Journal of Sustainable Construction Materials and Technologies,
Год журнала:
2024,
Номер
9(1), С. 36 - 44
Опубликована: Фев. 14, 2024
Using
recycled
aggregates
is
crucial
for
a
more
sustainable
environment
and
economy.
In
this
study,
the
properties
of
aggregate-based
SIFCONs
were
examined.
scope
compressive
strength,
high-temperature
resistance,
sorptivity,
fracture
energy
produced
with
aggregate
investigated.
The
results
compared
those
limestone-bearing
SIFCONs.
It
was
determined
that
strength
61.2
MPa
14.9
N/mm,
respectively.
Although
these
values
are
lower
than
limestone,
it
has
been
advantageous
in
resistance.
demonstrated
could
be
used
to
produce
SIFCON.
Developments in the Built Environment,
Год журнала:
2023,
Номер
16, С. 100284 - 100284
Опубликована: Ноя. 30, 2023
Researchers
seek
sustainable
materials
for
eco-friendly
cement
and
concrete
to
reduce
CO2
emissions.
This
paper
offers
an
extensive
overview
of
the
research
conducted
on
technology
with
minimal
zero-carbon
review
reviews
technologies
lowering
construction
industry's
carbon
footprint,
focusing
alternative
binders
supplementary
cementitious
(SCMs).
Additionally,
explores
transformative
potential
capture
utilization
sustainability.
It
also
explored
life
cycle
assessments,
economic
aspects,
financial
implications
this
technology.
Overall,
summarizes
low-carbon
in
context
development
climate
change
mitigation.
has
been
found
that
substituting
SCMs
reduces
emissions
without
compromising
strength
durability.
Materials
such
as
slag,
metakaolin,
calcined
clay,
limestone
can
replace
clinker,
eliminating
production.
study
highlights
challenges,
including
market
adoption
material
availability,
offering
insights
successful
implementation.
Engineering Science & Technology Journal,
Год журнала:
2024,
Номер
5(1), С. 201 - 218
Опубликована: Янв. 24, 2024
The
field
of
sustainable
construction
has
witnessed
a
paradigm
shift
with
the
advent
advanced
materials
that
not
only
enhance
structural
performance
but
also
contribute
significantly
to
environmental
conservation.
This
paper
provides
comprehensive
review
innovations
in
for
construction,
elucidating
their
benefits.
In
recent
years,
researchers
and
industry
professionals
have
focused
on
developing
reduce
impact
activities.
explores
myriad
materials,
including
limited
high-performance
concrete,
green
composites,
recycled
polymers.
High-performance
concrete
formulations
integrate
admixtures
supplementary
cementitious
resulting
structures
superior
strength
durability
while
minimizing
resource
consumption.
Green
composed
natural
fibers
bio-based
resins,
emerged
as
alternative
traditional
materials.
These
composites
exhibit
impressive
mechanical
properties
possess
reduced
carbon
footprint,
aligning
principles
eco-friendly
practices.
Additionally,
utilization
polymers
derived
from
post-consumer
waste
represents
significant
stride
towards
circular
economy
principles,
addressing
concerns
related
plastic
pollution.
Environmental
benefits
these
are
multifold.
reduction
raw
material
extraction,
energy
consumption,
greenhouse
gas
emissions
associated
production
more
industry.
Furthermore,
enhanced
built
leads
extended
service
life
maintenance
requirements,
further
mitigating
over
cycle.
integration
elevates
aligns
global
efforts
minimize
ecological
footprint
environment.
serves
valuable
researchers,
practitioners,
policymakers
seeking
insights
into
latest
advantages
realm
construction.
Keywords:
Materials,
Sustainable
Construction,
Innovation,
Environmental,
Advanced,
Review.
Buildings,
Год журнала:
2024,
Номер
14(6), С. 1566 - 1566
Опубликована: Май 28, 2024
In
this
study,
we
critically
examine
the
potential
of
recycled
construction
materials,
focusing
on
how
these
materials
can
significantly
reduce
greenhouse
gas
(GHG)
emissions
and
energy
usage
in
sector.
By
adopting
an
integrated
approach
that
combines
Life
Cycle
Assessment
(LCA)
Material
Flow
Analysis
(MFA)
within
circular
economy
framework,
thoroughly
lifecycle
environmental
performance
materials.
Our
findings
reveal
a
promising
future
where
incorporating
lower
GHG
conserve
energy.
This
underscores
their
crucial
role
advancing
sustainable
practices.
Moreover,
our
study
emphasizes
need
for
robust
regulatory
frameworks
technological
innovations
to
enhance
adoption
environmentally
responsible
We
encourage
policymakers,
industry
stakeholders,
academic
community
collaborate
promote
strategy
building
research
contributes
ongoing
discussion
construction,
offering
evidence-based
insights
inform
policies
initiatives
improve
stewardship
industry.
aligns
with
European
Union’s
objectives
achieving
climate-neutral
cities
by
2030
United
Nations’
Sustainable
Development
Goals
outlined
completion
2030.
Overall,
paper
dialogue
providing
fact-driven
basis
policy
Buildings,
Год журнала:
2024,
Номер
14(2), С. 494 - 494
Опубликована: Фев. 10, 2024
Three-dimensional
concrete
printing
(3DCP)
is
a
sustainable
and
green
approach
for
rapid
construction
with
the
ability
to
create
complex
shapes
preserve
intended
aesthetic
appearance
an
affordable
cost.
Even
after
decade
of
attempts,
there
are
many
limitations
challenges
applying
this
technology
constructions
without
borders.
The
lack
guidelines
mix
designs,
quality
control
procedures
during
extrusion,
building
phases,
compatibility
material
extruder,
standard
testing,
verify
suitability
mixture
respect
application
exposure
conditions
limited
machine
capacity
several
areas
be
addressed
applications
development
3DCP
as
another
challenging
task
due
high
Portland
cement
consumption
in
3DCP.
However,
reducing
usage
ordinary
(OPC)
pozzolanic
waste
materials
replacement
environmentally
friendly
indicates
direction
moving
into
pathway.
authors
reviewed
more
than
200
refereed
articles
published
on
techniques
Inconsistency
disseminating
knowledge
research
has
hindered
creation
monolithically
connected
chain
efforts
findings
accelerating
adoption
technology.
This
paper
summarizes
common
developing
designs
identifies
key
future
global
current
progress
context
Australia’s
industry
trends
acceptance
also
reviewed.
International Journal of Science and Research Archive,
Год журнала:
2024,
Номер
11(1), С. 639 - 650
Опубликована: Янв. 30, 2024
Civil
engineering
plays
a
pivotal
role
in
ensuring
the
safety
and
sustainability
of
communities,
especially
face
increasing
natural
man-made
disasters.
This
paper
provides
comprehensive
overview
innovations
civil
that
contribute
to
disaster
resilience
creation
safe,
sustainable
communities.
As
frequency
intensity
disasters
continue
rise
globally,
adopting
advanced
solutions
mitigate
risks
enhance
infrastructure
is
imperative.
review
explores
cutting-edge
technologies
methodologies
address
disaster-prone
regions'
challenges.
It
encompasses
range
innovations,
from
resilient
structural
designs
materials
geotechnical
practices.
The
integration
smart
technologies,
such
as
sensors
monitoring
systems,
discussed
means
provide
early
warning
systems
real-time
data
for
response.
also
delves
into
practices
within
engineering,
emphasizing
importance
eco-friendly
construction
energy-efficient
designs.
urban
planning
land-use
management
risk
reduction
highlighted,
need
can
withstand
diverse
environmental
threats.
Furthermore,
case
studies
success
stories
around
world,
showcasing
instances
where
innovative
have
effectively
minimized
impact
contributed
Lessons
learned
these
experiences
offer
valuable
insights
future
projects
policy
development.
underscores
critical
intersection
resilience,
providing
foundation
further
research
development
creating
safer,
By
embracing
field
significantly
building
an
increasingly
uncertain
world.
