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Using materials - AQAPolymers

Metals have many properties but some are prone to corrosion. Alloying metals improve their properties. Ceramics, polymers and composites have desirable properties that allows them specific uses.

Part of Chemistry (Single Science)Using resources

Polymers

Properties of polymers

Further information on how are made from can be found in More organic chemistry.

Different polymers have different , depending on the monomers they are made from and the conditions under which these monomers were joined together. This means that different polymers have different uses. For example, poly(ethene) can be made in low and high density forms.

PolymerPropertiesUses
Low density poly(ethene), LDPEFlexible, unreactive, can be made into filmsMost carrier bags, bubble wrap
High density poly(ethene), HDPEStrong, flexible, resists shattering, resists chemical attackPlastic bottles, pipes, buckets
PolymerLow density poly(ethene), LDPE
PropertiesFlexible, unreactive, can be made into films
UsesMost carrier bags, bubble wrap
PolymerHigh density poly(ethene), HDPE
PropertiesStrong, flexible, resists shattering, resists chemical attack
UsesPlastic bottles, pipes, buckets

Low density poly(ethene) has a structure where the polymer chains are branched and this means that the are arranged randomly. High density poly(ethene) has less branching of the polymer chains, so the molecules line up much more closely.

Structure of polymer chains in a low density poly(ethene).
Figure caption,
Structure of a low density poly(ethene)
Polymer chains between high density poly(ethene).
Figure caption,
Structure of a high density poly(ethene)

Thermosoftening and thermosetting plastics

Plastics can be put into one of two categories, depending on how they respond when heated.

Thermosoftening plastics melt when they are heated. Most plastics that we come across in everyday life are thermosoftening plastics. This means that they can be , which involves melting them before making a new product.

Thermosoftening plastics do not have between neighbouring polymer molecules, so the molecules can move over each other when heated and the plastic melts.

Thermosoftening plastics with no cross links between the polymer molecules
Figure caption,
Thermosoftening plastics have no cross links between the polymer molecules

Thermosetting plastics do not melt when heated. They tend to char and burn when heated, but they are resistant to much higher temperatures than thermosoftening plastics. They are used to make electrical plugs, which must not melt, even if there is a malfunction and the wiring inside gets hot.

The polymer structure of a thermosetting plastic.
Figure caption,
The covalent bonds in this thermosetting plastic are strong and prevent the plastic melting when it is heated