Starting

“Where should I start cutting the glass from the inside or outside of the cartoon?”

Once the colour selections are made, you can start the cutting in what ever order suits you. Some cut colour by colour. Others cut the glass in the order that fits together. This usually means the main image is cut first and the pieces laid up on a glass easel to determine their interactions. When satisfied, the background or in-fill pieces are cut and fitted.

“Where should I start building a panel?”

When starting the assembly, begin at a lower corner. Whether left or right will depend on whether you are right or left handed and the way the panel fits together. Although sometimes it can be easiest to build from the top toward the bottom. Starting in a corner, together with battens or supports for the outer edge  will keep everything in place as you work.

When working on an oval or circle, you can use a multiplicity of nails around the outside edge to hold the glass pieces. An alternative is to cut the curve into a piece or pieces of float glass and fix this to the work board to hold the glass. If you do this use the outside of the cutline so that there is space for the heart of the perimeter lead.

Separators for Steel

Steel moulds, whether stainless or other steel, require separators as glass will stick to hot metal.

The preparation of steel is a little different from ceramic or fibre moulds. First the steel has to have the oil coating removed. This can be done by sanding, sandblasting or by heating to about 550C.

The separators can be just normal kiln wash, boron nitride, or fibre. When using kiln wash or boron nitride, the steel needs to be heated – about 200C should be enough. Too hot and the water will boil leaving gaps in the coating. If the metal is too cool, the kiln wash will drip. A little experimentation will be needed to find the right temperature for your purposes. Remove the mould from the kiln and brush or spray on the separator. Return to the kiln to heat up again and apply the separator again. Continue this until an even complete covering of the metal has been achieved. It does not have to be thick.

Fibre paper works best on cylinder or wave moulds with curves in one plane only.  Bowl shapes lead to wrinkling of the fibre papers and marking of the glass with wrinkles.  This applies to the Bullseye Thinfire too.

Just as on shelves and ceramic moulds and as long as you fire below 700C, you can use the coated mould over and over with no problems. Once you fire hotter than 700C, it is best to remove the old kiln wash and put a fresh coating on before firing again.

Single Layer Slumping

Contrary to expectations, single layers are more difficult to slump than multiple layers, as you do not have so much mass for the gravity to act upon. Especially if the pieces are small, the slump will be slower than for large pieces.

It is possible to take the glass up in temperature very quickly without breaking it, but that will not give you much control over the slump. You may not get the curve you want, and you may over fire it so that it distorts.

If you feel the need to go quickly, slow down from 630C to a rate of advance of 40 or 50C/hr. For the first firings and new moulds, observe how the glass settles into the mould. This will give you the top temperature.  In future you can back off 10C or more and soak for about 30 minutes to get less marked pieces.

You can drape or slump a single layer over a mold or drape two overlaid layers on or over a mold – assuming the layers are 2 mm to 3 mm thick.  Draping double layers together is a popular way to make two colour double layered handkerchief vases with art glass. But when you fire one piece of glass on top of another, the air between the two pieces acts as an insulator, slowing the heat transfer between the two pieces of glass. So you should advance at about half the rate you use for a single layer. Anneal soak and cool for 6 mm glass.

Note that there are different behaviours between single and double layered pieces.

Draping and slumping processes work by taking advantage of the action of gravity on the just pliable glass. This means that thicker, heavier glass slumps and drapes more quickly than thin light glass does. You will need longer soak times for thin glass than for thick glass. You can go higher, but the effects become less controllable.

The size of the opening of the mould has a strong effect when slumping single 3 mm layer glass. You need much more time – often as much as three times as long as for a 6 mm piece over a small diameter.

The effect of the shape of the mould has little effect on simple shapes. But when angular or complex curves are part of the mould the single layer will have much more difficulty in conforming to the mould than the thicker pieces.

Annealing the 3mm piece can be a bit quicker than for 6 mm, but a reduction of more than a third in the soak time and more than doubling the cooling rate may cause problems.

Short Cuts in Fusing

There really aren't any. Trying to do two things such as fusing and slumping in a single firing requires compromises that can make the result unsatisfactory. Normally, trying this uses more time and glass in having to re-do things.

Referring to what heat does to glass and when is important in thinking about what you are trying to achieve. Bullseye in their tech notes give the information in both concise and visual ways.

Fixing a Bubble

It is often recommended that large bubbles can be fixed by drilling out the hole if the raised part is thick, or by breaking the thin skin of the bubble and filling with a piece of glass or frit.

My experience leads me to say that "drilling and filling" is hardly ever successful. There always is a mark where the fill has been made, often there is a colour variation too.

There is another possible solution for small bubbles which are at the surface but not yet burst.

Turn the whole piece over and take to just below full fuse. This will allow the bubble to begin moving to the "bottom" of the final piece. Then flip over, clean really well and  fire polish - quickly up from bubble squeeze temperature and with no soak - to give a smooth surface, but not allowing it to get so hot the bubble comes back to the top. This will require observation to stop the temperature rise as soon as the surface is shiny.

Small burst bubbles

Small burst bubbles can be fixed by placing small “beads” of glass made from frit in the kiln. The appropriate sized bead can be placed in the hole and others arranged in a pleasant arrangement and all taken to a tack fuse. The beads are made by cutting small squares of glass 5-6 mm and taking them to full fuse. The glass will round up at the fusing temperature and give a number of completely rounded spheres with a flat bottom.

Prevention

Of course, the prevention of bubbles by inserting a bubble squeeze is the best solution.

revised 24.12.24

Resists

Avoiding bubbles between the resist and the glass on large sheets when preparing etching or other resist based processes is often difficult.

A trick learned from the firms that apply advertising vinyl to vehicles is to use a spray filled with slightly soapy water.

Their process uses pre-cut vinyl with an adhesive backing. So the first thing to do is to pick out the unwanted pieces. That is the pieces covering the areas that will be etched. Then you need to put a backing onto the front surface of the picked out vinyl – usually really wide masking tape.

Lay out the vinyl on the glass. Tape one end of the vinyl securely to the glass. This ensures that you get the vinyl correctly aligned over the whole area. Fold the whole piece of combined vinyl and backing back to the taped edge.

Carefully peal back the covering for the adhesive side making sure you do not pull off any of the isolated vinyl pieces. Spray the glass with a mist of soapy water to ensure all the glass is covered, do not have the glass running with liquid, but be generous. Too much liquid means that there will have to be a long wait for the vinyl to be firmly attached to the glass.

Start the application process by folding the vinyl onto the glass. Use a credit card or better, a large squeegee such as used for grouting mosaics. The tool you use must be smooth to avoid scratching the vinyl. Push the soapy water forward and to the sides as you move along the piece of glass. Keep pulling the protective layer evenly off the adhesive side as you work forward.

When completely attached, remove the backing from the vinyl. This will enable you to see any bubbles you may have left. Work out any bubbles by further pressing the soapy water out from under the vinyl to the edges. Where any remaining bubbles are in the way of the design, puncture them and work out the bubble of moisture through the hole. Cover the puncture with a small piece of vinyl.

Leave for a day for the vinyl to become firmly attached to the glass and then you are ready to do the etching.

Where you are going to cut the vinyl by hand, you do not need the backing. All the rest of the process is the same.

How Annealing Affects Slumping

It is often claimed that inadequate annealing of the fused blank can cause breaks during a slump firing.

If annealing is the cause, it is likely to break on the rise in temperature.  Once the piece has reached the annealing temperature, any breaks will be due to thermal shock on the way down.  An annealing break usually has a hook at both ends of the break, although this is more difficult to determine in a shaped piece.

Thermal shock tends to be along straight(ish) lines, often between thick and thin, or strongly contracting colours.  It tends to happen on the cool down. 

Breaks on the rise or fall in temperature are difficult to distinguish on slumps.  The temperature is low enough that there is little to distinguish the sharpness of the edges.  The real method of determining, is to try to fit the pieces together.  If they fit exactly, the break was during the cooling.  If they have even a little variation in fit, the break occurred on the rise in temperature.

If the annealing of the slump is marginally inadequate, it may break hours, days, weeks after cool.  The less stress the longer it will survive.  This will not be the result of any inadequate annealing of the fused blank. Only the last annealing is relevant to the soundness of the piece.

How can you ensure the annealing on a slumped piece is adequate?

You need to check the fused blank for stress before slumping to ensure it has no or very little stress.  The anneal for unstressed items needs to be at least equivalent to, or longer, as for the fused blank.  Testing has shown that annealing for one layer greater than the calculated thickness results is less stress than annealing for the thickest part.

Fire more slowly than usual for blanks with moderate stress to avoid thermal shock during the first ramp.  Anneal the slumped piece for one layer more than was done for the blank.  There is no other requirement for slower annealing.

Pieces with significant stress need to be returned to the kiln to be annealed.  Fire them up significantly more slowly than you normally would for a piece that thick.  This may be one half or less the speed used on the un-fused pieces. Anneal as for a thicker piece.

Patina Application

The application of patina to solder and other metals consists of three stages, cleaning, application, protection.

Clean the solder bead

Both flux residues and contaminants are left after soldering. Cleaning can be a combination of cleaning with abrasives and also with alkaline materials. Baking soda – sodium carbonate – can be used to neutralise any of the acidic flux left. It bubbles in the presence of acid, so gives a visual check on the amount of acid left. Since it is an alkaline substance, it will react with the acid of the patina to weaken the reaction. It is important to rinse the baking soda off with plenty of clean water.

Abrasive cleaning with materials such as steel or copper wool can be used. Some advise against this as metal residues can be left. However the abrasive scrubber used in scrubbing pots can be used to finish the cleaning without leaving metallic residues.

Apply the Patina

As patinas work by chemical reactions, they are specific to various metals. Those designed for solder work by reaction with the tin mainly, those for lead obviously react with lead, and those for zinc react with zinc - while each of these may work with other metals, they work best with the metal they are designed for. Too much rubbing while the patina is wet simply interferes with the action of the acid. Application of enough patina to allow it to "soak" - actually time to react with the metal - is much better than rubbing. To repeat, it is a chemical reaction, not a buffing process.

Once the patina is dry, you can use the baking soda solution again to neutralise the remaining acid on the metal. Rinse well. rub gently with a dry cloth to assist the drying, do not scrub. When dry again you can wax the metal.

Protect the Patina

Some allow the waxed piece to sit for 24 hours and then re-wax it. The applicator should be a soft object such as a cotton bud or soft cloth. Do not polish it until it no longer is showing black. Rather allow it to sit undisturbed for several days. The patina will get darker and smoother over time. Don't worry too much about getting it pitch black, or birght copper the first day.

Home Made Billets

You do not always have to buy cullet for casting or billets - you can make your own. Billets lead to less veiling and bubbles than just putting in your old cullet into the mould.

Create a mould by using dams or pouring investment materials around something like a plastic salad tub to make a billet – the shape is not usually critical. Place a reservoir such as a terracotta flower post above. Take the temperature to the 650C – 670C region for a 1- 2 hour soak followed by a long soak at 830C.

Normally, the higher you allow the glass fall, the fewer bubbles, but you're usually limited as to how high you can go in the average glass fusing kiln. You'll get some bubbles, but if you then put your new billet as a single piece in a reservoir for your casting you'll get the second flow that removes more of the bubbles.

All the glass must be thoroughly clean before being put into the pot for making the billet. Do not use iridised glass as it reduces the clarity of the billet. Do not use glass that has been ground as that will cause hazing in the billet. Instead, cut off the ground sides before washing the remainder and including in the melting process. Do not include the ground off-cuts.

Based on information from Cynthia Morgan (Morganica)

More information here

Metal supports

It is often desirable to have supports that terminate inside the glass rather than clasping or otherwise holding the glass.  However, metal that would survive the firing and be strong enough to support a substantial piece would be of such a size that it would break the glass due to the differing expansion and contraction of the two materials.

The wire or rod to support the fused or cast piece does not have to be incorporated at the point of kiln forming.  Instead you need to plan for these supports and keep the glass open at the support points during the kiln forming.  It is relatively easy to wrap short pieces of appropriately sized stainless steel rod with fibre paper, or coat with kin wash and build the glass around these, keeping the ends free of the glass.  You can of course, use other metals, although most – except brass – are likely to spall quite a bit, so wrapping them with fibre paper is best.

When the kiln work is finished, the short rods are pulled out.  Clean the cavity formed for the rods. If the glass is transparent or translucent, I like to have the cavity as clear as possible, so I prefer wrapping the rod with fibre paper what ever metal is being used. This provides a clearer surface when clean. Kiln wash leaves a white deposit that is difficult or impossible to clean away completely, although citric acid is good at getting rid of most of the deposit. Of course if the glass is opalescent, it does not matter whether there is a white deposit.

The cavity does need to be as clean as possible to enable the glue to stick to the glass. The support rods need to be secured with a silicone or other flexible glue to avoid any expansion problems in the future.

Information on inclusions of metals:
copper
Wire
Silver foil

Revised 5.1.25