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Question
Answer the following.
Write the names of classes of polymers formed according to intermolecular forces and describe briefly their structural characteristics.
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Solution
1. Polymers are classified into various categories on the basis of intermolecular forces as follows:
- Elastomers
- Fibres
- Thermoplastic polymers
- Thermosetting polymers
2. Their structural characteristics are as follows:
i. Elastomers:
- Elastomers have the property of elasticity in which a substance gets stretched by external force and restores its original shape on the release of that force.
- Elastomers, the elastic polymers, have weak van der Waals type of intermolecular forces that permit the polymer to be stretched.
- A few crosslinks between the chains help the stretched polymer to retract to its original position on removal of applied force.
e.g. Vulcanized rubber, Buna-S, Buna-N, neoprene, etc.
ii. Fibres:
- Polymeric solids which form threads are called fibres.
- The fibres possess high tensile strength which is a property to have resistance to breaking under tension.
- High tensile strength is due to the strong intermolecular forces like hydrogen bonding and strong dipole-dipole forces. Due to these strong intermolecular forces, the fibres are crystalline in nature.
e.g. Polyamides (nylon 6,6), polyesters (terylene), etc.
iii. Thermoplastic polymers:
- Thermoplastic polymers have the property of plasticity, that is, these polymers can be easily shaped or moulded.
- They are capable of repeated softening on heating and hardening on cooling.
- These polymers possess moderately strong intermolecular forces that are intermediate between elastomers and fibres.
e.g. Polythene, polystyrene, polyvinyls, etc.
iv. Thermosetting polymers:
- Thermosetting polymers are rigid polymers.
- During their formation, they have the property of being shaped on heating; but they get hardened while hot. Once hardened, they cannot be softened by heating and therefore cannot be remoulded.
- This characteristic is the result of extensive cross-linking by covalent bonds formed in the moulds during hardening/setting process while hot.
e.g. Bakelite, urea-formaldehyde resin, etc.
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