Materials - Steel

Metals

Unit 1: Construction Principles

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Slide 1: Slide

Construction PrinciplesFurther Education (Key Stage 5)

This lesson contains 23 slides, with interactive quizzes, text slides and 2 videos.

Lesson duration is: 60 min

Items in this lesson

Metals

Unit 1: Construction Principles

Slide 1 - Slide

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1:00

Name as many metals
as you can

Slide 2 - Mind map

Ferrous vs Non-Ferrous

The simple answer is that ferrous metals contain iron and non-ferrous metals do not.

Slide 3 - Slide

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0:40

Ferrous

Non-Ferrous

Stainless Steel

Cast Iron

Aluminium

Ductile Iron

Copper

Mild Steel

Tin

Lead

Slide 4 - Drag question

STEEL

Steel is used in structural applications where high tensile, compressive and/or bending strength is required.

Skyscrapers use steel frameworks to support their enormous weight, and the open framework of struts and ties visible in the structure of electricity pylons relies on the high strength of steel to provide support for electricity cables.

Embedded steel bars improve the otherwise poor tensile strength of concrete in reinforced concrete structures.

In addition, countless steel screws, nails and fixings hold together the fabric of all types of buildings.

Slide 5 - Slide

Types of steel

Mild Steel
Stainless Steel
High Strength (or Carbon) Steel

Slide 6 - Slide

Slide 7 - Video

Which of these best describes mild steel?

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0:50

a form of plain carbon steel containing iron alloyed with between 0.15 and 0.35% carbon. Most structural steels fall into this category.

Steels with carbon content of between 0.30% and 1.7% . Tend to be brittle with little or no plastic deformation to warn of overloading prior to failure.

alloyed with chromium and nickel to significantly increase resistance to corrosion.

contains 2–4% carbon and other alloys, and 1–3% of silicon, which improves the casting performance of the molten metal. Is strong but brittle.

Slide 8 - Quiz

Which of these best describes stainless steel?

timer

0:30

a form of plain carbon steel containing iron alloyed with between 0.15 and 0.35% carbon. Most structural steels fall into this category.

Steels with carbon content of between 0.30% and 1.7% . Tend to be brittle with little or no plastic deformation to warn of overloading prior to failure.

alloyed with chromium and nickel to significantly increase resistance to corrosion.

contains 2–4% carbon and other alloys, and 1–3% of silicon, which improves the casting performance of the molten metal. Is strong but brittle.

Slide 9 - Quiz

Which of these best describes high strength (or carbon) steel?

timer

0:30

a form of plain carbon steel containing iron alloyed with between 0.15 and 0.35% carbon. Most structural steels fall into this category.

Steels with carbon content of between 0.30% and 1.7% . Tend to be brittle with little or no plastic deformation to warn of overloading prior to failure.

alloyed with chromium and nickel to significantly increase resistance to corrosion.

contains 2–4% carbon and other alloys, and 1–3% of silicon, which improves the casting performance of the molten metal. Is strong but brittle.

Slide 10 - Quiz

How is steel produced?

Slide 11 - Slide

Slide 12 - Video

02:08

What raw materials are required to make steel?

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0:30

Limestone

Shale

Coke

Iron Ore

Sulphur