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From YouTube: Shredder, Filament Maker, and Large 3D Printer
Description
-----------------
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A
Recording,
can
you
see
it
on
that,
but
I
can't
someone
else
would
have
to
mirror
me.
You
wanna.
If
someone
wants
to,
can
you
mirror
or
it's
not
working
on
my
computer
so
but
the
summer
x
officially
goes
until
december,
1,
the
apprenticeship
till
december
22nd
so,
and
the
goal
of
the
apprenticeship
and
all
this
was
to
move
forward
on
a
house
quite
a
bit
thinking
about
funding
models
for
open
hardware.
So
that's
still
the
game
to
solve.
A
Still,
I'm
confident
as
ever
that
the
house
can
do
it.
Actually,
you
know
thinking
about
projects
like
ben's,
I
mean
not
ben
but
like
regen
man,
that's
such
a
if
we
could
get
in
on
that
as
a
funding
mechanism
too.
But
basically,
what
open
source
hardware
has
to
do
is
discover
some
method
where
there's
a
way
to
fund
projects
for
regeneration
and
in
a
replicable
way.
So
that's
my
thinking
on
the
whole
project
like
overall,
is
exactly
that.
It's
it's!
A
The
global
village
construction
set
approach
where
modularity
scalability,
teachability
replicability
are
high
on
the
list
and
therefore
anybody
who
wants
to
take
on
a
different
path
in
life.
They
can
do
that
and
therefore
that
means
absolutely
business
models,
revenue
models
that
are
worked
out,
that
we
can
present
to
anybody
and
teach
them.
So
you
don't
have
to
take
the
standard
track.
I
mean
based
on
my
own
experience.
I
wanted
to
do
something
good
out
of
out
of
grad
school.
A
So
if
you
want
to
do
something
different
like
okay,
so
my
my
standard
path
would
have
been
being
a
professor
or
like
being
in
a
cubicle
somewhere
of
course,
and
now
it's
like
we
want
to
do
better.
We
want
to
give
more
diversity
and
opportunity,
and
eventually
that
means
what
we
want
to
set
up
here
is
is
like
a
four-year
immersion
program
where,
after
that,
you
can
be
pretty
much
guaranteed.
Okay,
here's
a
way
to
make
a
living,
doing
regenerative,
open
source
work
so.
B
Just
just
something
that
arises
for
me,
there's
so
many
good
ideas,
there's
so
many
good
layers
of
value
here
and
like
it's
almost
like
there's
there's
enough
that
it's
like
one
ends
up
tripping
over
like
we're
going.
That
way.
Do
we
go
in
that
way
and
what
comes
down
for
me?
Is
I
go
like
you
need
you
need
the
monkey
ball.
You
need
the
like.
B
B
It's
this
little
ball
of
rope,
that's
connected
to
a
bigger
rope,
that's
connected
to
a
bigger
rope,
that's
connected
to
the
big
chain,
and
the
monkey
ball
in
this
to
me
would
be
what
is
the
smallest
value
proposition
that
can
be
set
up
and
become
a
functional
unit
by
itself,
and
I
think
that
that
is
maybe
the
most
important
thing
to
like
really
capitalize,
because
at
that
level,
then
that
actually
creates
a
small
piece
of
ground.
One
can
stand
on
it
and
it
gives
it
lowers
the
bar
of
accessibility
right.
C
A
You
don't
get
to
centralize
the
economic
power
that
way
you
need
a
certain
level
of
centralization
in
order
to
go
radically.
Dispersive
we've
been
through
many
discussions
on
on,
say
that
you
know
the
3d
printers
we
were
going
at
before
right
before
covet
hit
and
they
got
shut
down
and
we
started
to
think
okay.
Well,
what
does
really
make
a
difference?
Well,
those
3d
printers,
the
small
ones,
don't
make
a
difference
at
that
level.
A
Housing
is
a
much
bigger
market,
so
we
want
to
do
that,
but
that
was
like
say
on
in
our
team
like
over
the
last
two
years,
we
we
came
up
with
housing
as
the
best
thing.
So
right
now,
you
know
you
might
see
a
lot
of
noise
here,
but
everything
right
now
is
the
is
that
thing
up
there
that
thing
that's
rapidly
deployable
500
hour,
build
50k
materials,
and
then
you
sell
one
and
you
can
sell
one
for
as
little
as
100k.
A
A
You
know
I've
been
at
it
for
a
bunch
of
time,
but
in
terms
of
scalability
you
can
say
the
market
is
definitely
huge
there.
The
other
things
like
the
printer
which
we're
doing
right
now.
The
specific
intent
is
construction
materials
like
if
we
can
lower
the
cost.
Therefore,
revenue
potential
is
better
on
a
house
and
so
forth.
So
that's
kind
of
the
thinking
but
yeah,
but.
A
Absolutely
set
them
up.
I
would
say
that,
however,
from
a
business
strategy
perspective,
the
amount
of
time
to
develop
such
an
enterprise
would
be
quite
comparable
to
housing
versus
a
cordless
drill
or
something
or
ball
bearings
you
print
or
this
or
that
that
you
can
print.
That
would
be
a
billion
dollar
market
in
itself,
but
it's
still
all
about
that
business
development.
A
But
the
thing
where
we're
going
by
here
is
kind
of
like
the
diamandis
style,
7d's
of
disruption,
kind
of
deal
where
the
first
thing
you
gotta
start
with
is
a
big
hairy,
audacious
goal,
which
then
allows
people
to
contribute
to
it
because
with
the
house,
everyone
wants
to
contribute
to
it
with
other
projects
like
the
cordless
drill,
we've
seen
it
it's
like
oh
yeah
cool,
but
I
ain't
gonna
do.
That
is
what
I
need.
A
A
So
that's
that's
kind
of
where,
where
we're
doing
it,
but
I
mean
if
if
you
could
propose
something
that
shows
oh
okay,
this
is
I
mean
the
concept
is
good
and
it's
sound
from
the
surface,
but
I
think
once
you
get
into
practice
and
consider
longer
term
goals.
B
Just
looking
at,
like
I
mean
I
just
have
perused
really
lightly
like
things
that
are
out
there
open
source,
like
I
don't
know
like
there's
a
four
piece
angle,
clamp
for
doing
joinery,
he
uses
one
bolt
like
that's
pretty.
We
could
you
easily
print
that
on
on
our
size,
printer
and
like
one
of
those
clamps,
I
don't
know
what
it's
worth,
but
like
fifteen
dollars
or
something
twenty
dollars
maybe
like.
I
suppose
I
particularly
come
from
developing
world
perspective
like
that
is
revolutionary.
D
E
F
F
Yeah
yeah
thinking
about
what
you
said
with
the
tractor
I
mean
I
also
have
this.
In
the
back
of
my
mind,
with
the
the
tractor,
I
mean,
if
you
had
the
development
country
and
maybe
have
a
small
shop
going
with
five
or
ten
people,
this
could
be
also
a
huge,
huge
difference
yeah.
So
the
community
around
that,
maybe
with
whatever
ex
tractors
and
again
a
small
shop
that
does
the
repair
and
the
building.
A
F
That's
fine
for
your
case,
but
yeah.
I
was
just
thinking
about
other
osb,
like
enterprises
or
or
large,
small-scale
jobs
that
could
pop
up.
A
A
So
just
I
mean
just
to
give
you
you
might
have
heard
the
story,
but
for
the
cep
press
you
know,
2008
first
got
the
industrial
grade
version
of
that
pressing
like
10
block
a
minute,
and
I
thought
oh
man-
this
is
gonna
change
the
world.
How
many
businesses
are
there
running
it
right
now?
Zero!
So
that's
the
thing:
it's
like
you,
gotta
get
people
more
help
to
do
it
and
it
may
not
be
as
easy
as
it
looks.
A
For
me,
I
can
do
it,
but
the
the
that's
why
the
number
one
priority
for
me
right
now:
apprenticeship
and
training
we're
getting
involved
with
a
gi
bill.
The
apprenticeship
model
there,
where
next
step
would
be
like
12
clusters
of
12
people,
first
cohort
of
12
from
a
pool
of
like
hundreds,
they're
gonna,
apply
so
talking
about
people
that
we're
selecting
for
for
grit
and
and
some
somewhat
of
a
vision.
To
make
this
happen
and
and
a
longer
program
like
like
here,
we
tried
the
six-month
apprenticeship.
It's
gotta
be
like
two
years
plus.
B
Yeah,
I
also
just
I
brought
my
understanding.
Basically,
what
makes
I
get
the
modularity
of
the
house
and
I
get
that
what
makes
it
like
an
eco
home
is
basically
the
like
alternative
energy
systems
and,
like
the
smart,
like
inner
systems
of
the
thing
you
chose.
D
B
Do
like
panels
like
that,
because
just
ease
of
access
to
materials
or.
B
F
A
Really
cheap
just
curious,
no,
you
can't!
No!
You
can't
not
at
this
price
point
it'll
be
twice
twice:
2x
yeah,
I
mean
show
me
the
numbers.
A
I
mean
the
conclusion
was
not
not
sips
and
it's
also
a
little
hard
to
get
the
ones
that
are
4x8.
So
then
we
have
to
it's
not
a
standard
thing.
It's
something
you
have
to
go
to
a
specialized
relationship
which
is
something
to
develop.
But
if
you
have
to
develop
specialized
relationships
like
that,
that
beats
the
concept
that
you
can
go
to
any
home
depot
or
any
yeah
lumberjack
kind
of
a
deal
yeah.
So
maximum
distributability
concept.
B
A
Yeah,
there's
there's
a
lot
of
detail
in
there
to
me.
The
most
valuable
is
it's
the
seed
content
that
you
can
start
with,
a
small
that
you
don't
get
into
debt
for
that's
the
idea
and
just
building
smaller
homes
as
a
viable
model.
Yeah!
That's
that's
the
basic
thing
I
mean
still
stands,
but
stronger
than
ever
as
a
value
proposition,
we
got
to
deliver
on
it.
That's
that's
the
thing.
G
And
so
just
to
be
clear
because
you
know
originally,
you
know
the
strategic
mission
of
osu.
I
don't
know
some
level
was
to
provide
the
layman,
so
to
speak
with
the
means
to
be
able
to
produce.
G
You
know
a
civilization
using
you
know,
maybe
for
internal
consumption,
but
I'm
hearing
that
that
it's
perhaps
also
on
top
of
that,
using
that
those
tools
and
machinery,
maybe
other
things,
to
create
a
viable
economic
model,
that's
sustainable
for
you
as
well,
so
you
don't
have
to
worry
about
you
know
being
out
in
the
matrix,
so
yeah
that
I
mean
I
never.
I
never
considered
the
cv
press
when
I
thought
about
like
you
know,
and
I
emailed
how
much
does
it
cost?
G
You
know
for
a
kit
as
using
it
for
making
money,
although
you
know,
as
soon
as
I
told
my
cousin,
I
was
here
to
you,
know,
build
a
tractor.
G
The
first
thing
he
says:
well,
you
know,
there's
you
know
plenty
of
opportunities
if
you
have
tractors
to
help
people
clear
lane,
while
the
blind,
you
know
whole
lots
of
money,
I
know
in
construction
leave
an
eye
like
I
had
a
you
know,
residential
renovation,
business
and
I
know
a
lot
of
the
barriers
of
entry
into
commercial
you
know
is:
is
the
machinery
right
if
you
were
able
to
have
tractors,
or
you
know
similar
machines.
G
You
could,
potentially
you
know,
rent
them
out
or
sell
them,
probably
a
lot
cheaper
than
what's
out
there.
I
don't
know
the
profit
difference
between
the
ct
government
and
a
tractor
or
other
vehicle
for
that
matter,
but
I
I
will
say
you
know
from
when
you
saw
my
production
stuff.
I
don't
know
how
easy
it
is
to
put
like
a
conveyor
belt
or
anything
like
that
onto
the
the
3d
printers.
You
know
that
that
we're
building
and
designing,
but
since
I've
been
here,
I've
seen
some
conveyor
belt
style.
G
You
know
printers
that
are
being
used,
especially
with
you
know,
in
volume,
for
you
know,
revenue
generation
that
can
you
know
print
the
long
wood
stuff
that
you're
talking.
You
know
the
plastic
lumber
so
to
speak
with
a
very
small
xy.
A
G
I
mean
for
a
thousand
dollars.
You
know,
you
know,
there's
something
right
now
from
realty
called
the
cr30
that
is
printing
a
20-foot
I-beam,
you
know,
and
people
are
you
know
it's
changing
how
people
are
thinking
about
approaching
3d
printing
in
terms
of
using
it
for
fabrication.
These
guys
have
them
on
the
shop.
I
mean
they
have
them
on
the
wall.
G
Just
printing,
like
you
know
like
six
right
there,
24
7,
just
continuously
printing
yeah,
you
know
yeah
and-
and
things
like
that,
so
you
know
for
me
even
thinking
about
how
I
want
to
go
about.
Building
the
community
and
housing
structure
like
I'm,
I'm
starting
to
think
like.
Is
it
possible
to
build
plastic
form
to
pour
concrete
with
these
things,
and
you
could
almost
design
a
house
and
literally
just
get
on
the
top
and
pour
whatever
you
want
inside
and
have
your
windows
doors,
all
the
everything
where
it's
supposed
to
be
done?
You
know.
A
A
As
a
filament
type,
so
what
are
we
solving
for
with?
So
the
question
becomes.
What
is
the
value
proposition
of
these
two
things?
The
large
3d
printer?
Did
it
use
filament
maker
and
shredder?
Does
not
ex
a
shredder
exists
in
an
open
source?
It's
5,
000
bucks.
You
can
do
much
better
for
like
10x.
A
At
that
point,
we
can
do
like
10x
the
productivity
filament
maker.
A
They
somewhat
exist,
but
nothing
exists
that
that
actually
works
from
scrap
grade
plastic.
That's
been
shredded
and
there
is
no
open
source
high
temperature
3d
printers
that
allow
you
to
print
outside
of
like
one
or
two
plastics
that
are
printable
like
the
cr30
yeah.
You
can
do
it
in
pla,
but
I
can't
afford
a
you
know
the
two
thousand
dollars
per
one
panel
that
it
would
cost
if
you
bought
plastic
off
the
shelf.
D
A
Not
gonna
print
it,
it's
not
printable,
it's
polyethylene,
it'll
warp
and
and
delaminate
yeah.
You
need
a
high
temperature
chamber,
so
it's
high
combination
machines
do
not
exist.
The
lowest
cost.
One
is
going
to
be
a
few
tens
of
thousands,
but
that's
like
for
small
scale
and
not
even
high
temperature,
the
the
ones
that
actually
go
up
into
the
hundreds
like
close
to
the
100,
50
or
so
you're
talking
hundreds
of
thousands
of
dollars.
That's
the
problem
statement
we're
solving
for.
A
If
we
solve
that,
you
have
distributed
plastic
manufacturing
a
trillion
dollar
proposition
distributed
among
thousands,
if
not
millions,
of
economic
agents
throughout
the
world.
That's
a
much
bigger
proposition
than
than
so.
So.
First
of
all,
we're
talking
about
actually
solving
taking
a
look
at
what's
a
big
problem,
and-
and
can
we
actually
even
tackle
it,
but
by
starting
with
a
big
problem?
A
There's
plenty
of
people
working
on
other
stuff,
we'd
like
to
start
at
the
top,
because
we
can
get
everybody
to
collaborate.
That's
the
assumption-
and
that's
not
true
yet
because
who's
here,
we're
not
there
yet
to
because
one
of
the
biggest
things
is
people
understanding
the
potential
or
the
feasibility
of
all
this
stuff
which
which
we're
busy
kind
of
developing
milestones
here
and
there
on
all
the
items
that
we're
talking
about.
G
And
when
you
say
magneris
is
the
heat
chamber,
you.
A
G
A
G
And
call
it,
I
think
it's
a
polycarbonate
enclosure
that
they
make
for.
B
G
About
there's
other
things
that
that
they
put
underneath
it.
E
B
Know
per
square
foot
the
cost
of
the
siege
house
for
wall
construction
with
including
insulation.
A
A
Something
like
that:
okay,
what's
the
numbers
anywhere
else,
and
then
you
have
to
consider
that
it
also
may
include
the
exterior.
A
A
So
whatever,
whatever
we've
got,
I
mean
look
at,
I
mean
inform
me
if
you
have
a
specific
link,
but
if
there's
an
enclosure
it
could
be
an
enclosure
where
it's
you
might
be
able
to
do
abs,
it's
a
little
hotter.
It's
not
the
high
temp
thing
where
you
can
actually
keep
things
over
100
c
for
an
extended
period
of
time.
Yeah
so
that'll
be
the
difference.
Those,
but
that's
the
critical
thing.
A
You
have
to
understand
that
there's
a
very
specific
thing
that
once
you
reach
that
level
and
you
have
to
observe
that
well,
that's
not
it,
but
it's
hard
to
notice.
Unless
you
study
this,
you
can't
really
notice
which
is
which,
but
there
is
a
value
proposition.
Let's
just
say
that
and
please
inform
me.
Otherwise
nobody
has
solved
the
idea
of
taking
trash
plastic
and
turning
it
into
3d
prints.
The
closest
is
precious
plastic,
but
they're
not
doing
3d,
printing
they're
just
doing
injection
molding
and
other
things
and
pressing.
A
They
have
not
chosen
the
3d
printer
out,
which
is
a
dead
end
right
there.
You
can't
do
any
significant
geometries
outside
of
a
3d
printer.
The
3d
printer
allows
you
to
do
your
honeycomb
structures
and
all
this
flexibility
of
print.
That
would
cost
you
millions
of
dollars
to
implement
than
others,
and
most
of
it
is
impossible
with
extrusion.
So
extrusion
or
molds
molds
have
con
confinement
like
restrictions
on
the
kind
of
geometry
you
could
print.
A
A
So
if
you
ask
so,
if
you
you
tell,
you
asked
me
that
question,
I'm
going
to
say
well,
what's
happening
on
there.
Well,
obviously,
this
has
not
gotten
to
the
point
which
it
needs
to
get
to
actually
solve
real
problems
there.
What
is
the
shortcoming?
Well,
I
told
you
a
few
of
those
shortcomings.
You
can't
print
with
most
plastics
and
you
just
can't
print
with
most
plastics.
A
Filament
makers
that
actually
work
there
are
no
open
source,
filament
makers
that
actually
work.
Okay,
there's
a
lot
of
prototypes,
there's
a
lot
of
things
that
work
from
pallets,
very
finely
graded
high
quality
materials.
A
When
you
talk
about
printing
with
trash,
it
doesn't
exist,
that's
a
problem
we're
trying
to
sell
for
so
that's
that's
the
idea
behind
these
two
things
here:
plastic,
shredder
and
filament
maker.
I
mean
we
did
that
that's
abs,
relatively
easy,
small
extruder.
A
We
can
scale
that
up
and
and
make
it
happen
with
any
plastic
for
plastics
that
are
maybe
well.
We
don't
have
much
experience
with
it.
So
I
can't
tell
you
what
it
takes
that
was
not
from
from
regrind.
That
was
just
from
pellets
using
a
a
small
extruder
because
of
the
high
quality
of
the
pellets
it
works,
but
once
you
get
into
irregular
dirt
in
there
all
kinds
of
stuff,
you
got
to
pay
attention
to
more
things,
and
so
even
a
simple
thing,
as
a
regrind
shredder
does
not
exist,
you
can
you.
A
A
Yeah,
which
which
doesn't
count
well,
it
gets
you
to
a
dollar
a
pound
in
filament
cost,
because
that's
how
much
you
can
buy
a
gaylord
of
pellets
from
china,
but
then
you
go
10x
further
or
100x
further.
When
you
get
that
bail
from
your
recycling
center
and
turn
it
turn
it
into
regrind
yeah,
so
finished,
filament
ten
dollars
a
kilo,
pellets
dollar,
a
kilo
regrind
a
cent,
a
kilo
or
10
cents,
a
kilo.
So
there's
a
thousand
x
difference.
A
B
You
feel
that
you
have
sold
the
design
flaws
in
creating.
A
G
I
guess
two
questions
on
that
note
for,
like
reproducibility,
is
there
a
standard
ratio
between,
like
the
the
size,
print
volume,
a
bed
that
you
want
to
the
frame
size
and
then
for
that
matter,
a
way
to
scale
that
out
with
a
heat
change,
because
I
haven't
seen
any
of
the
culture
I
don't
know
if
they're
already
around
but
like?
Is
that
just
a
matter
of
you
know
taking
this,
this
cube
design
and
you
know
keeping
the
electronics
on
the
outside
and
having
again
some
way
of.
A
A
That
we
can
do
starting
today
we
can
build
that
heat
chamber.
We
can
use
four
by
four
four
foot
wide
trim,
coil
put
a
four
foot
wide
around
it.
You
have
to
do
two
slits
for
the
verticals
for
the
bed
axes
so
that
the
and
do
a
wiper,
probably
of
the
carbon
fiber
blanket
or
something
so
that
you
kind
of
close
that
area
in
there.
So
you
keep
the
temperature
in
and
the
top
is
all
enclosed.
We
can
use
even
polycarbonate,
attach
it
to
the
bottom
underside
of
the
extruder.
A
That's
the
concept,
it's
very
simple:
it
just
needs
to
be
done
and
nobody
is
building
like
what
we're
doing
where.
Where
is
somebody
building
that
kind
of
scale
machine,
not
a
lot
of
people?
So
the
idea
is
that
most
people-
just
don't
even
start
at
the
at
the
larger
picture,
been
my
critique
like
I've.
I
thought
that
I
mean
reprap
transformed
the
world
to
create
an
entire
3d
printer
industry
that
exists
today,
like
the
desktop
3d
printing
industry.
A
That's
amazing
at
the
same
time
that
there's
not
like,
maybe
one
or
even
not
even
one
product
like
you
mentioned
print.
This
clamp-
maybe
not
even
one
single
product
out
there-
that
you
can
make
money
with,
because
when
somebody
does
it
they
make
it
proprietary
or
whatever,
or
they
just
don't
think
that
way.
Most
people
are
playing
with
it
this
stuff,
so
that
potential
is
huge.
A
G
Already
here
so
so
the
electronics
or
chestnut
extracts
were
like,
and
you
know,
for
instance,
I
saw
that
the
pricing
was
way
off.
I
don't
know
what
it
really
cost
right,
but
I
saw
something
recent
that
has
a
480,
c
sure,
cotton.
You
know
whatever
not
a
problem,
that's
something
just
just
get.
E
A
petg
filament
maker
that
might
be
harder
to
scale
than
what
we're
proposing
to
do,
but
it
circumvents
the
whole
ripping
apart
filament
stage
and
just
cuts
it
up
into
a
band,
a
flat
piece
of
the
pcg
bottles
and
then
yeah.
A
A
Oh,
that's
pretty
cool,
is
it
open
source.
E
A
E
A
A
A
A
Yeah,
so
you
could
do
yeah,
but
the
infrastructure
to
get
you
know
the
process.
Engineering.
For
that
whole
thing.
That's
what
I'm
saying
it's
like.
What
we
can
do
is
much
easier.
D
A
Yeah
yeah
there's
a
thousand
ways
to
do
it
and
then
you
look
for
the
one.
That's
the
super
simplest.
That's
a
neat
idea
and
that's
what
that's
like
what
plastic
is
like?
If
you
think
about
steel?
Well,
steel.
Does
that
too
that's
called
like
hot
rolling,
but
if
you
have
a
much
higher
temperature,
you
can
do
that
to
steel.
So
plastic
is
actually
a
good
example
of
how
the
heat
gun
works,
magic
and
gets
you
the
feeling
of
how
you
can
actually
get
to
steel
if
you
can
handle
the
much
higher
temperatures.
A
But
the
same
applies
that
I
I
guess
that
for
me,
the
the
model
with
plastic
is
that
that's
quite
encouraging,
because
that
shows
me
that,
oh
yes,
if
you
have
now,
I
understand
the
process
of
how
you
would
rework
steel.
You
know
you
have
to
have
high
temperature
and
metal
rollers,
but
same
concepts
still.
C
I
know
a
precious
plastic,
they
they
basically
buy
a
specific
type
of
plastic,
so
they
don't
just
grind
everything
and
then
put
it
in
the
mall
and
so
they're,
even
using
mold.
So
it's
much
easier.
So
what
is
our
proposition
in
relationship
with
the
type
plastic
surface?
That's
like
a
question
that
we.
E
A
Formulas
so
there's
like
thousands
of
plastics
and
they
could
vary
by
as
little
as
like
the
chirality
or
order
of
molecules
all
as
there's
unlimited
number
of
plastics
and
the
question
here
is:
when
you
print
them,
are
you
able
to
keep
the
temperature
up
to
where
it's
near
their
melting
point
in
a
high
temperature
chamber
so
that
they
don't
delaminate
and
you
can
actually
get
a
meaningful
print?
So
the
idea
here
is
any
compared
to
theirs.
For
the
for
the
mold
part,
you
can
probably
do
most
plastics
with
that.
A
I
have
never
tried
it,
but
the
point
is
that
with
us
you
can
print
free
form
what
they
do
in
the
mold.
That's
the
idea.
It's
gonna
be
slower,
because
you
got
only
that
20
pounds
per
day,
extrusion
rate
with
one
nozzle,
which
you
can
scale
to
say,
180.
If
you
got
a
nine-headed
hydra
on
that
which
I
would
suggest
like.
A
You
can
do
the
high
temperature
chamber,
which
would
be
two
good
things
to
do
right
now.
We
can.
We
can
do
that
as
people
finish
up
the
other
axes.
I
would
definitely
get
into
it.
You
can
use
trim
coil,
that's
four
foot
wide.
That
would
be
perfect,
so
weld
up
a
frame
which
actually
would
propose
that
we
we
start
working
on
a
heat
chamber
so
because
that's
revolutionary
trim
coil
is
just
like
aluminum
or
steel
trim
that
you
get
at
menards
for
houses
that
you
can
use
as
the
surface.
A
So
the
idea
was
a
frame,
a
thin
layer
of
metal
insulation
in
between
fiberglass
works.
Fine
we've
got
rolls
of
fiberglass
in-house.
We
could.
We
don't
have
that
trip
four
foot
wide
trim
called
the
the
bed
we're
using
there
right
now
is
three
by
three,
so
four
would
actually
be
perfect
to
fit
around
it.
For
basically
like
a
four
by
four
frame
around
that
that
we
can
use.
A
No,
no!
That's
too
far,
that's
radiates
too
much
volume
there,
but
you
put
them
so
you
got
your
two
rods
from
the
z
axes.
You
put
your
put
a
metal
plate
on
that,
like.
F
A
Yeah,
yes,
like
that,
put
a
thin
plate
that
could
even
be
like
the
trim
coil
that
you
just
or
maybe
like
put
an
axe
across
it,
put
a
enough
structure
that
you
can
hold
your
lamps
on
and
put
the
the
bed
that
we
have
right
now,
just
right
on
top
of
that,
maybe
with
some
spacers
or
so
so
that's
a
that's
pretty
simple!
We
can
get
that
going
the
thing
that
yeah
we've
got
the
pei,
the
pi
comes
in
one
by
two
foot
sections.
A
We
can
glue
that
on
and
have
this
huge
printing
surface
that
we
can
use
now
or
for
future
projects
so
that
actually
the
pi
came
in
today.
So
we
can
paste
that
up
with
the
double-sided
adhesive
tape,
so
that'll
be
cool.
But
but
let's,
let's
take
a
look
at
this:
the
the
filament
maker
shredder.
This
is
trillion
dollars
worth
trillion
dollars
upon
success
and
you
get
it
for
only
five
hundred
fifty
nine
dollars.
A
My
god,
it's
amazing
and
it's
it
would
be
used.
The
explicit
intent
is
printing
things
like
wall
panels
for
this,
with
a
slightly
higher
printer
in
a
slightly
larger
workshop
on
the
next
pad,
but
over
you
can
print
your
towers,
your
your
pond
pond
lumber
and
all
that
which
there
that,
in
that
picture,
right
now
is
kind
of
pretty
much
crumbling.
It's
an
old
greenhouse,
but
that's
just
wood.
A
Now.
But
let's
look
at
the
schedule,
though,
so
the
schedule
was
the
large
3d
printer
build
for
three
days
and
three
days,
a
full
metal
printer,
which
means
attaching
a
mig
welder
head
to
the
gantry.
Well,
we
don't
have
a
finished
gantry.
We
got
to
finish
a
gantry
and
then
cnc
torch
table
which
gets
you
the
blades
for
the
filament,
the
plastic
shredders.
A
Shredder
gets
into
the
easiest
way
to
implement
it.
Take
two
hydraulic
motors
counter
rotating
with
fat
blades
and
like
one
or
two
inch,
two
inch
shafts
and
you
got
some
industrial
power,
like
thousands
of
pounds
per
day,
shredding
power
for
that
we
need
a
little
torch
table.
So
that's
where
the
torch
table
is
before
the
plastic
shredder.
A
I
would
put
the
full
metal
printer
after
the
shredder
before
the
flurry,
because
the
full
metal
printer
is
cool.
However,
it's
not
you
can.
A
D
C
A
B
Three
axes:
I
get
that,
but
is
it
really.
A
For
the
adding
the
torch,
once
we
have
a
gantry-
oh
you
just
add
it.
On
yeah
we
just
unbolt.
A
And
you
can
do
a
bit
of
that,
but
once
you,
if
you
do
like
any
longer
prints,
that
heat
will
travel
and
start
melting
your
parts,
I
just
think.
B
D
A
B
A
Well,
what
we
can
can
do
is
we
can
print
more
parts.
So
if
we
have
any
time
spare
time,
we
can
actually
assemble
more
axes
and
try
to
work
out
the
bugs
of
what
was
difficult.
D
B
A
A
F
A
A
A
A
We
do
precious
plastic
shredder.
G
Golf
carts,
okay,
I
was
like,
can
you
put
it
in
front
of
a
you
know,
one
of
those
tractor
attacks
or
something
and
use
it
as
a
road
tiller.
A
Yeah
so
look
at
this
dog
here
this
thing
I
mean
this
cat
is.
A
Do
this
that's
available
that
there's
free
cut
files
for
that
there
so.
A
Yeah,
okay,
now
I
get
more
yeah,
so
it's
like
that's
a
bit.
I
mean
you
can
do
okay,
I
mean
look
at
this
right.
There,
that's
actually
the
profile
of
those
blades,
that's
they're,
not
too
too
difficult.
I
mean
right,
so
I
mean
we
can
put
half
the
teeth
and
double
up
the
speed
of
the
motor.
So
we
have
that
option.
So
so
you
can
make
a
is.
A
B
A
A
D
A
B
A
A
D
B
A
Put
it
all
together,
yeah
like
as
in
because
we've
got
auto,
I
mean
on
the
what
we
have
on
that
head
right
now
is
auto
gas
feed
you
can
just
trigger
it
manually,
get
rid
of
the
auto
gas
solenoids
and
just
do
a.
I
mean
I've
done
a
torch
table
back
in
like
2000
like
seven
or
eight,
where
it's
just
ahead,
and
I
would
just
trigger
it
manually,
yeah
or
actually
just
keep
it
on,
and
it
just
cuts
yeah.
You
can
do
that.
Pretty
simply
I
mean
that's
literally,
you
got
that
head.
C
A
All
so
that
kind
of
experiment
we
can
go
with
that.
That's
you
know,
that's
easier
than
doing
it
by
hand
and
we,
if
we
have
a
working
gantry,
but
you
got
to
keep
it
up
off
the
like.
Maybe
just
you
know,
lower
it
put
like
a
heat
shroud
around
it
so
that
you're
not
melting
your
plastic
up
there
I
mean
you're,
gonna,
start
melting
that
so,
but
yeah
just
lower
it.
A
By
about
12
inches
the
idea
there
was.
We
had
the
water
bed
there
that
big
table
there's
actually
a
water
bed,
so
you
fill
that
with
water
and
then
things
won't
get
nearly
as
hot
as.
A
B
A
A
G
A
B
G
And
that's
necessary
for
the
under
two
inches,
but
about
one
I
mean
for
the
metal.
B
G
Or
so
do
we
need
the
gantry
to
create
the.
E
D
C
A
G
And
to
that
in
that
model
or
that
design
building
it
that
way
allows
you
to
pretty
much.
Do
anything.
D
A
So
yeah
it's
flexible.
You
can
arrange
the
x
y
and
z
in
any
kind
of
configuration
where
that
you
can
have
the
z
moving
up
and
down.
You
can
have
the
x
axis,
with
the
z
actually
mounted,
on
top
of
that
for
like
a
torch
or
weld
wire
arc
additive
manufacturing.
A
So
it's
just
a
universal
construction
set
in
the
xyz
direction.
So
just
three-dimensional
cnc
construction
set.
G
Well,
that
sounds
great.
Just
I
mean
you
may
notice
already,
but
I
was
you
know
encouraged.
I
was,
you
know
told
that
the
well,
I
guess
the
head
of
nights
come
out
mistaken.
G
You
know
they
start
their
intentional
community
like
seven
years
ago
in
the
area
and
because
they,
you
know
they're
very
technology.
You
know
technology,
they
pretty
much
built
their
own,
like
cement
factory,
their.
D
G
A
G
Seemingly
do
in
in
you
know:
okay,
build
a
lot
of
custom
tooling
as
well,
for
you
know
all
types
of
different
jobs,
but
yeah,
but
yeah.
So
you
know
these
types
of
things
are
very,
you
know,
encouraging
or
aspiring
to
know
that
you
know
there's
versions
of
what
we
have
that
in
one
unit
you
can
just
possibly
replicate
it
and
swap
things
out
and
have
production
lines.
G
A
B
A
Make
the
access
work
I
would
want
to
do
like
I'd,
be
into
doing
a
high
temperature
chamber,
because
that's
that
means.
A
A
Yeah
yeah,
so
a
bunch
of
people
get
on
axis,
make
them
work.
Campus
knows
the
wiring
and
all
that
we
can
wire
up
the
y's.
We
already
are
moving
the
four
z
axes.
The
only
thing
I
noticed
like
when
I
press
down
on
one
of
them.
I
could
press
it
down
with
minimal
amount
of
force
like
10
pounds
or
20
pounds.
I
was
expecting
50
or
70.,
so
we
just
want
to
just
verify.
A
Do
we
have
a
24
volt
power
supply
of
maybe
12
for
the
power
elements
there
or
we
might
want
to
add
another
one
and
add
another
24
volt
power
supply,
because
maybe
like
that
six
volts,
that's
getting
six
times
four
axes
that
might
be
pushing
the
limits
of
what
that
those
motors
need.
So
we
might
need
two
power.
A
A
So
it's
like
that,
didn't
sound
right,
maybe,
and
the
only
thing
I
can
trace
that
to
was
the
power
supply,
maybe
only
12
volts.
A
You
look
at
the
power
supply,
what's
it
say
on
it,
so
that
part
first
check
it
well,
I
can,
I
can
go
in
there
check
it.
It's
is
it
24,
and
then
we
maybe
do
the
test
again
to
start
moving
it
and
actually
measure
it
like
with
our
force
gauge
like
what
are
we
getting
exactly
for
each
motor?
That
would
be
good
data
points
as
a
start,
and
we
say
okay,
is
that
sufficient?
A
If
it's
20
pounds
each
that's
80
pounds,
the
bet
is
like
55,
so
that
might
even
be
enough,
and
otherwise
we
probably
want
to
divide
into
two
stepper
drivers
with
two
power
supplies,
because
maybe
we're
just
pushing
the
limits
of
the
single
power
supply
already
so.
A
Oh
yeah
right
because
we're
we're
still
we're
sucking
all
that
power.
Well,
it's
only
like
three
amps
so
that
power
supply
has
the
amps,
but
it
does
not
have
the
voltage
for
at
least
for
the
four
z's.
It
looks
like
right
now,
because
it's
dividing
them
it's
in
series,
so
each
motor
is
getting
six
volts
yeah
and
we
said
the
motor
specs
were
like
six
volts,
like
6.8
volts.
In
fact,
so
we
might
be
a
little
too
low
just
marginally
too
low
there.
So
we
might
just
need
to
divide
it
into
two
power
supplies.
A
A
No,
you
cannot
do
those
okay,
okay,
those
are
switching
power
supplies.
They
don't
work.
You
blow
them
up.
If
you
do
that,
so
we
tried.
A
A
A
A
So,
okay,
so
axes
finish
them
get
some
data
on
the
z-axis.
So
let's,
let's
troubleshoot
I
mean
the
motion.
That's
that's
the
first
thing:
let's
get
the
motion
make
sure
we've
got
that
68
theoretical
pounds
per
motor,
so
we
should
be
able
to
hang
down
like
40
50
pounds
on
each
motor,
which
is
like
you
know,
hanging
down
quite
a
bit
on
it
and
that
thing
still
should
be
moving
per
motor
like
a
person
should
stand
on
that
axis.
A
E
E
B
B
A
A
They
I
mean
they
don't
have
the
metal
bands
in
there.
They
have
like
nylon,
reinforcement
in
them
and
there
should
be
like
50
pounds
working
strength,
that's
kind
of
like
what
I
was
looking
it
up.
It
should
be
50
pounds
working
strength,
so
it
still
should
be
okay.
You
should
still
be
able
to
pull
like
and
we
could
maybe
get
a
data
point
like
use
our
scale
and
that
scale
is
only
up
to
like
50
pounds
or
so,
but
that
should
be
able
to
tell
us.
A
Well,
can
adults
easily
hold
that
for
one
really
better
yeah,
I
mean
you
can't.
I
don't
think
you
can
break
those
belts,
but
they
they
do
feel
a
little
weak
to
me
anyway,
like
when
we
put
the
the
belt
peg,
the
belt
cylinder
and
the
bolt
just
really
abraded
against
the
belt.
It
just
broke.
The
belt
broke
right
out
when
we
tried
to
tension
it.
A
So
you
gotta
be
careful
how
you
mount
the
bolt
in
and
you
can't
like,
scrape
off
just
actually
break
through
the
the
belt,
because
it's
not
like
the
steel
bed.
Sorry,
the
steel
belt,
the
steel
belt
that
doesn't
break,
but
it's.
A
C
A
You
push
it
the
bolt
in
there
into
the
belt
cylinder
too
hard
it
just
like
breaks
the
belt.
You
can
imagine
that
yeah
that's
metal
against
rubber,
so
okay,
so
axes
and
then,
as
soon
as
we
shake
down
axes
force,
we
go
to
the
heat
chamber
now.
What
what
do
we
do
like?
How
much
time
do
we
allow
ourselves?
So
we've
got
a
time
budget
of
it's.
What
is
it?
We've
got
the
fourth
ben.
When
are
you
leaving.
D
B
D
C
A
As
far
as
the
okay,
so
on
just
for
the
enterprise
people
here,
man
like
I,
wanted
to
do
stuff
on
like
construction
documents
that
we
submit
to
the
engineer.
That's
we
wanted
to
work
on
like
get
all
the
stuff
from
all
the
different
wiki
pages.
We've
got
a
lot
of
design
already
we
gotta
just
put
a
put
it
into
a
booklet
like
one
document:
okay,
here's
the
foundation,
here's
the
walls,
how
we're
doing
it
all
that,
like
we
wanted
to
be
doing
that.
E
No
well,
it
depends
like
I
what
I
want
to
do,
because
I'm
going
gonna
be
here
for
another
six
weeks
after
they
leave.
D
E
We
don't
have
any
food,
none
of
us
have
a
car
and
like
we
need.
We
need
to
solve
the
food
situation
to
keep
those
energies
up
because,
as
it
is
now
just
it
doesn't
work
it's
not
at
all
efficient
to
scramble
for
literally
be
hungry
all
the
time,
which
is
my
case.
E
A
D
D
E
E
D
A
So
we
tried
with
the
the
mennonites
here
that
we
knew
they
were
like
no
too
busy.
Now
one
person
that
we
we
had
coming,
they
were
gonna
assist
with
food.
They
never
heard
of
them
like
two
weeks
before
summer
x
started.
As
far
as
I
mean.
I
don't
know
I'm
kind
of
out
of
ideas
here,
because
we're
in
the
middle
of
nowhere
and
there's
not
not
a
good
place.
E
So
gary
rays
they
mostly
like
I
don't
know
if
they're
completely
close,
when
the
temperature
falls,
but
they
have
considerably
less
to
do
when
summer
is
over
since
they're,
not
mennonites,
they
might
not
be
on.
You
know,
tractor
farm
duty
or
whatever
else
is
happening,
so
that's
one.
I
tried
to
call
it
and
the
outlook
cafe
as
well
and
non-little
nights.
B
E
I
mean
they
have
taco
bell
kfc.
Oh.
A
A
Okay,
okay,
but
that
doesn't
prevent
the
idea.
A
Gotta
build
still
wanna
do
that
build
in
december.
I
still
want
to
do
like.
Can
you
guys
continue
working
at
5
30.,
I
mean
I'll,
be
there
till
5
30
in
the
shop,
providing
technical
support
of
various
kinds
and
then
cut
out
for
the
we
got
to
prepare
those
documents
and
stuff
like
that.
So.
A
For
the
engineer,
so
we
can
submit
to
the
the
across
for
the
house,
for
the
city
go
home,
we're
snapping
up
the
lot
the
lot
we
we
took
a
look
at
and
we
gotta
move.
A
I
mean
we
gotta
prove
the
model
with
the
model
that
people
can
build
effectively
and
and
actually
provide
needs
so
and
that,
as
far
as
the
timing
of
that,
ideally
like
yeah,
we
could
be
actually
breaking
ground
there
early
december,
but
that's
the
plan
that,
according
to
the
the
current
schedule,
we're
still
there
pending
any
stuff
like
lots,
not
buildable
or
something
I
mean,
we're
gonna
get
the
lot
put
up
under
contract,
and
if
we
find
that
we
cannot
build
what
we
want
to
build,
we
will
back
out
but
other
than
that
right
now
it's
go.