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| From: GECKO |
16/07/2001
14:15:20
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| Subject: Glass |
post id:
350426
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I am an artist and I work with
glass that has been fired in a kiln. If the glass is not allowed to cool
over a very long period of time it will crack or even break, if the glass
is cooled rapidly it will even shatter or explode. What causes
this?
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| From: Alan™ ® |
16/07/2001
15:06:23
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| Subject: re: Glass |
post id:
350484
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Very simply it is internal
stresses associated with the solification process.
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| From: Zardoz ® |
16/07/2001
18:43:28
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| Subject: re: Glass |
post id:
350764
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Glass and ice cubes crack due to
three major effects:
1) Hot things generally are larger than cold
things.
2) Stresses in solids move only as fast as the speed of sound.
3) Large temperature differences create large stresses (partly because
of #1 above).
Now I will discuss these three effects:
Things, including glass and ice, are made up of atoms. Temperature
is a measure of how much jostling (vibrating) the atoms are doing. The
more vibrating the atoms do the farther apart they tend to be from each
other. Think of an example: Put 100 students in a room, having each
student connected to the nearest 6 students with a strong rubber band.
Have them get as close together as they can. These are "cold" students.
Now ask the students to run around as fast as they can. These running
students are "hot", and they have more space between them than when they
were "cold"! They stay more or less close together because of the rubber
bands. It's like this with the atoms in solids. The atoms are constrained
to stay near each other (by interatomic forces), but when they are moving
with more energy (hotter) they are farther apart on average. So hotter
solids are larger than the same solid that is cooler, because there is
more distance between the atoms.
The atoms in a solid arrange
themselves so that they are as close together as possible at the
temperature at which they are. If the temperature changes, the atoms
rearrange so that they are a different distance from each other, and if
the temperature change is sufficiently slow the atoms can rearrange in an
orderly manner. The rearrangement ripples through the solid at the speed
of sound for that solid. This is because the speed of sound in a solid
depends on the average distance between atoms and the speed at which they
can move.
Large and fast temperature changes make the atoms
rearrange so fast that the other atoms in the solid can't keep up with the
rearrangement, and so a crack occurs. So it takes both a large temperature
change and a fast temperature change to make a solid crack.
http://www.madsci.org/posts/archives/oct99/940894619.Ph.r.html
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