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Topic: glass bed material

For my bed material, i have been using a pile of 6 inch squares cut from 16x20 framing glass covered with kapton (hairspray, or naked, depending on what I'm printing) .  I've uses these same pieces for years without breakage.

I keep seeing people say you must use borosilicate glass (pyrex,etc) for your heated bed.  I understand it is for safety aspect, but having a bed crack during a print doesn't seem to be overly dangerous to the print or the operator. 

When covered in tape of some kind, the glass wouldn't go too far if it cracked.  Even if  you were printing on plain glass, the print itself should hold the pieces together after a few layers.

Are there other reasons you should use one glass over another i am missing?

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Re: glass bed material

I sat on our workbench's 12x12 regular glass plate about two weeks after we got it. Wearing jeans and was not hurt or scratched at all, very cheap to replace. Never broken a plate from actual use though.

FuseBox 1.5 CoreXY - e3dv6 - Graphic Smart Display
Solidoodle 2 - e3dv6 - Hobb Goblin - e3d Titan - lawsy carriages - Direct Drive Y Axis - T8 Z axis - OctoPi

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Re: glass bed material

I do not think there is any question that borosilicate glass is the the best choice for a heated glass bed.
However experience has proven that inexpensive window glass is inexpensive and works just fine.  I have been printing on the same piece of window glass for about a year and a half . So no real need to spend $25 on a single piece of glass.
It comes down to personal choice.
Tin

Soliddoodle 4 stock w glass bed------Folger Tech Prusa 2020 upgraded to and titan /aero extruder mirror bed
FT5 with titan/ E3D Aero------MP mini select w glass bed
MP Utimate maker pro-W bondtech extruder
Marlin/Repetier Host/ Slic3r and Cura

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Re: glass bed material

personally, i think the borosilicate glass thing is a bit of a myth...and a waste of money.

I have been using mirror tiles cut to bed size (cut myself using a cheap glass cutter) and they work fine, no cracks or breaking over a years use.

box of six 12" x12" plain edge mirror tiles: $12-15
cheap glass cutter: $2-3
4 printers with mirror tile beds, and heavy usage with no breaking: Priceless. wink

SD4 #1 & #2 - Lawsy carriages, E3D v6, Rumba controller board, mirror bed plate, X motor fan, upgraded PSU & Mica bed heater
SD4 #3 - in the works ~ Folgertech FT-5, rev 1
Printit Industries Beta Tester - Horizon H1

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Re: glass bed material

After digging more, the only real non-safety benefit is the thermal expansion coefficient.  Borosilcate is practically zero (which is why it doesn't crack easily from heat stress)

This apparently translates to 3d printing is that when the plate cools down it stays the same size.  when ABS cools it shrinks significantly.  Therefore the prints should self separate once cool.  This is something I've never seen with my thin frame glass.

that MIGHT be worth the money. Separating ABS from kapton is one of my least favorite chores.... assuming this is also not a myth.

(aside:  Why do my corners always seem to come up early or be permabonded to the kapton smile )

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Re: glass bed material

Roger the mirror tiles. And I've not had any shatter when I wash them while they are hot.

Robox printer, HICTOP (Prusa i3 variant) Model 3DP17 printer, ELEK 2.5W laser engraver, AutoDesk 123D Design, Windows 10

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Re: glass bed material

I do use borosilicate, and ABS will either pop off on its own, or only be held lightly by the glue stick I apply, once it's cooled below 45-50C.

The other "magic" thing about it, and the initial popularity of it for Reprap, was a demonstration made by Adrian Bowyer of printing PLA on clean plain borosilicate. In my limited trials it's a little hit or miss, both by which specific glass I use (I have a few and swap them out) and how squeaky-clean it is before printing.

For my money with PLA I'd rather just use the glue stick then, too. But the expansion aspect is probably why the PLA does not just pop loose with cooling.

Don: Folger Tech 2020 Kossel Rev A + Borosilicate + Snow Effector
        Davinci 1.0 + Repetier : Filastruder
        SD3 + RAMPS + Lawsy Carriages + E3D + Borosilicate + ... : Cupcake

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Re: glass bed material

Interesting.  there must be something behind the auto-detach and thermal expansion .   I print PLA on the plain acetone cleaned glass.  If you print the first layer at about half speed it seems to work consistently.  I have not done a lot of PLA though.

The funny thing is my PLA DOES auto-detach from plate glass. I'm guessing the opposite is happening.  PLA barely shrinks, while plate glass does. 

I need to do some math to see what kind of shrinkage we are talking about here.  Definitely sounds like it would be worth ~$10 for a test boro plate.

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Re: glass bed material

ok .. here are some number (from http://www.engineeringtoolbox.com/linea … d_95.html)

units: 10^-6 m/(m K))

ABS:            73.8
Plate Glass:  9.0
Pyrex:          4.0

PLA is oddly missing from the internet(at least my brief attempts), but i found someone's MSDS that listed their "nylon grade" PLA at 9.0

Given a 150mm build plate and a 150mm print:  This means that given a cool temperature of about 50C (when i get impatient and start poking at the prints) and hot of 100C (my build platform temp of choice) that means that while cooling:

ABS will shrink 0.5535mm
plate glass will shrink 0.0196mm
borosilicate will shrink 0.0087mm

<values calculated with tool at above link)
It seems that although borosilicate changes at less than half the rate of plate glass,   The percentage difference between ABS and either make the difference seem moot.

Assuming we calculate stress at extrusion temperature (195c):

ABS will shrink 1.0515mm over 150mm extremely quickly when it hits the build platform (195 to 100c).

So the math says that for ABS (assuming I'm understanding it, which is rarely) plate vs boro differences are probably moot once considering other factors.

Now assuming that PLA value i pulled randomly is vaguely accurate.  Plate and PLA shrinkage basically identical.  Boro on the other hand shrinks more than 50%.   Does that translate to more self separation than ABS?   

Also:
Kapton (which is polyamide tape ..i think?)  rates at 110 ..so it moves more than ABS.   

I cant find PVA (which is the basis for pretty much all the hairspray, glue stick, elmers based washes)

PET (which according to amazon sellers is the greatest newest thing for 3d printing) runs at 59.4

So summary, I'm not surprised the kapton tape adhesive fatigues as it is moving almost as much as the prints do.


So now the new question is:

What is the optimum difference in thermal expansion that will ensure sticking while at the same time allowing a high probability of self seperation?