Texture moulds are a form of bas relief in reverse. The texture of the
mould is the bas relief. The glass formed over the shapes is in negative relief.
The light is refracted through th
e back to give an image of bas relief although the surface is smooth.
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| Example of wave form texture mould |
The usual temperatures are too high. These moulds are an exercise in patience. The temptation is to fire higher than slumping temperatures to get good definition in the glass. However, a number of problems, especially bubbles, can be avoided by staying at the high end of slumping temperatures. This means the top temperature would be about 680C. To compensate for this low temperature, the soak needs to be three hours or more. To be sure the definition desired has been achieved, peeking near the end of this long soak is necessary.
Moulds that are produced with a rim around the edges can trap air and
create bubbles. The rim forms a perimeter dam to confine the glass. If the rate
of rise is quick to a high temperature, the edges can be sealed against the rim
before all the air has escaped. It is advisable to cut the glass for these
rimmed moulds a bit smaller than the internal dimensions formed by the rim.
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| Example of textured area surrounded by a rim |
Use of single
layers on texture moulds can lead to large, thin bubbles. This is most
prevalent when using high temperatures. Since the single layers tend to form
more slowly than an already fused two-layer piece, the temptation is to use
higher temperatures. The higher temperatures soften the glass to such an extent
that often bubbles form over the lower areas of the mould. Instead, low
temperatures with extremely long soaks should be used to allow the glass to conform to the undulations of the texture without dog boning or developing bubbles.
Of course, peeking will be required to determine when the texture is achieved. With
single layers, the surface will have greater undulations than with two layers.
The thinness of the single layer cannot fill the depression the way two layers
can.
Rapid rates to high temperatures can produce internal bubbles too. These
moulds have a multiplicity of hollows and depressions. Just as people are
warned about depressions in their shelves, the depressions in the texture
moulds can cause bubbles too. This means there are even more possibilities for
bubble creation than on apparently flat shelves. Long slow bubble squeezes are
required to allow air from under the glass.
Glass sometimes sticks to the mould. This is most often blamed on insufficient separator. Boron nitride is a good separator for these moulds especially if you go to tack fusing temperatures. At slumping temperatures, kiln wash will normally be sufficient. Both of these separators need to be applied carefully, as there are relatively steep slopes throughout the mould. Spraying needs to be done from at least four angles to ensure all the sides are covered.
Less often thought about is the draft of the shapes of the mould. If the slopes (draft) in the mould are too steep, the glass will “grab” the ceramic mould, because the ceramic contracts less than the glass when cooling. If shapes of the mould are steep and deep enough, the glass may even break as a result of this compression of the mould.
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| An example of some nearly vertical elements and a rim |
Other information is available:
Low Temperature Kilnforming, an Evidence-Based Approach to Scheduling, an ebook
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