Once you have an initial idea of the source of the problem, think about it. Test it against the evidence. Is there enough evidence to make a call? Make sure you have considered alternative explanations. It is just too easy to make a snap decision about causes in low temperature processes. The source of breaks in slumping are most often complex and stem from interrelated factors.
I give you an example of the difficulties of diagnosing a
slumping break.
On a Facebook group a person showed the break of a single
layer on a cyclone mould. Others
commented the same had happened to them.
Picture credit: Esther Mulvihill Pickens
Possible causes suggested on Facebook included:
- Thermal shock on the way up
- Thermal shock on the way down
- Too large on the mould and broke due to differential contraction
- Too many holds on the way up
- Too hot
- Too thin
- Follow the CPI programme
- Glass extending over the sides
Some of these suggestions were of general applicability,
some in relation to the state of the broken glass.
The suggestions did not include:
- Cause of the rounded dots at the bottom of the mould.
- A cause for the state of the flat piece off the mould (it appears sharp edged. Does it show some forming already?).
- The cause for the location of the fully formed remaining glass.
- The effect of the location of the mould and glass in the kiln.
- The consequences of a short soak at top temperature.
- Is the kiln running hotter than most (1290ºF/698ºC for 10 minutes at top temperature was used)?
Of course, it is difficult to diagnose a problem from just
one picture. It is difficult even with many pictures. And so, without handling
the object, only suggestions can be made.
But….
You must spend enough time examining the piece with whatever
other information is available to make specific suggestions. The first thought may not consider all the
factors. Consider what kinds of causes there
are for breaks during or after slumping.
More close inspection reveals the rounded edges of the
break. That supports the idea that the
temperature was too high. It also supports the diagnosis that the break
occurred on the heat up.
The edges of the piece that has fallen off the mould, and now
rests on the shelf, seem to be square or sharp. This shows the extent of the
difference of temperature between shelf and top of the mould – less than
100mm/4 inches. Also, how small the
differences in temperature are between slump and tack. The extent of difference in fusing does
depend on how high in the kiln the mould is placed. That is demonstrated here by the different elevation
of the two pieces.
The conformation of the glass to the mould is complete. This supports the diagnosis of the break occurring early in the firing, and certainly before the slump was complete. These pieces will not fit together. So, even if the edges were sharp the fact they will not fit together shows they conformed independently to the mould surface. Therefore, the break was before forming temperature was reached.
The glass hangs over the mould edges on only three sides and
at an angle. This indicates the cause of
the overhang was the break. Not the
reverse. An overhang at the beginning of the slump is likely to be even.
The piece on the floor of the kiln combined with the
movement of the glass toward the back gives an indication that the origin of
the break is at the front. This relates to
uneven temperatures and to the placement of the mould.
No one mentioned the placement of the mould and glass at the
back of the kiln. This will have an
effect on scheduling. The mould and
glass are very large in relation to the kiln. There is little space between the glass on the
mould and the walls of the kiln. Also, the
mould is placed asymmetrically in the kiln – very close on three sides. This will cause uneven heating in any kiln. To have a successful firing of glass on this
mould in this kiln will require radically different schedules to that for a
centrally placed mould that is moderate for the size of the kiln.
The large size (relative to the kiln) and the asymmetrical
placing are the causes of the break, in my opinion. I admit that it took me several looks to
realise the placement was a key cause of the break.
So, the generalised comments about thermal shock are correct, but not as to the cause of that shock. The kiln will be hotter in the central part
and cooler at the corners. This is true
of all rectangular kilns. The important
thing is to learn how to cope with these temperature differences.
Slow firings to low temperatures with long soaks are the
three important elements. These make up
the heat work of the kiln. Applying this to a schedule means:
- slow ramp up rates – as little as one half the recommended rates for centrally placed moulds that are moderately sized in relation to the kiln.
- Low temperatures present lesser risks to the control of the outcome of the firing. Determining the lower temperature possible requires peeking into the kiln to monitor the progress of the firing.
- Long soaks combined with low temperatures get the kilnforming done with minimal marking of the underside. Low temperature soaks - in excess of 30 minutes - are required to minimise the marking. Observation of the slump will be necessary to determine when it is complete.
My suggestions for the causes of other elements are:
·
Cause of the rounded dots at the bottom of
the mould.
The temperature was too high. 698ºC/1290ºF
is much hotter than needed for a slump. It was hot enough to round edges and small
shards of glass. Which shows excessive
heat was received by the glass.
·
A cause for the state of the flat piece off
the mould (it appears sharp edged. Does it show some forming already?)
The soak of 10 minutes was too
short for the temperature in the kiln to equalise from top to bottom. The glass on the shelf may not have reached
650ºC/1200ºF with such a short soak.
·
The cause for the location of the fully
formed remaining glass.
The glass broke and was forced
apart by the size of the expansion differences within the glass. The movement of a piece at the front of the
mould combined with the rearward and side movement of the glass indicate the
origin of the break was at the front. The
distance apart shows the amount of force, and so the degree of reduction in the
ramp rate required to fire this successfully.
·
The effect of the location of the mould
and glass in the back of the kiln has already been discussed.
·
A high temperature is often
considered necessary to pick up all the detail in moulds, whether slump or
texture moulds. The same effect can be
achieved at lower temperatures with longer soaks. The results of this strategy are fewer mould
marks on the bottom of the work.
·
Is the kiln running hotter than most
(Used 1290F/698C for 10 minutes at top temperature)?
This is one that cannot be
answered other than by experiments carried out by the owner of the kiln. Look at the Bullseye Tech Note #1 Knowing
your Kiln for methods of testing temperatures.
In short:
Diagnosis of slumping breaks is more complex than it
appears at first.
More information is available in the eBook Low Temperature Kilnforming, an Evidence Based Approach to Scheduling.
This is available from Bullseye or Etsy
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