"Do glass molecules actually migrate when they are sintered together? "
Sintering occurs at the atomic level,
where the atoms at the edge of the particles attach to others in other
particles. An analogy occurs to me of Scottish country dancing. In big
gatherings, small groups are formed to perform the dance, say an eightsome
reel. As the dance goes on the groups become more coordinated and eventually
form one large group, held together by the people on the edges of each group.
A more scientific description comes from
Wikipedia:
“Sintering … is the
process of compacting and forming a solid mass of material by heat or pressure
without melting it. … The atoms in the materials diffuse across the boundaries
of the particles, fusing the particles together and creating one solid piece.
Because the sintering temperature does not have to reach the melting point of
the material, sintering is often chosen as the shaping process for materials
with extremely high melting points such as tungsten and molybdenum.”
Applied to glass this means that you can make a solid piece of glass out
of multiple touching or overlapping pieces that do not change their shape. This
uses low temperatures and very long soaks.
Schematic-diagram-for-the-sintering-and-fusion-reaction-of-the-glass-frits-on-a-substrate. Credit: ResearchGate |
The usual process is to take the glass at a moderate rate up to the
lower strain point. The rate of advance is slowed to 50°C or less to a
temperature between slumping and the bottom of the tack fuse range.
The slow rate of advance allows a lot of heat work to be put into the
glass. This, combined with a long soak (hours), gives the atoms of the molecules
time to combine with their neighbours in other particles.
Sintering occurs in the range of 610°C to 700°C (1130°F to 1275°F). The
lower limit is determined by the strain point of the glass and by practicality.
The length of time required at the strain point - 540°C/1005°F - is so long
(days) that it is impractical.
The upper limit is determined by the onset of devitrification. This has
been determined by the scientific studies of sintered glass as a structure for
growing bone transplants. Devitrification reduces the strength of the bonds of the particles at the molecular
level. The process of crystallisation breaks the bonds already formed between
the atomic structures of the molecules. These studies showed that the onset of
devitrification is at 650°C/1204°F and is visibly apparent at 700°C/1292°F
regardless of the glass used.
The lowest practical temperature for sintering is 650°C/1203°F. Indications
are that at least an additional two hours are needed for the sinter soak for
each 10°C/18°F reduction below 650°C/1203°F. This would make for a 12-hour soak
at 610°C/1131°F. For me this is not practical.
More information on
the kilnforming processes and sintering experimentation is available in this eBook: Low Temperature Kiln
Forming.
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