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From YouTube: High Temperature Build Chamber
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C
That
respect
it
was
functional
from
beginning
to
end.
Only
the
drink
quality
was
not
great
on
this
one
centimeter
by
one
setting.
C
C
C
A
We
do
we
have
it,
we
could.
A
We
have
to
well
it's
two
one
by
two,
so
we
need
basically
use
what
four
of
them
plus
half
the
one
we
already
have
as
a
hat
yeah.
So
we
could
do
that
yeah.
Maybe
we
do
that
because
we
could
use
that
entire
surface
now.
A
Are
there
any
issues
about
burning
through
it?
If
the
lamps
are
too
close,
maybe
maybe,
let's
keep
it
off
for
a
little
bit
until
we
make
sure
we
get
good
heat
understanding
of
the
heat
diffusion
there,
a
little
more
in
case,
there's
really
hot
spots,
and
the
pi
would
actually
get
like
meltdown
and
stuff.
A
You
have
to
be
careful
about
that,
a
little
bit
it.
It's
starts
melting
at
like
200
17c.
A
So
if
you
want
to
print
polycarbonate,
which
would
be
of
high
interest
for
glazing,
you
need
not
too
high.
It's
the
one
one
place
I
saw
said
only
seven
hc
for
the
heated
chamber,
so
that's
that'll
be
easy.
A
So
if
we
get
to
150
we'll
do
everything
we'd
be
able
to
do
everything
except
for
extreme
plastics.
Like
p
e,
I
or
p
e
e
k,
and
things
like
that,
so
we
have
that
up
on
hand
as
far
as
the
torch
table,
where
we're
at
on
that.
C
C
Going
still
I
mean
we
didn't
want
to
basically
weld
it
in
completely,
and
I
mean
the
angles
they
work.
Okay,
but
still
not
sure.
If
it's
really
worth
doing
that,
I
mean
it's
fairly
involved
welding
drop
and
you
have
to
make
sure
when
you're
weld
that
you
don't
interact
with
the
plastic.
A
A
Can't
weld
it
in
place
not
really
welded
in
place.
You
have
to
take
off.
C
A
A
A
A
A
Nothing
planned
do
we
want
to
get
on
to
so
we
can
pick
up
the
shredder
parts,
the
big
motors
or
we
do.
We
have
any
manpower
for
that.
It
was
the
question
because.
A
So
brad
could
pick
it
up
at
lunch
time,
otherwise
we
would
pick
it
up
at
four
because
he's
doing
going
by
the
cooks.
I
was
thinking
we
would
get
started
on
that.
If
we,
I
think
we
should,
or
at
least
get
start
well,
we
could
get
at
least
started
on.
No,
I
mean
we
got
to
get
it
started,
so
I
would
say
we
we
get
him
to
go
to
pick
it
up
at
like
noon
time,
because
days
are
ticking.
C
I
mean
you
have
the
big
printer.
We
have
the
torch
going
and
now,
if
we
add
the
shredder
on
top
yeah,
just
a
consideration
with
manpower
and.
A
A
Okay,
maybe
maybe
what
we
can
do
is
take
out
start
taking
out
the
other.
I
mean
we
could
use
two
controllers.
Actually,
so
maybe
won't
you
guys,
since
that's
a
parallel
task,
one
for
the
torch
table,
but
the
other
one
for
the
for
the
filament
maker.
The
way
wait,
wait.
They
both
need.
A
For
the
filament
maker,
well,
actually
you
have
the
simple
on
off
switch
with
its
own
logic
of
you
turn
one
on
and
turn
the
other
one
on.
Actually,
there
is
no
controller
there,
except
for
sensing
temperatures
so
not
for
motion,
but
for
temperature,
you're
still
sensing
and
controlling
the
temperature.
So
actually
we
do
need
a
controller.
It's
convenient
to
use
the
screen
to
set
temperature.
A
So
yes,
we
do.
We
could
use
that
for
the
filament
maker
for
the
heat
barrel,
so
yeah.
I
think
that
would
be
a
good
parallel
tasking,
get
out
two
of
the
controllers
and
build
them.
Now
we
don't
need
tb
6600s
on
one.
One
is
just
just
a
plane
with
ssr,
no
stepper
motors.
So
basically
like
revive
one
of
the
revive
one
of
the
controllers,
then
holger
you
can
move
on
to
the
tb
6600s
for
the
torch
table
on
the
other
and
maybe
yeah
yeah.
That
part
I
mean
we
could
actually
start
running.
A
Turning
on
those
heat
bands-
and
you
know,
maybe
get
out
the
one
inch
pipe
and
foggers,
and
so
maybe
start
working
on
that
on
a
on
a
printer
yeah,
I
mean
as
soon
as
we
get
the
belt
tighten
up
the
belts.
Yeah
run
it
I
mean
see
what
we
get
and
in
terms
of
the
bed
heating,
how
how
even
that
is.
If
we
have
to
correct
it
now.
A
One
thing
we
would
want
to
flip
turn
the
bed
90
degrees,
because
the
wire
is
like
all
the
way
across
it
could
be
close
to
the
controller
and
that
wire
we
got
to
switch
it
out.
If
we're
going
to
do
the
heated
bed,
I
was
going
to
look
at
if
we
get
this
thing
started
and
crank
out
a
big
print.
We
should
get
right
on
to
the
the
heated
chamber.
A
D
Where
you,
the
weights,
that
that
kind
of
gets
in
the
way
of
the
lid.
A
A
Sharing
my
screen
and
zoom:
can
you
mirror
it
or
not,
really
try
to
mirror
it,
but
basically.
A
It
wouldn't
work
for
it
would
work
for
testing,
but
it
wouldn't
work
for
production
like
if
we
want
to
build
a
bunch
of
those
blades
we'll
like
overheat,
pretty
quickly
and
start
melting
the
parts,
but
for
testing
like
yeah,
actually
test
test
the
run
of
it
and
what's
the
thought
on
yeah,
I
mean
as
soon
as
we
can
mount
the
z-axis.
We
can
start
controlling
it.
A
The
thing
to
figure
out
there
is
that
one
motor
going
to
be
able
to
support
the
whole
way
and
move
it
up
and
down
effectively
one
thing
to
to
change.
There
would
be.
We
have
spring
a
spring
steel
wire
that
we
can
put
as
an
artificial
counterweight,
so
you
would
wind
this
spring
steel
wire
around
the
rod.
So
when
it
drops
it
has
bounce
back,
see
what
I'm
saying
we
do
have
that
very
solid
spring
steel
wire
and
we
it's
it's
actually
hard
to
work.
A
D
A
A
I
think,
like
a
couple
of
kilowatts
of
heat
now.
This
is,
I'm
not
sure
how
many
kilowatts
of
heat
this
has,
but
the
water
table
should
get
you.
A
So
you
get
like
80
degrees,
c,
more,
like
above
boiling
you're
gonna,
be
good
above
boiling,
so
you're
doing
pretty
good
in
that
part.
But
let's
look
at
the
the
question
on
the
heated
chamber:
how
much
how
much
space
do
we
have
because
we've
got
let's
start
with
a
six
foot
frame,
because
we
can
only
move
so
much.
So
if
that
is
the
six
foot
frame.
A
D
A
Okay,
but
but
look
at
this
discussion
here,
you
might
change
your
professional
opinion
after
you
hear
this
yeah.
So
let's
take
a
look
at
the
practical
considerations
I
mean
already.
We
shrunk
the
bed
to
three
feet
and
for
the
consideration
of
the
heavy
weight
which
we're
still
trying
to
negotiate
right.
So
we
already
went
down
there
to
half,
but
three,
like
that's
still
huge
for
what
we
want
to
do.
Yeah
so
outside
of
that
you're
going
to
have
the
heated
chamber.
A
A
And
then
the
shroud
well,
we
need
to
leave
a
little
bit
of
space
around
it.
I
would
leave
like
one
inch
around
the
frame,
yeah
one
or
even
two
inches
just
to
keep
it
safe,
and
then
you
fill
in
that
with
insulation.
You
know
a
few
inches
like
four
inches
or
five
inches.
Like
the
thick
bats.
We
could
use
yeah.
I
would
just
use
straight
the
thick
bats.
We
have
yeah.
B
A
A
Yeah,
I'm
thinking
like
what's
the
the
question
was
like:
what's
the
simplest
way
to
do
this,
I
think
flat
pieces
of
rebar
so
but
check
this
out,
but
it
gets
complex,
so
listen
get
like.
D
A
B
A
To
you
got
rods
going
through
it
and
you
got
to
seal
around
them.
Yeah
and
you've
got
a
top
that
you
want
a
meshing
surface
or
otherwise,
all
the
heat's
escaping
out
the
top
too.
So,
let's
look
at
all
the
complications
involved,
so
so
the
sensible
thing
so
already
there
we're
we're
at
36
this.
This
would
be.
A
The
inner
frame
of
the
chamber
would
be
if
that's
36,
40
inches.
If
we
leave
two
inches
just
you
know
for
plenty
of
space
to
work
around
40
inch
is
already
there.
A
A
A
That's
to
147
glass
transition
temperature
147c,
so
it's
not
180
180
is
extreme.
That's
the
ultimate
limit.
When
you
print
p
e
e
k,
p
e,
I
the
actual
print
bed
surface.
You
can
print
that,
but
you
need
a
180c
heated
chamber.
So
we're
not
going
to
do
that
so,
but
I'll
be
satisfied
with
147
for
now,
because
we
can
solve
that
easily
by
making
the
top
out
of
pei
itself
now
we-
those
sheets,
don't
come
in
that
big
size,
so
you'd
have
to
bond
them
together
and
stuff
like
that.
A
But
we
have
readily
is
four
foot
wide
sheets
of
polycarbonate?
So
if
that
is
50
inches
we
can
cap
it
with
polycarbonate
and
because
we
can't
do
the
full
three
foot
bed
we're
essentially
looking
at.
Let's
poke
a
hole
through
that
top
cover
and
work
with
that,
so
we
have
a
manageable
size.
But
what
is
a
manageable
size
here?
You
can
do
up
to
a
working
area
that
would
be
like,
because
you
can
slip
out
the
sides.
A
A
Yeah,
that's
bigger
than
most
printers
already,
oh,
that's,
that's
called
a
large
printer,
but
and
that
now
we're
saying
this
is
a
heated
chamber
at
150,
a
multi
hundred
thousand
dollar
machine.
If
we
succeed
at
that,
so
there's
a
lot
of
troubleshooting.
So
that's
our
cool
cool
area
here.
But
what
what
then?
D
A
B
A
A
A
A
A
So
there
you
go
so
I
would
say:
yeah,
okay,
so
the
wiper!
Now,
let's
put
a
wiper
we've
got
the
carbon
fiber
blanket,
which
would
be
a
nice.
It's
it's
like
a
knife
edge
to
maybe
a
little
more,
but
that
would
be
a
good
wiper
attached
to
the
top
cover
yeah,
so
that
wiper,
you
would
want
to
put
it
like
right.
There.
A
This
fiber
blanket
is
attached
to
the
top
cover
where
we
remount.
We
cut
out
that
one
by
three
foot
hole
in
the
middle
of
the
top
polycarbonate
cover.
So
let's
this
gets.
This
is
not
simple.
This
is
messy,
so
have
a
completely
attached
cover
and
make.
A
Yeah
and
then
heat
shield
slides
on
that
all
you
need
is
that
gasket,
but
already
there
man,
that's
one
by
three:
that's
pretty
good!
Now
the
only
issue
there
is
that
the
top
heat
shield
would
need
to
be
like
two
feet
by
six
feet.
So
what
do
we
have
in
man?
So
the
so
take
a
look
at
this
where's,
the
actual
heat
shield.
It's
going
to
be
like
it's
going
to
have
to
be
double
the
size
2x6.
A
D
A
A
Yeah,
so
admissible
materials
are
high
temperature
plastics.
What
do
we
have
on
hand?
Pei?
We
have
polycarbonate,
we
don't
have
pei,
that's
two
by
six.
We
have
one
by
two.
A
So
with
a
one
by
two,
we
can
only
do
six
inches
by
twelve
inches
for
print
bet,
and
we
can
try
that
maybe
as
the
first
step,
because
that,
because
the
large
sheet
is
going
to
get
into
the
issues
of
the
whole
geometry
and
and
aligning
things,
we
should
probably
try
as
v1
one
by
two
sheet
of
pei,
and
then
we
get
it
end
up
with
a
6
by
12
print
area,
which
is
still
major
success,
but
the,
but
we
could
do
up
to
this,
which
is
a
2x6
shield
that
gets
you
a
one
by
well.
A
You
could
make
this
even
wider,
like
how
much
actual
area
do
you
have.
You
could
probably
go
like
three
more
than
two
feet,
a
little
more
than
two
feet,
but
because
you
need
to
move
up
halfway,
it's
so.
If
you
got
a
two
foot
shield,
that
means
you
can
go
one
foot
up
and
one
foot
down
so
we're
already
spanning
four
feet.
We
still
have
like
one
more
foot
to
go,
but
you
know
two:
two
and
a
half
or
maybe
three
feet.
Three
feet
will
be
the
max
of
your
potential
shield.
A
C
B
D
But
what
I'm
saying
is
that
if
we
have
a
six
foot
long
piece
of
that,
I'm
imagining
there's
a
little
bit
of
deflection
in
that.
So
it's
going
to
have
a
slight
downward
arc
so
to
be
able
to
support
it
on
the
edges
of
the
chamber
with
another
bit
of
gasket
just
so
it
slides
a
bit
more.
Otherwise,
it's
going
to.
A
A
D
Honestly,
at
this
level
of
design,
if
we
just
like,
add
some
more
of
that
blanket,
that's
that
will
be
smooth
enough
and
it'll
be
a
cushion
for
it
to
slide
on.
D
D
So
that's
going
to
be,
I
don't
know
polycarbonate.
It
goes
over
the
whole
thing
yep,
but
then
we
have
another
sheet.
That's
got
a
slide
on
top
of
that,
so
you
we
can
do
right
around,
so
we
help
trap
heat
from
there,
but
it's
probably
also
really
valuable
to
have
a
strip
of
that
that
felt
the
blanket
along
here.
So
it
just
has
something
because
if
you
imagine
having
like
a
six
foot
long
thing,
there's
going
to
be
a
slight
bit
of
deflection,
which
will
put
the
pressure
and
the
friction
point
on
this
right.
D
So
I
would
do
like
right
around
the
hole
and
then
along
here
I
don't
know
if
we
need
it
there
or
maybe
we
need
another
strip
there
wherever.
However,
it's
moving
to
make
it
yeah
just
so
it
has
like
a
blanket
to
kind
of
glide
on.
Oh,
it's
not
a
bearing
exactly,
but
all
right.
No,
I
was
thinking
no
yeah.
D
A
A
So
if
you
put
more
gasket
around
the
initial
proposition
there,
then
your
heat
shield
would
get
caught
on
it
because
it
would
not
be
on
top
of
it
anymore,
because
that
thing
is
moving
all
the
way
to
the
edges
to
the
black
yeah,
that's
kind
of
what
what
we've
got
using
this
kind
of
technique.
A
B
B
D
D
A
Yeah
yeah,
you
want
to
do
that
or
you're
working
on
other
stuff,
because
I
wouldn't
I
wouldn't
do
that.
I've
worked
with
this
kind
of
roofing.
It's
not
easy
to
work
with.
A
That's
why
I'm
proposing
the
rebar
plus
and
then
on
the
rebar.
We
would
actually
do
something
like
24
inch
wide
aluminum
flashing,
so
you
can
slip
the
insulation
in
there
really
easily
like
make
the
frame
out
of
rebar
you
put
in
the
flashing
in
it,
and
then
you
can
slip
the
insulation
in
very
easily
and
can
have
the
exposed
edges
now.
A
Also
these
parts
here
that
have
to
go
up
right
up
to
the
to
the
rods
that
I
would
actually
use
sheets
of
polycarbonate
there
like
with
wood
or
something
like
together,
because
I
think
we
want
to
maybe
open
have
that
openable
readily.
A
Like
say,
we
got
to
put
a
heater
another
heater
down
there
or
something,
but
something
that's
like
you-
can
take
it
off
and
actually
open
up
the
inside
of
that
chamber,
because
that
little
part
there
in
between
the
rods,
it's
just
a
vertical
like
how
you're
gonna
attach
it
and
stuff
like
that.
So
I
was
thinking
of
maybe
do
something
like
polycarbonate
that
you
put
like
on
the
front
of
the
box
and
that
pretty
much
closes,
but
it
can
be
all
the
way
because
you
gotta
allow
for
the
some
connection
at
the
top.
D
A
A
You
can
cut
it
out
like
this
and
have
this
tab
that
you
attach
to
these
other
pieces
and
then
this
polycarbonate.
It
will
also
be
a
sandwich
because
you
don't
want
all
that
leakage.
That's
like
25
of
the
surface
area.
There
you'd
also
fill
it
with
insulation
and
perhaps
put
polycarbonate
on
the
interior.
Part
too.
A
Not
as
good
as
carbon
polycarbonate,
it
seems
possibly
that's
why
I
would
try
to
stay
away
from
wood
more
than
polycarbonate.
A
A
D
A
A
Yeah
like
reaching
inside
the
chamber,
if
you
got
to
do
something
like
maybe
we
got
to
put
in
a
heater
there,
maybe
actually
we
got
to
extract
the
part.
You
know
we
don't
want
to
go
to
the
top.
We
we
put
the
bed
all
the
way
down
and
take
the
part
from
the
front
like
four
simple
bolts
like
that
would
work
you
can
take
that
cover
off
to
the
side
and
then
extract.
What's
what
you
got
underneath.
A
But
yeah
this
is,
this
is
getting
quite
tricky,
so
I'm
assuming
here
that
this
polycarbonate,
if
you
have
this
double
shell,
I
would
leave
the
sides
open.
So
the
actual
insulation
forms
the
wiper.
A
If
you
have
a
clean
edge
of
the
insulation,
the
the
rod
goes
right
in
between
and
otherwise
all
that
space
is
closed,
all
the
time,
because
the
insulation
kind
of
rub
bumps
right
into
each
other,
but
it's
a
slit,
so
the
rod
can
move
up
and
down
yeah,
but
this
is
not
easy.
This
is
like
a
like
a
four
piece:
clam
shell,
that's
openable!
A
It's
got
this
clean
top,
so
you
can
put
the
polycarbonate
on
it
to
close
it,
so
you
got
to
have
clean
seams
everywhere.
That's
that's
the
thing.
The
rebar
thing
could
kind
of
do
it,
like
the
top
top
of
the
rebar
we'd
still
probably
have
to
weld
angle
on
top
to
get
a
clean
edge
to
put
the
top
cover
on.
Otherwise
it's,
like
all
leaks.
I
mean
the
rebar
is
not
accurate
enough.
It's
bumped!
A
So
on
top
here
right
here
we
would
want
so
assuming
this
is
a
welded
rebar
structure
which
we
can
do
really
quickly
by
doing
a
six-sided
cube
method,
which
means
you're
building
the
one
side
at
a
time.
I
want
to
still
put
put
a
angle
on
top
here
so
that
you
can
lay
if
you've
got
your
polycarbonate
cover.
A
Like
on
there,
nice
tight
engine
in
fact
put
the
put
the
gasket
there
put
the
five
the
carbon
fiber
blanket
there
too.
A
A
A
Right
some
something
that
would
mean
more
like
a
tube
here:
yeah,
otherwise
yeah
yeah,
no
you're
right
completely
right
that
that
has
to
be
this.
Gasket
has
to
be
the
highest
point.
A
This
tube-
let's
say
we
weld
this
tube
to
the
top
of
our
little
frame,
put
your
gasket
there,
and
this
tube
is
all
around
this
perimeter,
which
also
begs
the
question.
What
happens
here
like
that's,
to
be
continuous,
so
to
make
that
continuous
there
it's
kind
of
hard
to
take
that
door
off.
A
A
Of
I
think
a
stackable
stackable
thing,
but
a
three-foot
structure
like
that.
That's
pretty
insane
and
then
you
gotta
have.
A
A
Which
you
can
do
with
kinda
can
do
if
you
make
the
c-section
out
of
that
rebar
and
you
stick
the
insulation
in
there
it's
kinda,
but
then
you
still
need
to
address
the
smoothness
of
the
top
with
our
tube
welded
on
top
or
something
like
that,
you
still
need
to
like
weld,
or
at
least
a
flat
bar
on
top
to
yeah.
Actually
so
the
rebar
c.
Well,
the
flat
bar
yeah.
There
you
go
well
the
flat
bar
and
that
bar
stays
there.
The
door,
that's
openable,
but
it
still
opens
just.
A
A
Can
you
kind
of
see
this
angles
and
flat
sheets?
This
is
kind
of
what
I'm
talking
about
with
the
rebar,
except
I'm
not
using
an
angle,
I'm
using
rebar
and
then
lining
that
on
the
inside
with
aluminum
flashing
to
get
that
flat
surface,
because
otherwise
I
mean,
if
that
is
flat
sheet,
that's
a
lot
of
sheet
there
and
it's
pretty
heavy,
so
aluminum
is
actually
quite
convenient,
aluminum
and
rebar.
You
kind
of
get
this
lightweight
shape
a
space
frame
structure
that
does
this
and
then,
of
course,
the
wiper
like
between
the
you
know.
D
D
A
D
A
Has
to
be
ceramic
kind
of
insulation
has
to
be
some
kind
of
a
bat
of
some
rock,
like
rock
wool
is
next
step
up
above
the
fiberglass,
which
is
actually
what
we
have
the
the
grace
the
brown
stuff
is
rockwool,
whereas
pink
is
typically
fiberglass.
You.
A
A
Rigid,
but
it's
not
that
rigid,
it's
pretty
soft!
Still,
it's
like
it's
almost
like
the
soft
bats,
roxul
yeah,
it's
still
it's
bendy.
It's
not
structural.
B
A
D
A
A
Well,
the
simplest
thing
would
be
to
take
a
wood
wood
thing
and
put
the
regular
bat
insulation
on
the
inside
and
staple
it
and
stuff
yeah.
That's
it
yeah.
It's
got
the
paper
backing
on
it
too.
You
could
do
that
and
that
pretty
much
addresses
a
lot
of
the
issues.
A
Have
to
maybe
like
screw
it,
you
can
screw
it
with
like
these
screws,
with
washers.
C
A
B
A
Yes,
they
do
that's
why
another
match
like,
for
example,
what
about
if
we
took
that
insulation
and
just
put
a
mesh
on
it
inside
like
steel
mesh.
So
what's
available
like
what
about
steel
mesh,
which
is
stucco
mesh,
that's
that's
the
way
to
go.
Stucco
mash
steel,
stucco,
mash,
stucco,
mash,.
A
D
D
A
A
A
C
D
D
D
Is
the
is
the
rockwool
more
a
little
bit
more
solid?
It.
D
I
kind
of
yeah,
I'm
thinking
what
I
remember
on
it.
I
for
some
reason
feel
like
the
rockwool
would
just
be
a
nicer
product
to
do
this
all
out
of,
and
I
know
it's
specifically,
I
mean
it
what
to
make
it.
It
goes
up
to
like
1200
and
something
c
or
something
so
because
it's
basically
expended
rock
it's
like
popcorn.
A
Look
at
that,
let's
see
nine
in
stock.
A
A
34
square
feet
35
square
feet.
We
need
like
about
five
feet
by
15.
Well,
we
need
about
60.,
so
we
need
two
of
these
yeah
and
frame
it
with
two
by
fours,
yeah
r15.
That's
decent.
A
Oh,
how
are
you
framed
so
how
are
you
doing
like
a
sheet,
so
what
are
we
doing?
Are
we
doing
sheet
and
then
or
are
we
framing
sheet
how
about
well,
what
do
you
think
so,
chicken
wire
on
the
inside
so
you're
insulating.
D
Through
that,
I
guess
we
could
make
it
super
simple.
We
could
build
the
frame
staple
on
chicken
wire
sandwich,
the
insulation
between
that
and
another
layer
of
chicken
wire.
D
The
outer
edges,
like
literally
your
going
to
vertices
so.
D
A
A
With
top
and
bottom
you
gotta
have
top
and
bottom
now
the
parts
that
are,
for
example,
say
on
the
top
they're
in
the
heat
zone
right.
A
D
Basically,
live
imagining
it's
like
if
there's
like
a
stud
here,
stud
here,
stud
here,
stud
here
and
top
plates,
and
then
you
just
staple
on
your
like
chicken
wire
there
put
in
your
rock
wool.
So
it's
hanging
out
a
bit
like
that
and
then
you've
got
your
wiper
and
then
round
and
then
staple
in
again
or
I'm
not
sure
how
you
would
attach
the
chicken
wire
the
second
time
but
sandwich
the
rock
wool
between
two
layers
of
mesh
wire
yeah.
Does
that
make
sense.
A
No,
no
so
where's!
So
do
you
use
them
two
by
fours.
A
That's
the
two
by
four,
though
two
by
twos
will
end
up
warping,
more
warpage,
possibly.
A
A
D
On
the
inside
then
put
in
your
mesh
sorry
put
in
your
insulation
and
then
just
put
another
layer
of
mesh
over
the
top
of
it
to
hold
it
in
place.
So
it's
sandwiched
twice
and
then
at
the
ends
you
leave
it
sticking
out
and
so
that
you
have
a
gasket
of
rockwool
that
the
yeah
does
that
make
sense.
D
No,
I
mean
it's
just
you
basically
need
top
pieces
top
pieces
and
then
and
then
you're
like.
B
D
A
How,
how
are
you
doing
a
wiper
thing
there.
D
A
wiper
by
the
having
the
rock
wool
between
two
like
there's
mesh,
holding
it
on
the
back
side,
so
it
doesn't
like
flop
out
too
much.
Oh.
D
A
B
D
A
A
Yeah
and
then
the
chicken
wire
ends
like
right.
There.
D
D
Oh
yeah,
nice
cushy,
spongy,
gasket,
yeah.
A
D
A
A
So
little.
A
So
we
make
this
framework
standard
construction
and
then
do
this
internal
internal
layer
of
so
why
not
do
it
with
well,
we
can
do
it
with
regular
insulation
yeah
with
board
insulation,
but
yeah.
This
works.
This
addresses
the
insulation
value
and
it
has
a
structure
yeah.
D
B
A
So
the
framing
it
would
be
just
basic
framing
on
the
outside,
so
just
leave
it
no
plywood
is
just
framing
on
the
outside.
You
see
the
framing
it's
like
a
wall.
It's
like
a
rough
framed
wall
on
the
outside
yeah
yeah.
That
gives
you
ability
to
attach
things
to
it.
Things
like
that,
it's
flexible,
it's
easy
to
work
with
and
then
for
what
happens
in
this
section
here
this
one,
this
middle,
so
the
middle
part.
B
B
A
Mean
the
reality
is
going
to
be
wild
if
we
use
the
chicken
wire
on
there.
If
you
have
this
sausage
bit
sticking
out
of
the
chicken
wire,
so
I
guess
we
should
draw
in
thing
of
interest
would
be
to
say
that's
the
chicken
wire
layer
there
so
ended
before
the
edge,
so
that
you're
not
scratching
up
your
yeah,
your
rods.
A
Yeah
sure
sure
that'd
be
great,
and
then
you
can
put
the
top
cover
on
easily.
You
can
just
screw
it
screw
it
on.
Here
we
close
these
gaps
flat.
You
can
just
put.
You
can
put
a
top
plate
on
this
to
close
it
flat
using
standard,
carpentry
techniques.
So
so,
then
you
close
up
this
gap
at
the
top
and
a
bottom
plate
yeah.
So
you
should
do
a
bottom
plate
and
top
plate.
Stand
these
walls
up
and
that's
it
like
a
mini
house.
A
Yeah
yeah,
so
that's
an
easy
way
to
address
the
bottom
connection,
top
connection
yeah
attachment
of
the
top
cover
yeah.
You
could
do
that
easy
enough.
Oh
certainly
would
be,
I
think,
more
flexible.
This
gives
you
the
flexibility
to
adjust
things.
That's
the
good
part,
because
with
the
metal,
if
you
weld
it
that's
kind
of
there
and
fixed.
D
D
A
D
C
A
A
A
A
D
D
B
A
A
A
Yeah
like
if
we
use
framing,
we
should
be
using,
is
probably
that
the
insulation
is
on
the
inside,
of
the
frame
like
in
standard
construction,
so
put
the
mesh
outside.