Showing posts with label Jewellery. Show all posts
Showing posts with label Jewellery. Show all posts

Wednesday 3 May 2017

Channels in Jewellery Items

The principle in forming channels in fused glass is to keep the space open with something that will survive the firing and can be easily removed.


You can use kiln washed wire, mandrels, or tooth picks which you can pull out after cooling. These tend to leave a residue of the kiln wash behind. So this is best used on opaque items.

You can use rolled or cut fibre paper, which can be washed out after cooling, leaving a clean hole. This is works well on transparent items.

Both these methods tend to leave bumps over the channel. So you can make a three layer piece. Cut the middle layer short enough to allow the element to keep the hole open (toothpick, cut piece of fibre paper, wire etc.) to be placed with enough overlap of the top layer to catch the bottom layer. In this kind of setup you need to make the top layer a bit longer than the bottom layer. Make sure you are generous in the length of the "hole keeper" so if the glass (now possibly 9mm) does expand you do not trap the material inside.

Of course on a three layer set up like this you could use thin glass which would give you about 6mm of thickness thus eliminating the spread due to volume. In this case you would need to use fibre paper or wire that is about 1.5mm high/thick. It is probably best to have a thin piece of glass on each side of the “hole keeper” to ensure the glass does not retreat due to lack of volume.

You can experiment with a layer of standard and two of thin in various combinations to find the one you like best.

Wednesday 25 May 2016

Scheduling Relates to the Piece

My piece cracked, but I've always used this schedule and it has worked.


One schedule is not for all pieces. A number of factors affect the scheduling of a firing.  Some of them are:

Thickness

  • The thicker the stack of glass, the slower the advance and anneal should be. 
  •  The more layers of glass there are, the slower the rate of advance should be. 
  •  The more uneven the thickness, the slower the temperature changes should be.

Angularity

  • Glass with right angles or even more acute angles needs slower schedules than round or oval shapes.  


Degree of fuse


Contrasting colours

  • Pieces with strongly contrasting colours of glass need slowing in heating and annealing.

Size

  • To some extent the increased size will need some slowing of the schedule. Size becomes more important as you near the edge of the shelf or nearer to the sides of the kiln. Jewellery scale items can have an accelerated schedule.  


Mould base

  • The size and shape of the mould will affect the speed and temperature of the scheduling.         
  • The type and style of mould affect the schedule.  Drapes and especially over steel moulds require slower schedules. 

Position in the kiln

  • The closer the glass is to the elements whether top or side, the slower the schedule must be.
  • The less central on the shelf, the more care must be taken in scheduling.  


  • A kiln constructed for ceramics needs different scheduling considerations than one for fusing.  
  • A kiln with side elements needs more careful firing than one with only top elements.



Wednesday 28 October 2015

Exceptions to Slow and Low - Kiln Forming Myths 8

The principle of slow and low always applies.


Although the principle of attempting to get the effect you want at the lowest possible temperature with the slowest practical rate of advance should always be considered, there are times when it is not wholly applicable.

Among these are when working with small scale pieces, such as jewellery, and in general pieces below 100mm that are at least 50mm from the side of the kiln.  In these cases you can fire much faster, as the heat has less distance to travel through the glass to maintain an even heat.  You still should be using two stages – the first and slower to rise to the strain point and the second much faster one to reach the top temperature.  In these cases the target may have to be a little higher than in a larger, slower firing.

Another case is in fire polishing.  Fire polishing can often have a fast segment to avoid distorting the piece.  In this case you fire appropriately slowly for the thickness of the piece until you are past the upper strain point.  This can usually be taken as 540°C.  (For float and bottle glass the temperature is around 690°C).  As you have passed the brittle phase of glass by this time, you can advance the temperature quickly.  The objective is to achieve enough heat to change the surface, but avoid heating the interior to the softening point.  You may want to observe the finish of the surface, so that you can switch to the cool down phase of the firing as soon as the polish is achieved.



All myths have an element of truth in them otherwise they would not persist.

They also persist because people listen to the “rules” rather than thinking about the principles and applying them.  It is when you understand the principles that you can successfully break the “rules”.

Wednesday 5 August 2015

Channels for Jewellery

One way of providing attachments for chains is to make a channel in the piece. This is most often done by placing something between the glass pieces to maintain an opening for the chain to slide through. The materials can range from toothpicks, coated wire, rolled ceramic fibre paper and many other things which will stand up to the heat for the required time.

One of the requirements is to prevent needle points and drawbacks of the glass. There are a number of ways to do this. Some of them are noted here.

One method is to make pattern bars with a channel through the whole width of the bar. Then you need to cut the bar into strips (leaving the channel material in place), do any edge work required, and fire polish.

When creating a single piece from cut glass parts, you need to ensure the upper piece of glass extends beyond the lower piece by at least 3mm to allow the glass to bend over the channel and touch the lower piece. A little more than 3mm will allow the upper glass to curve over the bottom piece and create a rounded top with no evidence of the joining of the two pieces of glass.

Another method is to use two pieces of 2mm glass with full pieces above and below. The narrowest piece of glass will be about 3-4mm and placed at the top of the pendant. The largest piece will be long enough to give a 2mm gap between the two pieces. This is kept open by inserting two pieces of 1mm fibre paper into the gap. Then cap with the top piece of glass. All the glass can be of 2mm thickness, as the three layers will give the desired 6mm thickness.

Finally, a tack fuse firing can help to avoid the needling that can occur at the channel, as the glass is so much thinner than the 6mm required for a full fuse. This means that you can do the work in stages. First fire the elements to the desired state, then combine them for a tack fuse when creating the channel.


If you use a clear middle glass, you can create a depth by having a design on both the bottom and top layers of glass.

Wednesday 24 June 2015

Hand Finishing Jewellery Edges

Often jewellery scale pieces need to have their edges finished before the final wrapping or hanging on the necklace. This is frequently done by running the piece against the grinder, dumping it in water and then cleaning with a tooth brush or similar before the next process.  What is described here can be used on fused and “raw” glass both.


You can finish the edges of pieces by hand. 

Get a flat piece of glass – window glass is good for this.  You can put a fine grit such as 200 onto the glass and wet it to a paste. Place the edge of the jewel on the glass and begin rubbing with moderate pressure in an oval or figure of 8 motion.  You will be surprised at how quickly the edge is refined.  You can follow this up with finer grits.  Make sure you clean the jewel and the grinding plate thoroughly if you use the same glass plate for finer grits.

If you want a less messy - but slightly more expensive - method, use wet and dry sandpapers.  These can be found in grits from 200 to 6000, although you will not need to go beyond 1200 which will give you a smooth, shiny edge. These need to be kept damp too.  If you are planning to fire polish the pieces, you can stop at 400 or 600 grit.

This process avoids the water soak stage, can bring back into use the pieces you forgot to soak, and can be taken all the way to the finished edge.  If you are doing only a few pieces, it is much faster than a fire polish in the kiln.



Wednesday 6 November 2013

Using Space on Shelves


Often there is unused space on the kiln shelves when you are firing a project. With a bit of planning, you can make use of the spaces for a variety of things.

Frits fired on fibre paper

Bowl made from frit balls

You can place piece of frit in the clear areas to make frit balls.




You can make colour tests on plaques of glass to see the results of strikers, powder combinations or results of various depths of colour.


Compatibility tests can be done with pieces of glass of which you are not certain.


simple stress testing set-up

Strip of fired glass samples for testing

Results - those with halo are stressed

In the same way, annealing tests can be conducted.




You can fire small pieces of jewellery at the same time as your larger pieces.


You can also prepare elements for incorporation into other fusing projects and lay them out in the open spaces on the shelf.  Your use of the spare space is related both to your imagination and to your future projects.



Wednesday 10 July 2013

Fire Polishing Jewellery



Sometimes jewellery pieces come out of the kiln with imperfections that need to be ground away.

You can do a quick shaping on the conventional grinder and then fire polish. However, you will not get a fire polish at a low enough temperature to avoid distorting the piece. The way to get a fire polished surface or edge is to make the edge less rough before putting the glass into the kiln.

After you shape the pieces on the grinder, make sure you scrub them well to remove any particles created by the grinding process. Dry them and then cover the rough areas with a white paint marker. This will indicate when you have removed the scratches caused by the previous rougher grinding.

Get out your wet and dry sandpapers. Start with the most coarse (about 200) and work the ground area until the paint has been removed. Keep the sandpaper and the area being worked damp. When all the white paint has been sanded away, wash, dry, paint and go to the the next finer grit. Repeat this with progressively finer grits – normally use the grit number twice the previous grit (larger numbers indicate finer grits).

Normally, going down to 400 or 600 grit will be enough to enable a fire polish at a low enough temperature to avoid distortion of your piece. This heat range will be at a low temperature tack fuse.

This smoothing process does not take very long and is much cheaper than buying several finer grinding bits - most grinder bits are 60 to 80 grit, although it is possible to get bits up to 600 grit.