Difference between revisions of "Alloy"
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− | | style="height:20px; width:200px; text-align:center;" |[[Bronze]] was one of the first [[alloy]]s | + | | style="height:20px; width:200px; text-align:center;" |[[Bronze]] was one of the first [[alloy]]s ever made and is made from around 88% [[Copper]] and 12% [[Tin]]. |
| style="height:20px; width:200px; text-align:center;" |[[Brass]] is a very strong [[alloy]] made form a [[mixture]] of [[Copper]] and [[Zinc]]. | | style="height:20px; width:200px; text-align:center;" |[[Brass]] is a very strong [[alloy]] made form a [[mixture]] of [[Copper]] and [[Zinc]]. | ||
| style="height:20px; width:200px; text-align:center;" |[[Steel]] is an [[alloy]] of around 98% [[Iron]] and 2% [[Carbon]]. | | style="height:20px; width:200px; text-align:center;" |[[Steel]] is an [[alloy]] of around 98% [[Iron]] and 2% [[Carbon]]. |
Revision as of 08:51, 8 April 2019
Contents
Key Stage 3
Meaning
An alloy is a metal with one or more other elements mixed with it, usually other metal elements.
About Alloys
- Adding different elements to a metal to make an alloy can change the properties of that metal.
Examples
Bronze was one of the first alloys ever made and is made from around 88% Copper and 12% Tin. | Brass is a very strong alloy made form a mixture of Copper and Zinc. | Steel is an alloy of around 98% Iron and 2% Carbon. |
Key Stage 4
Meaning
An alloy is a mixture of a metal and one or more other elements, usually other metal elements.
About Alloys
- Adding different elements to a metal to make an alloy can change the physical and chemical properties.
- Alloys are made to change the properties of a metal to make it more useful for certain applications.
Examples
Metals | Properties | Applications |
88% Copper + Tin
(Bronze) |
Resistant to corrosion | Statues and ornaments. |
Copper + Zinc
(Brass) |
Resistant to corrosion
Malleable enough to hammer into shape. |
Pins in electrical plugs, keys, taps, door handles. |
Gold + Copper | Harder than pure Gold | Jewelry |
98% Iron + Carbon
(Steel) |
Much harder than pure Iron.
Malleable enough to be hammered into shape. |
Car bodies, bridges, cables, girders. |
85% Iron + 11% Chromium + Nickel + Carbon
(Stainless Steel) |
Much harder than pure Iron.
Resistant to corrosion. |
Cutlery, reaction vessels |