Showing posts with label Bowls. Show all posts
Showing posts with label Bowls. Show all posts

Wednesday, 17 July 2024

Bowl Split Analysis


The visual evidence relating to this enquiry is a sharp-edged break through the middle of the slumped piece. The two parts have slumped separately, and seem attached at the rim, leaving the middle opened.  A moderate slumping temperature was used to fire the piece at the bottom of a stacked kiln load.

This is used as an example of the kind of thinking required when investigating breaks in slumping.

The split occurred before the slump was complete. We know this because the pieces no longer fit exactly together.  This means the crack opened as the slump continued.  There is other evidence.

The opening of the crack cannot have happened at or after the annealing. It would have already formed to the mould in a whole state. It would break completely across, because it would be in a brittle state.  And the pieces would fit exactly together.  But they do not.

This piece was at the bottom of a stack of shelves in a deep kiln.  At the bottom, there is no radiant heat, only side heat.  This could be a major cause the kind of break described.

It is possible that the split was not across the whole piece.  At the bottom of the kiln, the glass is not receiving any radiant heat from the top.  It is getting radiant heat only from the sides of the kiln.  That means the edges were considerably hotter than the centre.  The edge may be in a plastic state while the centre is still in the brittle state.  The contrasts in expansions are often great enough to break a piece.

From the evidence we have, it can only be said the ramp rate was too fast for the conditions. 

This little exercise shows that a lot of information about layup, schedule, place in the kiln, and any other relevant variation on the usual, must be detailed when asking why something has not turned out as expected. 

 

 

Saturday, 2 November 2019

Tack Fusing Glass Stringers

The most time consuming part of tack fusing stringers is laying the stringers out. Most stringer bowls start with around four layers of stringers. The stringers need to be arranged in rows. It is often necessary to use a small amount of glue to keep the stringers in place as they are arranged. Some people glue the stringers directly to a piece of paper (normal or thinfire) to make them easier to arrange.


Making an 450mm square piece will take around six tubes of stringers.



If you want a piece where the individual strands of stringers are visible rather than fully fused, you will need to fire to as low a fusing temperature as possible. The precise temperature will, of course, vary by kiln. Most kilns will achieve tack fusing results in the range from 700C to 730C. Fire as quickly as you would like to around 675C, then increase the temperature very slowly, 50C per hour or less. You need to watch closely as the temperature approaches 700C. When the top layer of stringers begin to sag, start cooling the kiln. Firing too high will lead to a flat piece with no feel of the individual stringers.

Further information is available in the ebook: Low Temperature Kiln Forming.

Wednesday, 2 May 2018

Slumping a Form Flat


There are a variety of reasons that you might want to make a formed piece flat again for another kind of slump or drape.

There are lots things you think about when preparing to make a shaped piece flat.

I am going to assume there are no large bubbles in the piece.  You can see the posts  Large bubbles and Bubble at bottom  on the causes.

The following comments are things in five groups to consider when contemplating flattening an already formed shape.

Shape/form
  • ·         Shallow forms with no angles have the fewest difficulties.  Take it out of the mould, put it on the prepared shelf and fire to the slump temperature.  Observe when it is flat and proceed to the annealing.
  • ·         Forms with angles or multiple curves are a little more difficult.  If the piece has stretched in some areas to conform to the mould, you will have some distortion in the pattern and possibly some thinner areas.  It should be easy to flatten pieces on a prepared shelf with the same schedule, but a slightly higher top temperature as used to slump it.
  • ·         Forms where the sides have pulled in will become flat, but continue to have curved sides.
  • ·         Deep forms are possibly the most difficult.  The glass may have stretched, giving thin areas.  It may be that the process of flattening the glass will cause a rippled effect as the perimeter of the piece is a smaller size than the original footprint.  These deep forms are the least likely to flatten successfully.


Orientation
  • ·         Which way up? Upside down or right side up?  Shallow forms are easiest to flatten by placing them right side up on a prepared shelf.  For deep or highly formed pieces, it may be best to put it upside down to allow the now higher parts to push the perimeter out if it is necessary.


Thickness
  • ·         Thick glass will flatten more quickly than thin glass, so you need to keep a watch on the progress of the work to avoid excess marking of the surface of the glass.
  • ·         Very thin pieces are likely to develop wrinkles as they flatten.  Even if they do not, there will be thick and thin areas which might cause difficulty in subsequent slumping.
  • ·         Tack fused pieces are likely to tend to flatten at different places and times due to the differences in thickness and therefore weight. This makes shallow forms easier to flatten.


Temperatures
  • ·         In all these processes, you should use the lowest practical temperature to flatten.  This means that you will need to peek at intervals to see when it is flat.
  • ·         Your starting point for the top temperature to use will be about 10°C lower than that at which the original was slumped, normally.  The amount of time may need to be extended significantly. The reason for this is to avoid as much marking on the finished side as possible.
  • ·         Shallow forms and thick pieces will flatten more quickly than others, so a lower temperature can be used.  You will still need to observe the progress of the flattening.
  • ·         Angled shapes and deep forms will need more heat and time than the shallower ones. 
  • ·         Thin pieces may require more time than thick pieces.
  • ·         Tack fused pieces need more attention and slow rates of advance to compensate for the differences in thicknesses.


Separators
  • ·         Kiln washed shelves are usually adequate for flattening.
  • ·         Thinfire or Papyros are needed when flattening upside down to ease any sliding necessary.
  • ·         Powdered kiln wash or aluminium hydrate can be dusted over the kiln washed shelf when it is felt the form will need to slide on the shelf while flattening.



It may be that after all this, you feel it is not worth it to flatten.  It certainly is worth the effort, if only to learn about the characteristics of the form and its behaviour in reversing the slump or drape.

Wednesday, 14 December 2016

Edge Treatment in Cold Working


Frequently people who are grinding the edges of bowls, aperture drops and other vessels that need to have a smooth rim find that they are getting small chips of glass coming from the edge of the ground part of the glass.


There is a way to prevent theses unwanted chips  


The long established practice of glass workers has been to give the glass an arris at the end of each grinding stage before they change to a finer grit.  This small area of angled glass, allows the continued smoothing of the glass without creating such a sharp edge that the glass there is not strong enough to resist the grinding action.  

You will notice on a bowl or other rounded vessel, that the chips are almost always on the outside. The inside of the rim normally has an oblique angle to the rim, and the outside an acute angle.  The explanation is held in the angle.  As the rim is ground down, the outer acute angle becomes very thin as well as sharp.  At some point the glass is thinner than the grit used to grind the surface.  This causes little chips of glass to break off the edge.

By creating an oblique angle at the edge of the grinding surface, the glass will remain thicker than the grit being used to grind the glass.  If you feel you are taking off a lot of glass, it is advisable to check that the arris is still in place.  If not, give it a light grind to maintain the arris while using that grit. 


At the end of each stage of grinding, you need to add an arris for the next stage.  The reason for doing it with the coarser grit rather than the one you are about to proceed to, is that it maintains all the grinding at the same stage, enabling the whole piece to be finished to the same level of polish.


Wipe the surface dry and add marks with a paint marker.  Allow this to dry while you change grits.  The purpose of the marker is to assist you in determining when you have ground out all the previous marks, by the elimination of the paint.