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Polymer degradation is an undesirable change in the properties - tensile strength, colour, shape, etc - of a polymer or polymer based product under the influence of one or more environmental factors such as heat, light or chemicals. Such changes occur primarily because of the effect of these factors on the chemical composition of the polymer.In a finished product such a change is to be prevented or delayed. However the degradation process can be useful from the view points of understanding the structure of a polymer or recycling/reusing the polymer waste to prevent or reduce environmental pollution.
Polymers molecules are very large on the molecular scale) which derive their unique and useful properties from their size.
Today there a primarily six commodity polymers in use, namely polyethylene, polypropylene, polyvinylchloride, polyethyleneterephthalate and polycarbonate. These make up nearly 98% of all polymers and plastics encountered in daily life. Each of there polymers has its own characteristic modes of degradation and resistances to heat, light and chemicals.
For example, polyethylene usually degrades by random scission - that is by a random breakage of the linkages (bonds) that hold the atoms of the polymer together. When this polymer is heated above 450 CelsiusThe degree Celsius (°C) is a unit of temperature named after the Swedish astronomer Anders Celsius ( 1701 1744), who first proposed it in 1742. The Celsius temperature scale was designed so that the freezing point of water is 0 degrees, and the boiling po it becomes a complex mixture of molecules of various sizes which resemble gasoline. Other polymers - like polyalphamethylstyrene - undergo 'specific' chain scission with breakage occurring only at the ends. they literally unzip or depolymerize to become the consitutent monomers.
