Journal of Green Building,
Journal Year:
2024,
Volume and Issue:
19(2), P. 111 - 132
Published: May 10, 2024
ABSTRACT
The
agenda
of
Industry
4.0
strongly
affects
design
and
construction
at
all
its
phases,
three-Dimensional
Printing
(3DP)
is
an
essential
part
it.
emerging
technology
has
the
potential
to
become
a
more
valid
accepted
form
construction.
This
research
based
on
literature
review
regarding
relationships
between
concepts
Life
Cycle
Assessment
(LCA)
energy
efficiency
for
3DP
in
understand
developments.
Systematic
bibliometric
scientometric
analyses
are
used
as
data
analysis
techniques
make
detailed
comparison.
comparison
allowed
assessing
determining
current
state,
benefits,
limitations,
future
outlook.
Current
insights
examining
materials
first
(80%),
followed
by
walls
(15%),
buildings
(11%),
(6%).
findings
highlight
that
offers
significant
advantages
terms
time
efficiency,
reliability,
ecological
impact,
sustainability
within
industry.
However,
several
challenges,
such
complexity
material
mixture
content
design,
lack
standardized
codes,
limited
availability
experts
field,
prevent
widespread
adoption.
Further
advancement
requires
development
standards,
policies,
training
full
implementation
Cleaner Materials,
Journal Year:
2024,
Volume and Issue:
12, P. 100251 - 100251
Published: May 16, 2024
3D
Printing
Concrete
(3DPC)
represents
an
innovative
advancement
in
construction,
enabling
the
creation
of
intricate
and
custom
structures
while
simultaneously
reducing
material
waste
expediting
construction
schedules.
This
comprehensive
review
delves
into
latest
advancements
3DPC
technology
its
capacity
to
reshape
building
sectors.
The
paper
explores
recent
progress
printing
systems,
methodologies,
materials,
applications.
It
places
particular
emphasis
on
diverse
parameters
concrete
mix
proportions
that
wield
substantial
influence
over
process.
Furthermore,
this
study
utilization
materials
as
Supplementary
Cementitious
Materials,
i.e.,
nano
clay,
nano-silica,
ground
granulated
blast-furnace
slag,
enhance
properties
3DPC.
discussion
extends
consideration
a
low-carbon
concrete,
outlining
both
advantages
challenges
associated
with
practical
implementation.
Additionally,
presents
case
studies
large-scale
applications
structures,
discussing
their
economic
environmental
outcomes,
particularly
when
incorporating
Through
analysis,
highlights
potential
revolutionize
practices
anticipates
further
dynamic
field.
Journal of Building Engineering,
Journal Year:
2024,
Volume and Issue:
95, P. 110284 - 110284
Published: July 26, 2024
3D
printing
is
constantly
evolving,
enabling
new
innovative
manufacturing
applications.
Extensive
research
in
biomimetics
underscores
the
significant
impact
of
geometric
configurations
on
thermal
performance
building
envelopes.
However,
a
comprehensive
literature
review
efficacy
printed
components
remains
unexplored.
This
study,
after
offering
an
overview
printing,
its
development
and
application
construction
sector,
focuses
potential
terms
optimization
envelope,
through
use
complex
shapes
cutting-edge
materials.
The
ends
with
examination
recent
challenges
faced
by
perspectives
for
future
development,
opening
doors
to
various
opportunities.
Overall,
696
publications
from
2006
2024
were
selected,
160
them
deemed
suitable.
Four
databases
used
searches:
Science
Direct,
Scopus,
Springer
Link,
Google
Scholar.
main
findings
highlighted
that
while
holds
promise
enhancing
industry,
it
has
yet
reach
full
potential.
revealed
variety
approaches
pursued
optimize
components,
including
topology,
material
selection,
sustainability
considerations.
Among
examined
thermophysical
properties,
lowest
recorded
conductivity,
0.04
W/mK,
was
achieved
using
wheat
straw-based
composite
Similarly,
minimum
transmittance
value
wall
found
be
0.15
W/m2K.
Energies,
Journal Year:
2024,
Volume and Issue:
17(8), P. 1961 - 1961
Published: April 20, 2024
Due
to
the
favourable
pro-environmental
properties
of
timber,
including
origin
raw
material
from
renewable
sources,
ease
reuse,
negative
carbon
footprint,
low
specific
weight,
possibility
prefabrication,
etc.,
there
is
increasing
interest
in
use
timber
construction.
This
paper
takes
a
closer
look
at
new
uses
as
load-bearing
structure
for
high
and
high-rise
buildings.
Cases
described
literature
concerning
this
type
building
with
residential
public
functions
erected
worldwide
were
analysed.
The
first
buildings
put
into
2009.
aim
show
possibilities
extend
previously
made
reinforced
concrete
or
steel.
scope
analysis
includes
two
postulates
sustainable
construction,
directly
related
above-mentioned
goals:
limiting
interference
natural
areas
cities
through
efficient
plots
materials—timber—for
A
research
method
based
on
case
study
was
used.
Conclusions
spatial–functional
material–structural
design
these
ACS Omega,
Journal Year:
2024,
Volume and Issue:
9(37), P. 39180 - 39187
Published: Sept. 5, 2024
Calcined
oyster-shell-powder-modified
concrete
(CS),
developed
by
our
research
group,
is
an
ecological
quick-setting
suitable
for
3D
printing
technology.
It
has
been
discovered
that
the
material's
formability
obviously
affected
ambient
temperature
and
humidity
after
process,
this
phenomenon
also
occurs
in
other
3D-printed
materials.
To
figure
out
influence
laws
of
on
mechanical
properties
CS-modified
during
curing
time,
methods
both
microanalysis
macro
testing
are
applied.
The
molecular
dynamics
method
used
to
reveal
effects
parameters,
including
elastic
modulus,
bulk
shear
modulus.
macroscopic
compressive
strength
flexural
measured
validate
findings.
Results
show
most
conditions
improving
20
±
1
°C
relative
80-95%.
Under
condition,
28
day
can
reach
14
MPa,
44
which
significantly
improves
printed
samples.
