DIY Keyboard Using $5 Worth of Concrete (and 100 hrs)

Are you tired of keyboards being so lightweight?

(keyboard bangs)

Or do you want to feel like

you're tapping your fingers on the sidewalk?

Well, do we have a product for you.

The concrete keyboard!

(phone rings)

Wait, what do you mean

they haven't even started making them yet?

Again?

I've already sold five thousand.

Tell them to get started.

(dramatic music)

(hands clapping)

(Katelyn laughs)

Oh, oh, oh, you're here. Oh, hi.

Um, Today we're making a concrete keyboard

and we've made several weird keyboards in the past.

We've made it all resin one, we've made an all wood one,

but an all concrete keyboard

introduces some interesting challenges.

Yeah, concrete usually isn't made to make things

with such thin walls that are gonna hold up

to vigorous smashing when you're angry

(computer smashes)

and you're losing your video game.

So we have a few different ways to strengthen it.

We have PVA glue, fiberglass and we have additional sand.

Let's go ahead and start with just a basic concrete mix.

So the concrete mix we're using is a vinyl concrete patcher.

It's already designed for thin use case scenarios.

But is it designed for key caps?

No, not at all.

Like, what we do a lot on this channel is

use existing things for things they were never meant for.

(screams)

Alright, that looks good.

But one thing about concrete, while it is pretty strong,

it's not great at not cracking.

Yes.

Under strain.

And we really worry about

making the stem of the key cap out of concrete

because you really have to shove it onto that key cap.

So what we're gonna do is we're gonna add

a plastic 3D printed stem before we add the concrete.

(light music)

Now how are we gonna get this concrete into here?

With our vibrator, of course.

(Katelyn laughs)

It's seen some use

(both laugh)

with the other concrete in the past.

Yeah.

Do you wanna explain Katelyn?

Yeah, yeah.

Vibration is used to get concrete into the little crevices

and it also helps with removing bubbles.

We're gonna use it for these little tiny molds.

EVAN: Yeah, now watch this. It's not moving.

Oh yeah. Look at that.

(buzzing)

Oh, it's moving.

EVAN: Look at that, simple application of a vibrator.

How do we get it down? With good vibes.

Whoa

KATELYN: Whoa.

EVAN: Whoa, whoa.

KATELYN: It's turning it into soup.

EVAN: Yes.

KATELYN: Oh, see the bubble pop?

And see it like lowering into the mold?

I love how we're minutes into the video

already busting out the vibrator.

I mean.

KATELYN: Oh my gosh, it went down so much.

EVAN: Look at that. That's magic.

I'm realizing that I should probably put down some paper.

KATELYN: Yeah, this is gonna be a messy project.

It was a little bit too juicy.

(beep)

So I just sat down to make more of these

and I have this spare vibrator in my back pocket

and it started vibrating.

I was very surprised.

EVAN: Oh my gosh.

KATELYN: It's one reason

we're working a little bit quickly.

You know, concrete has a cure time

and we wanna get all of our tests into the pressure pot.

Aside from a little control, we're gonna leave out.

We've never put concrete in the pressure pot before,

but that should reduce bubbles.

So we're hoping that the reduction of bubbles

will also make it stronger.

And we need every bit of strength we can get.

Hey, how do you turn it off?

Long hold.

Oh, that was- I put in the pulse mode.

So the guides I read online say

that you should replace

about 10 to 25% of your water

with PVA glue instead

and that adds strength to concrete.

Just like you'd imagine glue would add strength to concrete.

Interesting.

It just makes it stick more.

KATELYN: So we're not measuring.

EVAN: That might have been too much. Who knows?

KATELYN: I thought what you were saying, like,

you should replace 10% of the water.

That meant we were gonna measure.

I did like 50% of the water.

KATELYN: Yeah that seems like a lot of glue.

Okay, okay.

Maybe I'll.

(Katelyn laughs)

You can't talk about percentages

and then not measure.

EVAN: Okay. I'll, I'll add more

concrete so that we can add more water.

KATELYN: Yeah.

It's like we laugh, Teehee, it's vibrators

but like it works so well.

EVAN: This, it works so well.

There's nothing else that would work as well as this.

KATELYN: Like a vibrating table is way too

big for these little guys.

EVAN: Yeah.

Mask up because it's fiberglass time.

I'll actually be precise with this one.

KATELYN: Mkay.

3% by weight.

So this is 20,

3% of that would be 0.6.

I don't know.

You're such a precise boy.

EVAN: We can probably de-mask now.

KATELYN: Okay.

EVAN: Oh yeah. You can already see a difference.

Wow!

KATELYN: Oh yeah, It's um, fibery.

EVAN: Yeah. Look at that.

KATELYN: Okay, I see little hairs.

Whoa. It's so hairy looking.

EVAN: Get in there.

This is not flowing as well.

No.

So maybe fiberglass is better for bigger molds.

Yeah.

Get in there.

KATELYN: I'm not very hopeful about this one.

EVAN: I am not hopeful. It's not flowing.

KATELYN: No.

This is why we experiment.

What if we added more sand though?

(upbeat music)

KATELYN: Is there a ratio?

I'm sure there is.

There you go. What about that?

KATELYN: Sure.

(ding)

EVAN: I think also this might lead

to like a more industrial look for the key caps.

Especially because we might end up having to sand

it some and it might reveal sand.

KATELYN: Sand the sand?

We're gonna sand the concrete. Alrighty.

Let's do it.

KATELYN: Let's do it.

EVAN: Alright, This is flowing nicely.

KATELYN: Yeah, much better.

Yeah, the sand doesn't seem to be prohibiting it.

EVAN: No.

KATELYN: Okay, baby.

Go, go, go.

Pressure pot time.

(countdown dings)

(air compressor revs)

(hands clapping)

Demolding time.

So let's start with the controls.

KATELYN: Yeah.

Now I think that demolding these,

we need to kind of peel them out.

I want to push these in the center

and I want four of my fingers to be on the sides.

KATELYN: Mm.

EVAN: This is my like fifth finger that I don't have.

You have five fingers?

Yeah, but it doesn't work that way.

Okay, ready?

KATELYN: Yeah.

(snap)

Oh. Oof.

Oh no, that was excess anyways.

KATELYN: Okay.

EVAN: Whoa, Okay?

KATELYN: Okay.

EVAN: Okay, Okay. Did I hear a crack in there?

KATELYN: I heard a little crackle.

EVAN: Oh, yep. Oh yeah.

KATELYN: Oh.

EVAN: Yeah. We lost.

It was, it was because that big air bubble right there

that caused a weak point.

KATELYN: Yep. That's what happens

when you don't put it in a pressure pot, I guess.

Close your eyes.

Okay.

Are we doing something different

for the next ones we're gonna demold?

Yeah.

Well we need to, we need to release the

pressure from this pressure pot.

Okay.

Do I need to cover my ears?

No.

(air blows)

(both laughing)

Is there not enough flow? Or is that too too much flow?

I think it's not enough anymore.

Aw. You know, honestly,

that does reduce the volume a lot.

It does.

(air blows LOUDLY)

Ah

Oh my god.

(air squeaks)

Oh, my god.

Oh my god.

What happened?

Right after I said that?

Oh my god. That was terrible.

That was so bad.

I threaded it in here.

That's awesome.

How's your heart?

It's better than ear drums.

EVAN: Woo, wow wee.

Look at the sand.

KATELYN: Whoa. It's very grainy.

I wonder if its.

EVAN: This is the sand.

This is the control in there.

Oh, that glass fiber's looking not good.

KATELYN: Oh yeah. What about the PVA glue,

the PVA glue looks pretty good.

Honestly, the PVA glue is

the one I was most hopeful of.

Hopeful of.

Yeah.

KATELYN: Because it wasn't adding anything with texture

that could prevent it from getting down into the crevices.

(metal clanks)

EVAN: Yeah.

KATELYN: Let's start with the plain concrete.

EVAN: Alright, let's do it.

(instrument strumming)

Yes.

KATELYN: There's a tiny little void.

EVAN: Overall success.

Did that fricking work?

KATELYN: Yeah.

EVAN: Wow, fiberglass surprising.

KATELYN: Now the sand does add

kind of a fun industrial texture to it.

EVAN: It does.

Really good.

KATELYN: Oh yeah.

EVAN: It feels strong. Okay.

Okay. Let's do the sanding test.

Trimming and sanding.

(pliers clipping)

KATELYN: I don't think we necessarily have

to sand down two of each of these.

EVAN: We'll just choose the best one.

KATELYN: Yeah.

(sandpaper scratching)

(rotary tool buzzing)

KATELYN: What is that?

EVAN: It's a rock.

KATELYN: Oh.

EVAN: It's a big rock.

(rotary tool buzzing)

KATELYN: Ah!

It just exposed like a fluff.

(rotary tool buzzing)

I think we can eliminate one right off the bat.

Fiberglass.

KATELYN: Fiberglass. It just wasn't sandable.

EVAN: No, it did like the, the little

Fluff

EVAN: Fibers puffed out.

Sand is interesting because

it has it the most industrial look.

How was it to actually sand it?

It wasn't bad to sand it.

Okay.

Once you got going,

I was able to make my way through it.

KATELYN: What about the control?

EVAN: Control was the easiest to sand,

which in some ways is good, but also concerning.

It also means it's less strong.

EVAN: Yes.

KATELYN: Okay.

EVAN: So I think,

And it looks beautiful.

KATELYN: It is the prettiest PVA glue.

This thing is incredibly hard and dense.

Sanding this, I could like feel the motor straining

be like heated up and stuff.

Oh my god. I think the bigger question is,

what's the perfect balance between strong enough to hold up

for what we want yet not so strong

that it's terrible to sand.

Do we need to do a strength test?

Let's put them on a keyboard and type on them.

Vigorously.

(hands smack)

Alright. First up is the control.

(intense music)

Next up is sand.

(intense music)

(keys clicking)

And now PVA glue.

(intense music)

(keys clicking)

Honestly, I feel like the act of removing them

and putting them on is more wearing on them.

Ooh. Okay. Yeah.

Than typing.

EVAN: Alright. PVA glue.

(key dings)

KATELYN: Throwing it also.

EVAN: Sanded and control.

I mean honestly they all held up pretty well.

To me it seems like the easiest would be do just the

control concrete for the majority of the keys.

Because that's the easiest mix to get consistent.

It looks nice. It's strong enough.

We could always try all of them with the control.

And if one breaks, we make it again with PVA.

Yeah. Yeah.

Yay.

Yeah.

(lips smack)

It ended up not needing any of the research.

I'm glad we did it too so we could learn.

I am too, I am too.

Now can we make a case out of concrete?

So to make the concrete case,

we are gonna use this mold from our all resin keyboard,

but we had to make some modifications to it.

While resin can be screwed into

concrete will crack

if you screw into it.

So instead we added these little 3D printed plugs

that we can screw into instead.

Commence the jigglin'.

I'm gonna start by putting some

of the concrete into these like crevices.

It's so hard to look at.

My eyes don't know what to do.

I almost need to like stare into space.

Ah!

(vibrator shakes)

It jiggled the whole clamp off.

It did

(light music)

(gasps)

EVAN: So much vibrations.

KATELYN: I'm being vibrated.

I'm being vibrated against my will.

I think we have the volume pretty good.

EVAN: I think that's good.

Say hello to my big friend.

His name is Max. Into the chamber!

Open wide mMax, Oh.

(metal clinks)

(air hisses)

Let it all out Max.

(machine squeals)

That's worse than the chicken.

I hate it.

(air noises)

(Music plays )

EVAN: It looks-

KATELYN: There's still some bubbles.

I, which surprises me.

EVAN: Yeah.

KATELYN: I thought all the bubbles would be compressed.

EVAN: Right? That's interesting.

KATELYN: That's weird.

EVAN: Alright, I'm gonna slowly

and carefully work this out.

Release in kind of one edge at a time.

It's worth the time if it's a good cast.

KATELYN: Ooh. Feels like it's releasing pretty well.

EVAN: Yeah.

(tinfoil shakes)

Oh nice.

KATELYN: Oh, still looks a bit wet in there,

but it'll continue curing.

EVAN: Yes. Oh yes

Yes, yes. Look at that.

KATELYN: Whoa. It's so wet.

It's so wet still.

EVAN: I'm excited to see

how this develops as it dries,

but I think that's pretty successful.

And look at the little plastic nubs.

KATELYN: The little plastic nubs. They're embedded.

They're embedded. Very cool.

So you'd think our next step would be making a bunch

of concrete key caps.

(crowd cheers)

And we wish it was that simple.

(crowd awe's)

But unfortunately we have some issues

we're gonna have to address.

We have some issues with the molds.

Most of them are totally good.

They're the same thickness as our test pieces.

We feel pretty confident.

But there are three in particular

that have much thinner tops than the tests we did.

And we're worried that

I'll pick it up later.

And we're worried that the concrete would

break when we demold it.

EVAN: So what we're gonna have to do is

take resin key caps.

We already have, add resin inside of them

to make the top thicker.

Of course we had to add resin to a concrete project

and then recast them again in silicone,

making new molds that'll make stronger keys.

KATELYN: Got enough leveling jigs.

(upbeat music)

EVAN: Oh yeah. Pure resin.

KATELYN: Looking good.

Gonna make you thick.

EVAN: Take a look at that.

I think that's like just

about the same level.

KATELYN: Okay.

EVAN: Well I think that's pretty good, honestly.

KATELYN: Cool.

EVAN: All right, cure.

So I went ahead and made a mold

for our new resin keys out of Legos

'cause it's fun.

Also, doesn't look like a face.

KATELYN: Yeah, I was just noticing that.

It's Gooping time.

You ready to goop?

You know I'm always ready to goop.

Me too. I'm always ready for the goop.

Always ready to welcome the goop into my life.

EVAN: Our lives.

KATELYN: Mm. Thick milk.

Semi congealed ice cream.

Other things.

EVAN: Condensed milk

KATELYN: Glue.

EVAN: Lube.

KATELYN: Industrial lubricant.

EVAN: Industrial bearing grease.

KATELYN: Congealed bacon grease.

♪ Oh, it's beautiful, the goop ♪

It's like a melted gummy bear. Or like a slime.

It is slime.

It is. It is slime.

Goop, goop, goop

Goop, goop, goop.

Yes. Let the goop take over.

Praise goop, praise goop life.

Oh, so luscious.

KATELYN: It's a beautiful chocolate bar.

EVAN: Added a nice thick vein of chocolate

Thick vein.

KATELYN: Mm. Oh, to be buried in goop.

Be like a sensory deprivation tank.

Sounds horrible actually.

That it solidifies around you,

into a thick rubber.

Sounds like a nightmare.

And I designed this to perfectly fit on top of here,

which then perfectly fits inside of Pascal.

So many pressure pot sessions in this video already.

And there's so many more to come.

So many more to come.

Yeah.

KATELYN: Can you believe there's a (indistinct)?

Anything good on?

Eh? Nothing. Great.

What if your wireless bill

doesn't have to be so (beep) high.

Wait, let 'em cook.

Well with our partner Mint Mobile, it doesn't have to be.

But it's too much of a pain to switch.

It takes less than 15 minutes to switch.

Can the commercial people hear me?

No.

You don't even have to change your number.

Which we already know is one (beep).

EVAN: Mint Mobile even provides family plans

that you can easily manage.

I sure miss my family.

I've been trapped in this void for ages.

EVAN: Why should you keep paying more than you have to

for access to the same network?

Mint Mobile is just $15 a month.

Only 15 bucks? Only 15 bucks?

Yep.

Mint Mobile doesn't have stores

or sales salespeople, so they keep prices

as low as they can go.

Go to trymintmobile.com/evanandkatelyn

or scan the QR code on screen.

Select your plan and enjoy saving money

while using the nation's largest 5G network.

EVAN: And right now, new customers

that purchase a Mint Mobile plan

before May 31st will also receive

a six month subscription

to Paramount Plus on Mint.

Thanks for helping us save so much money

mysterious TV people.

No problem.

It gets lonely here in the void.

We're actually looking for friends.

Mint mobile sounds cool, but these two creep me out.

(remote clicks)

(air squeaks)

(horn blows)

How long have you been planning to do that for?

I just saw this on the ground.

I probably shouldn't be putting it in my mouth.

(high-pitch whistle)

Stop it. Stop it.

(horn blows)

That's truly one of the worst noises I've ever heard.

It's the worst.

EVAN: Ooh, it looks good.

KATELYN: Nice.

EVAN: Watch this.

I designed them of removable bottoms.

KATELYN: Ooh.

EVAN: And fully disassemble

into their each individual chunks.

EVAN: Yeah. Legos.

Alright, now I should just be able to push them through.

Yes.

KATELYN: Oh, satisfying?

EVAN: Success.

KATELYN: Ooh.

EVAN: Oh, how crisp and beautiful is that?

KATELYN: That looks nice!

EVAN: I'm really proud

of this mold making technique, honestly.

EVAN: Yeah.

Nice! Two for two.

EVAN: You can feel the Legos

flexing a little bit.

(Katelyn laughs)

Oh yes. Oh yeah!

KATELYN: Oh yeah!

EVAN: Yes.

KATELYN: We did it.

EVAN: That's heckin' beautiful, baby.

KATELYN: They're all clean.

(hands clap)

(game show music)

(countdown dings)

EVAN: Oh, shoot. Oh, shoot.

KATELYN: What?

EVAN: God dang it.

KATELYN: What's happening?

(slams table)

KATELYN: Oh, my god.

We forgot the, the plastic.

And the, the fricking.

(mumbles)

Can we? Yeah. We'll just clean 'em.

We'll just clean 'em out. It's fine.

It's fine. It's fine.

It's fine. It's fine. It's fine.

It's fine.

How many people were screaming at their screens?

Come on, be honest.

Who? Who actually remembered?

Who, who remembered?

Yeah. Who? Amongst ye?

(upbeat music)

KATELYN: Mine died.

EVAN: Oh no.

Can't have your vibrator

die in the middle of it.

I know.

We're in the middle of it.

We haven't even finished.

We haven't even finished.

Can we make do with one?

We'll make do with one.

KATELYN: Okay.

We're not that type of channel.

I swear people,

as I clean my vibrator.

EVAN: Alright, They're all charged up.

KATELYN: Cheers.

(upbeat music)

Okie dokie. In they go.

(metal clanks)

Close your eyes.

NARRATOR: Oh (beep), here we go again.

(harmonica notes)

Oh wow. You're a musical genius.

Oh my gosh.

(harmonica whistles)

Give me a little Jaunty Tune.

No, I ran it out. I ran out. That was fun.

That was, that was the least bad of all of 'em.

(harmonica notes)

Oh and then blow out and blow in.

But do it on the same, in and out on the same one.

(Rick Roll tune)

It's different notes.

Different notes.

Wow.

Wow.

Musical marvel.

And with that, let's check out

how our custom molds did.

I forgot how messy we were.