This document provides instructions for creating fused glass art. It discusses the history of fused glass dating back to ancient Mesopotamia. Specific instructions are given for heating and cooling glass slowly to prevent cracking, using compatible glass with the same coefficient of expansion, and applying kiln wash. Common temperatures for tacking, fusing and annealing glass are listed. Students will be graded on creating a square glass tray demonstrating elements of design like color and shape, and principles of design including variety, pattern and movement.
2. •Fusing glass in a kiln
• This is a fascinating technique that
enables artists to create unique and
gorgeous projects. The following fusing
rules and firing instructions should
provide you with enough information to
produce your own glass project.
• It will create an appreciation for the
complexities and potential of fused
glass, and will pave the way for more
intricate designs and ideas.
3. • Contemporary glass art is reviving an
ancient glass medium.
• Warm glass, which is commonly known as glass fusing or
slumping, is an ancient artistic technique. Historians have
found traces of both methods dating back to the second
millennium BC in Mesopotamia. Glass mosaics, valued in
Greek and Romans civilizations, were considered equal
to silver and gold as precious materials. By the third
century AD warm glass fell out of favor, eclipsed by a
new blown glass technique.
4. • It was not until the emergence of the European
Arts and Crafts movement, in the late
nineteenth century, that warm glass was
revalued as a decorative art form. Today,
contemporary artisans have rediscovered
these ancient techniques.
5. Tested Compatible
• All glass has a coefficient of expansion,
or COE.
• Glass manufactured specifically for fusing
is often "tested compatible," or guaranteed
to be a certain COE.
• The most popular fusing glasses are either
90 COE (Bullseye, Uroboros) or 96 COE
(Spectrum and Uroboros).
• Always use compatible glass, which is
known to have the same COE.
6. Heating and Cooling
• When glass is heated it expands, when it
cools it contracts. If fusing two or more
pieces of glass together, they need to
expand and contract at the same rate.
Otherwise, when the glass cools, one glass
will pull on the other and cause the piece to
crack along the seam.
7. • If the glass survives the cooling
process, there is still a risk that
reheating to bend it, or placing it in a
sunny window will cause cracking.
Stress from incompatible glass is
always in the piece. Do not try to
refire broken incompatible glass.
8. Slower is Better
• You can't heat or cool glass too slowly. Going too fast can
result in cracked glass or Thermal Shock.
• A safe rate to heat is 15° per minute (900° per hour),
although stacked glass 2" in diameter and smaller can be
heated at a faster rate.
9. • Slow-cooling of glass or "annealing"
depends on the thickness of the glass. If
the glass breaks because it was heated too
fast; turn off the kiln, allow the glass to
cool, push it back together, and try again -
at a slower rate. Breaks from thermal
shock usually go straight across the piece
and have a little hook near the edge. They
can usually be repaired by refiring.
10. Glass Likes To Be ¼" Thick
• When heating glass to full fuse, anything
with less mass will shrink up, anything with
more will spread out. This movement can
be controlled somewhat by fusing slower,
and not going to full fuse.
11. All Kilns Are Not Alike
• There are some variances between kilns,
especially mini kilns. Sometimes
pyrometers are slightly off, and sometimes
current loads vary.
• Use firing schedules as a guide, but
remember to check your piece frequently
during fusing, and record changes in
schedules as needed.
12. • Prepare your kiln by applying kiln wash
with a kiln brush. Apply one thin coat in
each direction. Don't forget to apply kiln
wash to molds, too.
• Kiln wash prevents the glass from sticking
to the kiln during firing.
14. • 1325F - 1425F
• Tack Fuse
• Edges are soft, glass is stuck together
15. • 1425F - 1600F
• Full Fuse
• Glasses combine, uniform thickness
throughout
• Upon completion of this lesson,
students are ready to begin a fused
glass project
21. You will be graded on
Creating a fired square glass tray:
Elements of design:
1. Color
2. Shape
3. Line
Principles of Design:
1. Variety
2. Pattern
3. Movement
22. Fused Glass Self Critique
In your sketchbook, answer the following
questions:
23. 1. What is the overall
concept or theme of
your glass tray?
24. 2. Explain how your glass tray demonstrates
these three elements of design:
1. Color
2. Shape
3. Line
25. 3. Explain how your glass tray demonstrates each
of these principles of design:
1. Pattern
2. Movement
3. Variety
26. 4.What was the most difficult
part of your glass project?
27. 5. Does your finished glass
piece look like you expected?
28. 6. Explain what is the most
successful part of your glass
project.
29. 7. What advice would
you give students who
are going to make this
project in the future?
30. 8. What grade do you
think you deserve for
your tray? Why?