A great deal of polymer processing relies on having decent 'melt strength' and high melt viscosity. For example, in extrusion blow moudling a molten polymer tube is extruded, clamped into a mould and inflated with air. This process would not be possible if the viscosity and melt strength of the polymer were low - the polymer would either flow to the bottom of the mould, or burst on inflation!
Here's what the process of melting polycaprolactone looks like:
Solid polymer
Melting in boiled water
Melted polymer - the material becomes transparent
I bought mine under the trade name 'Polymorph' from Maplin in the UK, although it's available from other places and under other names (e.g. ShapeLock or Friendly Plastic).I think the easily accessible melting temperature makes it ideal for teaching the fundamentals of thermoplastic polymer processing: plastication (melting), shaping, shape stabilisation (cooling).
Last week, I tried this out with some A-Level school students (16-18 years old). Before the session, I had a play around to come up with some ideas for things to make.
Roll the polymer between your hands into a tube, then shape round a big pen to make a spring. On cooling, the spring is nice and springy.
Again, after rolling into a tube, you can pull the ends apart to draw fibres – we managed to get it many metres long. 
By stretching a sheet you can form a film, although we found difficult to get large areas without holes.
Making linked rings is something that is quite difficult to do with 'normal' polymer processing techniques!
The students had fun playing with the material and seemed to grasp the relevance to real-world polymer processing. Apparently some of them were soon to be introduced to it as a 'smart material' as part of their A-Level studies
References
[1] Sivalingam et al., Polymer Degradation and Stability 2004, 84, 345-351 [2] Goldberg, Journal of Environmental Polymer Degradation 1995, 3, 61-67
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