy
(SEM)
analysis
done
samples,
too.
Journal of Materials Research and Technology,
Journal Year:
2023,
Volume and Issue:
24, P. 8267 - 8281
Published: May 1, 2023
The
influence
of
waste
glass
aggregate
(WGA)
with
fly
ash
in
certain
proportions
was
studied
by
different
amounts
molarity
and
WGA
proportion
on
geopolymer
concrete
(GPC).
For
this
aim,
the
values
NaoH
concentration
consumed
investigation
were
determined
as
11,
13
16.
At
end
examinations,
workability,
setting
time,
compression
strength
(CS)
test,
splitting
tensile
(ST)
tests
flexural
(FS)
are
performed.
conclusions
demonstrated
that
slump
increased
(WG)
percentages
decreased.
While
concerning
CS,
ST
FS
combination
increased,
these
test
results
tend
to
decrease
correspondingly.
NaOH
altered
from
11
16,
increase.
This
examination
study
demonstrates
had
also
a
slight
adverse
capacity
workability.
Moreover,
use
10%
16
is
suggested
gain
optimum
sustainable
GPC
considering
both
fresh
hardening
properties
combined
molarity.
Furthermore,
examination,
offered
models
established
related
those
built
several
standard
codes.
More
importantly
an
equation
derived
predict
compressive
mixture
utilized
study.
Additionally,
scanning
electron
microscopy
(SEM)
analysis
achieved
example
parts
attained
examples
formed
WGA.
Journal of Materials Research and Technology,
Journal Year:
2023,
Volume and Issue:
24, P. 7444 - 7461
Published: May 1, 2023
This
research
aims
to
study
the
effect
of
adding
nanosilica
(NS)
on
properties
sustainable
high-strength
concrete
(SHSC).
The
SHSC
was
produced
using
recycled
aggregates
from
debris
as
a
100%
alternative
coarse
aggregate,
and
industrial
waste
used
supplementary
cementitious
materials
at
50%
75%
Ordinary
Portland
cement
(OPC)
weight.
A
total
25
mixes,
including
control
mix
(The
first
made
reference
by
only
without
replacement
materals),
binary
mixes
(OPC
fly
ash
(FA)),
ternary
(OPC,
FA
ground-granulated
blast-furnace
slag
(GGBS))
quaternary
FA,
GBFS
silica
fume
(SF))
were
developed.
dosage
NS
0%,
1%,
3%
5%
binder
ratio.
fresh
evaluated
slump
test,
mechanical
assessed
testing
compressive
strength,
splitting
tensile
flexural
strength
modulus
elasticity.
transport
water
permeability,
sorptivity
chloride
permeability
tests.
Results
showed
that
compared
with
mixture,
containing
blends
achieved
enhanced
28
91
days,
indicating
this
mixture
can
achieve
highest
sustainability
performance.
mixtures
performance
80.7,
6.46
10.09
MPa
for
split
respectively,
days.
also
permeability;
2.54
×
10−11
(cm/sec)
1370
coulombs
Journal of Materials Research and Technology,
Journal Year:
2023,
Volume and Issue:
25, P. 4799 - 4819
Published: June 18, 2023
In
this
study,
waste
marble
powder
(WMP)
was
used
to
replace
cement
of
concrete
in
specific
amounts.
To
accomplish
aim,
WMP
replaced
at
10%,
20%,
30%,
and
40%
the
weight,
a
reference
sample
without
(REF)
created
compare
compressive
strength,
splitting
tensile
flexural
strength.
The
replacement
weight
resulted
5.7%,
21.7%,
38.1%,
43.6%
decreases
strength
compared
with
REF.
Furthermore,
results
commonly
followed
same
trend
as
However,
led
5.3%,
8.6%,
19.4%,
26.7%
addition,
three
different
calculations,
ranging
from
simple
complex,
were
proposed
compute
mechanical
resistances
WMP.
These
calculations
for
practical
applications
validated
using
values
literature
implications
obtained
current
research.
While
based
on
REF
percentages,
complex
dependent
design
mixture,
age
samples,
percentages.
For
ANN
approach
help
coefficient
determination
(R2)
K-fold-cross
validation
method.
All
methods
provided
high
accurate
estimation
predict
properties
Based
studies,
utilizing
10%
is
recommended
obtain
optimum
benefits
considering
both
environmental
aspects.
Moreover,
scanning
electron
microscope
(SEM)
energy
dispersive
X-ray
(EDX)
analyses
then
conducted
observe
interaction
concrete.
According
SEM
analyses,
some
pores
detected
ITZ
observed
reaction
zone.
On
other
hand,
EDX
presence
manifested
by
levels
Calcium.
