4.2 A METALS AND METALLIC ALLOYS

4.2 A METALS AND METALLIC ALLOYS
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Slide 1: Tekstslide
TechniekHBOStudiejaar 4

In deze les zitten 22 slides, met interactieve quizzen, tekstslides en 5 videos.

time-iconLesduur is: 45 min

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4.2 A METALS AND METALLIC ALLOYS

Slide 1 - Tekstslide

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Learning Objectives
At the end of the lesson you will be able to understand the characteristics and uses of metals and metallic alloys. At the end of the lesson you will be able to explain the processes involved in modifying the physical properties of metals, including extraction, alloying, work hardening, and tempering. At the end of the lesson you will be able to describe the design criteria for superalloys and their applications. At the end of the lesson you will be able to distinguish between ferrous and non-ferrous alloys and their specific uses. At the end of the lesson you will be able to comprehend the importance of recovery and disposal of metals to reduce environmental impact.

Slide 2 - Tekstslide

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What do you already know about metals and metallic alloys?

Slide 3 - Woordweb

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Characteristics of Metals
Metals are typically hard, shiny, and have good electrical and thermal conductivity. Most pure metals are not practical for use without modification due to their softness, brittleness, or chemical reactivity.

Slide 4 - Tekstslide

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Slide 5 - Video

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Extraction and Economic Aspects
The extraction of metals often occurs in one country with added value occurring in another. For example, iron ore is mined in Australia and shipped to China and Japan for steel production.

Slide 6 - Tekstslide

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Slide 7 - Video

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Grain Size and its Effects on Metal Properties
The grain size in metals affects their tensile strength, toughness, ductility, brittleness, and malleability and can be manipulated through heat treatment.

Slide 8 - Tekstslide

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Slide 9 - Video

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Modifying Physical Properties of Metals
Physical properties of metals can be modified through alloying, work hardening, and tempering to enhance their characteristics for specific applications.

Slide 10 - Tekstslide

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Alloying and its Impact on Metal Properties
Alloying involves mixing metals with other metals or non-metals to increase strength and hardness but reduce malleability and ductility.

Slide 11 - Tekstslide

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Design Criteria for Superalloys
Superalloys are designed for high-temperature applications and require high creep and oxidation resistance, making them suitable for specific industrial uses.

Slide 12 - Tekstslide

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Slide 13 - Video

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Recovery and Disposal of Metals
Metals and metallic alloys are recyclable, which reduces environmental impact and energy consumption. Understanding the importance of recovery and disposal is crucial for sustainable practices.

Slide 14 - Tekstslide

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Applications of Ferrous and Non-Ferrous Alloys
Ferrous alloys contain iron and are magnetic, while non-ferrous alloys do not contain iron and have various applications ranging from construction to electronics.

Slide 15 - Tekstslide

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Definitions
Alloy: A mixture containing at least one metal, which may include a combination of two or more metals, or a metal and a non-metal. 
Ferrous Alloy: An alloy that contains iron and is typically magnetic, used for various engineering and specialized metal products. Non-Ferrous Alloy: An alloy that does not contain iron, used for a wide range of applications including aircraft manufacture and electrical fittings. Grain Size: The size of individual grains in a crystalline structure of metal, which can be altered by heat treatment and affects the metal's properties. 

Slide 16 - Tekstslide

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Definitions
 Work Hardening: The process of strengthening a metal through plastic deformation. 
Tempering: A heat treatment process that increases the toughness and ductility of a metal while decreasing its hardness and brittleness. 
Superalloy: An alloy that exhibits excellent mechanical strength, resistance to thermal creep deformation, good surface stability, and resistance to corrosion, suitable for high-temperature applications. 
Creep: The tendency of a metal to slowly deform permanently under long-term exposure to stress below its yield or ultimate strength, typically at high temperatures. 
Oxidation Resistance: The ability of a material to resist the direct and indirect attack of oxygen and degradation.

Slide 17 - Tekstslide

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Slide 18 - Link

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Find images of objects made from a alloy

Slide 19 - Open vraag

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Write down 3 things you learned in this lesson.

Slide 20 - Open vraag

Have students enter three things they learned in this lesson. With this they can indicate their own learning efficiency of this lesson.
Ask 1 question about something you haven't quite understood yet.

Slide 21 - Open vraag

The students indicate here (in question form) with which part of the material they still have difficulty. For the teacher, this not only provides insight into the extent to which the students understand/master the material, but also a good starting point for the next lesson.

Slide 22 - Video

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