Ceramics, Polymers, Composites & Metals (Edexcel GCSE Chemistry)
Revision Note
Ceramics, Polymers, Composites & Metals
The physical properties of glass and clay ceramics, polymers, composites and metals are related to their uses:
Glass Ceramics
Transparent and strong, glass insulates against heat
Glass ceramics are also more durable than other materials hence they are better suited for use in windows than plastic
Most of the glass produced is soda-lime glass which is made by heating a mixture of limestone, sand and sodium carbonate (soda) until it melts
On cooling it solidifies to form glass
A variation is borosilicate glass which is made using sand and boron trioxide and has a higher melting point than soda-lime glass
Clay Ceramics
These are hardened materials that resist compressive forces
Clay is a soft material dug up from the earth which hardens at high temperatures and when it is fired, produces a very strong and hard material
This allows bricks to be used to build walls which withstand the weight and pressure of the material bearing downwards on itself
Polymers
Can be tailor designed to have specific properties for specific uses
Can be made opaque or transparent
Usually tough and flexible, some specialist polymers can be brittle
Poor conductor of heat and electricity
Composites
Made from two components: reinforcement and matrix
The matrix is what binds the reinforcement together
Common examples include fibreglass and steel reinforced concrete
The properties of composites depend on the reinforcement and matrix used so composites can be tailor engineered to meet specific needs
Examples of Everyday Composite Materials
Metals
Shiny, malleable and ductile so can be hammered into different shapes
Can be mixed with other elements to form alloys, which have different properties to the elements they contain
Corrosion resistant metals can be produced which last longer than other metals
Good conductors of heat and electricity
Effective Use of Materials
Glass & Metals
Glass and steel are extremely useful building materials
Apart from its transparency, the hardness and the high compressive strength of glass makes it an ideal material for making walls and windows
Metals are used extensively in electrical cabling and in electronics due to their ability to conduct electricity
Copper is the most frequently used as it is a good conductor and is very malleable and easy to thread into cables
Aluminium is a very strong metal but is also very light
This makes it ideal for use in the construction of airplanes as it has a high strength-to-weight ratio
Glass and metals are exceptional building materials due to their high strength and durability
Composites
Reinforced concrete
Steel reinforced concrete has immense tensile and compressive strength allowing it to be used as columns and supporting structures in construction
Diagram showing a concrete beam which is reinforced with steel, providing much more tensile strength
Carbon-Fibre Composites
Carbon fibres composites are extremely strong and low weight, hence they are used in aviation, aeronautics and for making professional racing bicycles
Carbon fibre composites have a very high strength to weigh ratio
Polymers
As they are poor conductors of heat and electricity, this makes polymers good thermal and electrical insulators
These properties are extremely useful for insulating electrical wiring as they prevent electric shocks and overheating
The low melting points and flexibility of polymers enable them to be moulded easily into an infinite variety of shapes
The plastic coating on electrical wires makes use of the flexibility and insulating properties of polymers
Examiner Tips and Tricks
Don’t get confused between an alloy and a composite: Alloys are uniform mixtures of metals whereas composites have two or more distinguishable materials.
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