What are Copolymers?
Copolymers are very long chained molecules of polymers that are used in making plastics, car tyres etc.
They are a type of polymers that have high molecular weight and are prepared by combinations of two or more simple compounds. These simple compounds are the structural units of a copolymer and are called monomers.
The structural units of monomers may be present in random order or in alternating manner.
Copolymers are produced from many species of monomers by a process called copolymerization. This method is used to add certain desirable properties to plastics.
A copolymer is different from a homopolymer in which only one type of monomer is used. The difference between the two can be illustrated as below:
Copolymers are commercially very important. Few examples of copolymers are nitrile rubber, polyethylene-vinyl acetate (PEVA), and acrylonitrile butadiene styrene (ABS).
Classification of Copolymers
Based on the structure, copolymers can be categorized into two types;
Linear- These contain a single chain of monomers.
Branched- These have polymeric side chains or branches.
What are the Different Types of Linear Copolymers?
Linear copolymers are further classified into different types such as periodic, block, alternating, gradient and statistical copolymers. The classification is based on the kind of arrangement of structural units or monomers on the main chain.
Suppose there are two monomers ‘A’ and ‘B’. These monomers A and B can be arranged in many ways so as to form a copolymer. These are as follows:
Alternating Copolymers
It consists of a single main chain of monomers.
The two monomers A and B are arranged in an alternating manner and the copolymer formed is called alternating copolymer. The following illustration will explain this arrangement.
An important fact about this arrangement is that the two monomers are in the ratio of 1:1.
The general formula for this arrangement can be written as (-A-B) n.
Copolymer is made through copolymerization processes.
Example: Nylon 6,6 is an alternating copolymer, consisting of units of hexamethylene diamine and adipic acid that are alternating in nature.
Periodic Copolymers
In this type of polymers there is a repeating sequence of monomers which are arranged in a single chain.
The following illustration explains this arrangement.
Block Copolymers
All of one type of monomer units is placed in one part of the chain followed by the second type of monomers.
It appears as if one homopolymer chain is attached to another type of homopolymer chain at one end through covalent bonds.
There is an intermediate unit called junction block where two homopolymer chains are linked.
Block copolymers may be di block or tri block copolymers depending on whether there are two homopolymer blocks or three homopolymer blocks used.
The following illustration explains the arrangement.
BLOCK COPOLYMER
There are not many commercially available block- copolymers as they are not easy and cheap to make.
One example of such a polymer is SBS rubber, also referred to as acrylonitrile butadiene styrene, which is used in soles of shoes and in treads of tyres.
Statistical Copolymer
In this type of copolymer there are two or more monomers arranged in a sequence as per some statistical rule. Sometimes the likelihood of discovering a said type monomer residue at a specific location in the chain is akin to the mole fraction of the residue of the monomer in the same chain, then in this instance, the polymer is then said to be a random copolymer.
These copolymers are made through a free radical polymerization method.
The ratio of the monomers that are used is not 1:1 but depends on some variables like the properties of monomers, polymerization conditions and conversion of polymerization.
There is blending of properties of individual homopolymers to produce commercially desirable properties in random copolymer.
Rubber made from the copolymers of styrene and butadiene is an example of statistical polymer.
The following illustration explains the arrangement.
RANDOM COPOLYMER
Gradient and Stereoblock Copolymers
Gradient Copolymers - These are also single chain polymers in which the compositions of monomers change gradually along the main chain.
Stereoblock Copolymers - Sometimes in a polymer, the tenacity of the monomers varies with different units or blocks. If this happens, the polymer is called stereo block copolymer.
A Stereo Block Vinyl Copolymer
What is a Branched Copolymer?
These are polymers that have branches or side chains attached to the main chain. The side chains may or may not have the same monomers as the main chain.
During polymerization, the side reactions cause the formation of branches.
In a branched polymer the side chains must have at least one complete monomer unit.
LDPE or Low density polyethylene is the most common example of branched copolymer. It is used in textiles, utensils, packaging materials, containers etc.
Depending on the length of side chains, these polymers may be long or short branched polymers. Long branched polymers may have star, comb or brush like structures.
The side chains may further branch but they do not connect to other polymer chains.
In a star copolymer, there is a central core to which many polymeric chains are attached. Star copolymers may have different structures depending on the way side chains are attached to the multifunctional central core. The following illustration is an example of star copolymer.
Graft Copolymer
The following illustration explains this arrangement.
This is a branched copolymer where the main chain and side chains have different structures.
The main chain and the side chains may be made up of the same monomers (homopolymers) or different monomers (copolymers).
If an A-B di block copolymer forms the main chain with A-B alternating copolymer side chains, the resulting branched copolymer is called a graft copolymer.
Example of a graft copolymer is high impact polystyrene or HIPS . If a free-radical polymerization of styrene is done in the presence of polybutadiene we get polystyrene chains growing out in either direction from the places where there were double bonds, with a one-carbon rearrangement. So there is a polystyrene backbone with polybutadiene side chains grafted on the backbone. Polystyrene gives material strength and polybutadiene branches impart resilience and make the product less brittle.
FAQs on Copolymer
1. What is a copolymer, and how does it differ from a homopolymer?
A copolymer is a large polymer molecule formed from the polymerisation of two or more different types of monomer units. In contrast, a homopolymer is a polymer formed from only one type of monomer. For example, polyethylene is a homopolymer made only from ethene monomers, while Buna-S is a copolymer made from styrene and butadiene monomers.
2. What are the main types of linear copolymers based on monomer arrangement?
Linear copolymers are classified based on how the different monomers are arranged along the main polymer chain. The primary types are:
- Alternating Copolymers: Monomers are arranged in a regular, alternating sequence (e.g., -A-B-A-B-A-B-). Nylon 6,6 is a classic example.
- Block Copolymers: Consist of long blocks of one monomer type attached to long blocks of another (e.g., -AAAAA-BBBBB-). SBS rubber is an example.
- Random Copolymers: Monomers are arranged in a random, non-predictable sequence along the chain. Styrene-butadiene rubber (SBR) is a common example.
- Graft Copolymers: A main chain of one type of polymer has side chains made of another polymer 'grafted' onto it. High-impact polystyrene (HIPS) is a prime example.
3. Are all copolymers plastics? Explain with some common examples.
While many copolymers are used to make plastics, the term 'copolymer' refers to the molecular structure, not the final material. Copolymers are a type of polymer, and many are indeed processed into plastics to achieve specific properties. For example, Acrylonitrile Butadiene Styrene (ABS) is a tough copolymer used for plastic items like Lego bricks and computer keyboards. However, other copolymers are designed to be elastomers (rubbers) or fibres, not just rigid plastics.
4. What is copolymerisation and why is it a commercially important process?
Copolymerisation is the chemical process used to create a copolymer by polymerising a mixture of two or more different monomers. This process is commercially vital because it allows manufacturers to create materials with a unique combination of properties that cannot be achieved with a single homopolymer. By carefully selecting monomers, chemists can engineer a final product that is, for instance, both strong and flexible, or resistant to both heat and impact, thereby meeting specific industrial demands.
5. How does the structure of a block copolymer like SBS rubber make it suitable for shoe soles?
SBS (styrene-butadiene-styrene) rubber is a triblock copolymer. It contains hard, rigid blocks of polystyrene and soft, flexible blocks of polybutadiene. At room temperature, the hard polystyrene blocks cluster together, acting as physical cross-links that give the material strength and durability. The flexible polybutadiene blocks provide a rubbery, elastic quality. This unique combination makes it perfect for shoe soles, which require both toughness to resist wear and flexibility for comfort.
6. Why is the arrangement of monomers in a copolymer crucial for its final properties?
The arrangement of monomers directly dictates the macroscopic properties of the material. For example:
- A block copolymer can have distinct regions with different properties (e.g., one hard, one soft), making it behave like a thermoplastic elastomer.
- A random copolymer typically exhibits properties that are an average or blend of the constituent homopolymers, leading to a material with overall balanced characteristics.
- An alternating copolymer has a very uniform structure, which can lead to high crystallinity and specific physical properties like high tensile strength.
7. What is the key structural difference between a block copolymer and a graft copolymer?
The main difference lies in their architecture. A block copolymer consists of a single main chain where long segments (blocks) of one monomer are linearly connected to blocks of another monomer (-AAAA-BBBB-). In contrast, a graft copolymer has a 'backbone' chain made of one type of monomer, with entire polymer chains of another type branching off as 'side chains'.
8. Is PVC a copolymer? Explain your answer.
Polyvinyl chloride (PVC) itself is a homopolymer, as it is made from the repeating monomer unit of vinyl chloride. However, it is often modified to create materials like PVCA (polyvinyl chloride-acetate), which is a copolymer of vinyl chloride and vinyl acetate. This copolymerisation is done to improve flexibility and processability compared to standard PVC.
