Showing posts with label Glass bending. Show all posts
Showing posts with label Glass bending. Show all posts

Wednesday, 2 October 2019

Glass Bending Temperatures



Glass bending is the process by which glass is shaped without obtaining mould marks on the glass.  It also attempts to shape the glass without changing the thickness of the glass across its length and width. Glass bending can be done as a free drop curve or into a mould. This bending is usually done at much lower temperature than slumping.

Determining the temperature at which glass should be bent is a matter of experimentation with each new shape and thickness of glass.

If the temperature is too high you find distortions are created in the glass.  Sometimes wrinkles develop.  In general, a high temperature leaves a lack of time to compress and stretch evenly into irregular shapes.

If the temperature is too low the whole process takes an impractically long time to complete.

The just right temperature is in the region of 50C above the annealing point of the glass being used.  Experimentation with the shape and thickness of the glass is needed to establish a reasonable time for the bending; and for it to be achieved at a low enough temperature to get the shape required.

An example is this tapered cylinder.
 
Lantern frame for the glass
Mould shaped from the lantern into which the glass is to be bent

Flat template for cutting the glass

The bent glass

The curve was achieved at 590C in 20mins


A 1/8 sphere requiring bending in two directions was achieved at 570 in 45 mins to avoid ripples at edges.


The span as well as the shape affects the temperatures and times.  More information on bending glass is given in this blog entry.

Wednesday, 31 July 2019

Terminology for degrees of fusing

Can anyone describe what a contour fuse is?

No one can satisfactorily describe, to a high level of acceptance, what a contour fuse is. For me it is just before a full fuse. That will not be acceptable for many, just as describing something as a rounded tack fuse is not a contour fuse for me.  A sharp-edged tack fuse is sintered glass. This will be important to observe as you move to other glass processes such as pate de verre.


There is not yet an accepted terminology and will not be as long as people choose to invent new descriptions for what are essentially the same things.

The closest you can get to a sensible range of descriptors is in the Bullseye document "heat and glass" where the temperature ranges are the important constants.
  
The fourth column of this document gives names for the process. It would be a good idea to adopt these terms, as Bullseye is the company doing the research in the area of kilnforming.

Bullseye terminology gives the following:
A slump or bend occurs in the 540C – 670C range
Fire polishing and sintering occur in the 670C – 730C range
Tack fusing (a rounding of edges) occurs in the 730C – 760C range
A rounded tack fusing that begins to sink into the base glass occurs in the lower end of the 760C – 816C range.
Contour fusing occurs in the middle of the 760C – 816C range.
Full fusing (flat) occurs at the upper portion of the 760C – 816C range.


Friday, 5 October 2012

Glass bending


The purpose of glass bending is to achieve a mark-free curved surface. This is usually done with glass that has smooth surfaces - normally clear but it can be applied to any smooth coloured glass too.

There are at least two methods – moulds and free bends.

Mould
Using a mould enables you to achieve the shape you want with the least observation. However, you need to be careful to use the lowest temperature to achieve the shape to avoid marking the glass. You also need to measure the outer circumference of the original shape, as you are bending, not stretching the glass as in most other slumping operations. A mould is most useful when the shape is not a radius curve. Metal can work very well and because you are using low temperatures, a dusting of alumina hydrate or talc will act as an effective separator. Of course you can use ceramic or fibre as a mould too.

To be able to use the low temperatures required, you need to take advantage of the weight of the glass.  This means the glass needs to fall into the mould, not drape over it.  Relatively fast rates of advance can be used, as you are normally bending one layer of glass.  However from the annealing point upwards the rate should be slowed to allow all the glass to heat throughout and enable the bend to occur at low temperatures.  Observation will be required to determine when the bend fully conforms to the mould.

Free drop
A free drop is similar to an aperture drop, but using a channel rather than a bounded opening. To do this arrange a channel of the appropriate width plus 10mm to allow the full curve to form at the edge. Kiln shelves that are cut into strips, or lengths of fibre board - both supported on kiln furniture - will provide a good channel. Apply kiln wash to horizontal pieces forming the channel or cover in fibre paper. Place a witness at the appropriate height to ensure you can see when the glass has reached the depth/curve required. Initially, this seems to be extra work, but the expense of making a metal mould far outweighs the time taken to set up a free bend for simple radius curves.

Temperature
The temperatures required for glass bending are 40C-80C above the annealing point of the glass. For simple curves start with the 40C above annealing whether using a mould or channel . If after two hours, nothing has been achieved, advance 10C and soak for another two hours. Repeat as necessary. Lots of observation is required. Remember that the wider the aperture and the thicker the glass the less time and temperature is required to achieve the result. After the first bend you will know the combination of temperature and time required for the depth and width of any other piece like this.

Stopping the bend
If you are using a mould, you simply advance to next segment. With a free drop you can also simply advance to next segment as the movement is so slow. But if it is a deep bend - more than a simple radius curve - advance to next segment and open kiln until annealing temperature is reached. Then close the kiln and anneal.

Anneal for the thickness of the glass. No special annealing is required.

For the free drop, when cold, cut off the excess to the size required for the opening.