Let’s think about moisture and large bubbles from under the glass. It is not the water, but the gasses created by the decomposition of materials that can cause the bubbles. There are other causes of large bubbles too. The most common causes are discussed here.
The usual explanations are:
- · Uneven shelf
- · Heat resistant particles under the glass
- · Uneven heating
- · Glues
- · Organic material
- · Moisture
- · Amount of gas
Uneven shelf
Shallow depressions in shelves can cause large bubbles. Occasionally,
the shelf can be damaged in various ways causing scratches or dings in the
shelf. Air can be trapped in these depressions. And it does not take much
volume of trapped to be a problem. The heat of kilnforming causes the air to expand.
As the glass becomes less viscous with increased temperature, the pressure from
the expanding air forces the glass upwards. The amount of air and the amount of
heat work combine to create bubbles from simple uprisings to large thin walled
or even burst bubbles.
There are some things that can be done to detect and avoid
bubbles from forming. It is possible to screed powdered kiln wash over kiln
washed shelf. This gives pathways for the air to escape. It does leave a more
marked bottom surface than kiln wash.
Using 1mm or 2mm fibre paper allows air from under glass. You can maintain a relatively smooth surface with Papyros or Thinfire over the fibre. Even Thinfire or Papyros on its own will allow air from under the glass.
Checking for depressions can be done by spreading kiln wash
powder over shelf and drawing a straight edge over the shelf. Depressions will
be shown by the presence of the powder. It can also be done with powdered glass
frit.
Particles under glass
Any particle resistant to kilnforming temperatures holds the
glass up while it is forming so creating an air space. It is important to
ensure the shelf is clean as well as flat. Small pieces of grit or dirt that
are resistant to high temperatures will hold the glass up from the shelf enough
to create a bubble – small or large depending on the temperature. Vacuuming the
shelf before adding anything to the surface before each firing is important to
bubble free results.
Uneven heating
This is sometimes cited as a cause of bubbles. If so, the heat would need to be very localised. This is possible if the glass is very near elements. In general, the temperature is equalised at a distance equal to the width of the elements.
Glues
A wide variety of
glues are used in kilnforming. Those available to enthusiasts all burn away
leaving gasses between layers. These gasses - if trapped - can thin the glass
below as well as above the glue’s position. This will give the impression that
the bubble has come from between the shelf and the glass. Most often the bubble
forms between the glass layers, pushing a bubble only into or through the top
layer. The solution is to avoid using glue or minimise it and place it only at
the edges.
Organic material
Organic materials can be a problem. When you are using a
large or thick fibre paper sheet under a piece of glass, occasionally the
gasses from burning out of the binder can be great enough to create a bubble. Although
normally, this only leaves a grey to black mark on the underside of the glass.
Vermiculite boards need to be fired before use, as they contain significant
amounts of binder.
Inclusion of organic materials such as leaves, twigs, or bones,
leads to bubbles. Very long soaks below the softening point of the glass are
required to allow the organic material to burn out of the objects. The time required increases from an hour for
leaves to 24 for bones.
Moisture
Moisture is very often cited as the source of bubbles. It is
possible that the steam from water may be trapped in shelf depressions, or the
areas held up from the shelf. And anytime there are no precautions to allow the
air from under the glass, or between sheets bubble formation can be promoted.
If adequate precautions are taken (flat shelf, clean shelf, bubble squeeze) the
moisture will evaporate before the glass is hot enough to form a seal around
the edges and trap any steam. It is another good reason for moderate ramp rates
at the beginning of a firing.
Amount of gasses
Of course, if there is a lot of moisture there can be
problems. Simply applying kiln wash in four coats does not leave enough water
in the shelf to be a problem.
If you have washed the kiln wash off a mullite shelf, there
will be a lot of water in it even after it feels dry. Then it does need to be
kiln dried before use. To avoid breaking the shelf you need to fire slowly to 99°C/210°F
and soak there for a couple of hours with the vents open or lid propped up a
little to allow the moisture out of the kiln.