Pot Melts – Weight of Glass Required

Circular pieces
This table assumes that a 150 mm diameter pot is being used, and assumes that 125 grams of glass will be left in the pot. Larger diameter pots or even pot trays can be used, but more glass will remain in the container. The following table gives the desired diameter of the melt and the weight of glass needed to achieve an average 6 mm thick result. To achieve a uniform six millimetre thick disk will require long soaks at both melting and fusing temperatures to allow the glass to even out in thickness.

50 mm diameter disk requires 154 grams of glass
100 mm diameter disk requires 243 grams of glass
150 mm diameter disk requires 390 grams of glass
200 mm diameter disk requires 596 grams of glass
250 mm diameter disk requires 861 grams of glass
300 mm diameter disk requires 1185 grams of glass
350 mm diameter disk requires 1568 grams of glass
400 mm diameter disk requires 2015 grams of glass

Thicker melts
Of course if you want a thicker pot melt — one that is confined so that it cannot grow larger, only thicker — you can use the following method to estimate the amount of glass required.

Choose the diameter wanted from the above table, and subtract 125 from the weight of glass required. Then multiply by thickness wanted divided by 6 mm. Add back 125 gms — the amount that will be retained in the pot — and you have the required amount.

For example: a 200 mm disk of 6 mm requires 596 gms. You want a 12 mm thick disk of 200 mm.
First subtract 125 from 596 to get 471 gms. 417 gms times 12 equals 5652. Divide this by 6 mm and you have 942 gms required. Add 125 gms — the amount left in the pot — and you have a requirement of 1067 gms for a 12 mm thick disk of 200 mm.


Rectangular pieces
These are easier to calculate than discs, as the calculation is length times height times depth (all measurements in centimetres).  

If you are making a billet and using an empty margarine pot of 7 cm wide, 12 cm long and 7 cm high you will need enough glass to fill a volume of 588 cubic centimetres.  As the specific gravity of glass is 2.5, you multiply the cubic centimetres to give the weight required in grams — in this case, 1470 gms.

If you wanted a 6 mm tile of 100 mm square you would need 150 grams of glass.

To make a 1 cm slab of the same size you need 250 grams of glass.

To make a billet of 5 cm by 10 cm square you need 1250 grams of glass (this is pretty close the the maximum that can be loaded in a 12 cm diameter Pot).

To make a small sample billet of 2 cm thick by 4 cm by 8 cm you need 160 grams of glass.

A billet or pattern bar of 5 cm by 10 cm by 5 cm needs 625 grams of glass.

Supporting Overhangs on Moulds

In general, the blank should be no larger than the thickness of the glass over the mould. So a 6mm blank would have no more than 6mm overhang.

In the case of steep sided moulds, the glass should be entirely within the mould to avoid any hangup on the edge, leading to uneven slumps and needling on the edges.

But, if you need the glass to be the size of the mould, you can make a collar to go around the mould, which will support the glass while it begins to slump into the mould.

Make a donut shape that will fit around the mould (whether round, oval or rectangular) and extend beyond. Support the collar on kiln furniture to be as high or slightly higher than the top of the rim of the mould. This makes a kind of drop out ring, allowing the glass to drop into the mould.

Donut ring suitable for placing around a circular mould

This arrangement is suitable for placing around a mould of the same diameter as the interior of the ring

Make sure that the collar is well covered with kiln wash to ensure the glass can move along the fibre board. This includes both the surface and vertical edges of the collar.

As the glass softens and begins to fall into the mould, the glass at the edge does not have the weight to bend down and so raises off the collar and begins to slip into the mould.

And finally, you need to ensure that the mould is not so steep as to trap the glass inside. This is more of a concern on steel with its greater expansion and contraction than ceramic.

A steel mould likely to trap the glass inside with its vertical sides

Super Glue

Super Glue

by Morganica

There are multiple cyanoacrylates (superglues) on the market, and they will give very different results. Gel superglue formulations usually have some type of rubber or fumed silica additive to make them thicker, and the additive usually doesn't burn out. That's probably where the "superglue leaves a mark" originates. Usually the cheapest possible superglue is best for temporary glass holds because it'll mostly be additive-free.

The glue will burn out around 700F or so, so it shouldn't be used to position the glass against gravity. I disagree, however, that it should never be used. I buy cheap superglue by the carton and use it in everything from temporary casting assemblages to making glass boxes for frit panels to tack-fusing. It is the best way I know to hold wobbly pieces in place until you can assemble the rest of the glass around it.

Some tips for using superglue:

• You are more likely to get whitish residues if you let moisture get to the superglue while it's drying, so keep the glass surfaces as dry as possible and don't put a superglue-assembled piece on a wet kiln shelf.

• Always try to put the glue under opaque or dark glasses, just in case something goes wrong.

• Use the smallest amount possible. Don't flood an area with glue and lay the glass on top - that will almost always leave too much glue on the glass. Instead, I assemble the glass and put a drop of glue right where the two glasses join. Capillary action sucks just the right amount of glue into the joint.

• If you wipe excess glue away with acetone, be careful about which acetone you're using. Some types (such as nail polish remover) can have additives that leave residues on the glass and make the problem worse. If the glue is in a readily accessible area, it is usually better to wait for it to dry, then peel it off the glass with a razor blade. Only use acetone where there's texture or something else that makes the glue difficult to remove. And in any case, don't worry much about removing superglue right on the surface--it will burn off.

• Superglue joints will NOT support the weight of your glass, i.e., never, ever lift your assemblage by a superglued-on piece of glass. Common superglue is actually a lousy glue for glass--which is why it works as a temporary hold.