GLASS TRANSITION - Tg
Have you
ever left a plastic bucket or some other plastic object outside during the
winter, and found that it cracks or breaks more easily than it would in the
summer time? What you experienced was the phenomenon known as the glass
transition. This transition is something that only happens to polymers, and
is one of the things that make polymers unique. The glass transition is pretty
much what it sounds like. There is a certain temperature(different for each
polymer) called the glass transition temperature, or Tg for
short. When the polymer is cooled below this temperature, it becomes hard and
brittle, like glass. Some polymers are used above their glass transition
temperatures, and some are used below. Hard plastics like polystyrene and poly(methyl
methacrylate), are used
below their glass transition temperatures; that is in their glassy
state. Their Tg's are well above room temperature, both at
around 100 oC.
Amorphous and Crystalline Polymers:
We have to make something clear at this point. The glass transition is not the same thing as melting. Melting is a transition which occurs in crystalline polymers. Melting happens when the polymer chains fall out of their crystal structures, and become a disordered liquid. The glass transition is a transition which happens to amorphous polymers; that is, polymers whose chains are not arranged in ordered crystals, but are just strewn around in any old fashion, even though they are in the solid state.
But even crystalline polymers will have a some amorphous portion. This portion usually makes up 40-70% of the polymer sample. This is why the same sample of a polymer can have both a glass transition temperature and a melting temperature. But you should know that the amorphous portion undergoes the glass transition only, and the crystalline portion undergoes melting only.
Note: If anyone interested in theoritical calculation of Tg, please email me. I will send you Tg calculator excel file.
