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4.2F COMPOSITES

4.2F COMPOSITES
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TechniekMiddelbare schoolhavoLeerjaar 3

This lesson contains 30 slides, with interactive quizzes, text slides and 2 videos.

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4.2F COMPOSITES

Slide 1 - Slide

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Learning Objectives
At the end of the lesson, you will be able to describe the nature and significance of composite materials in modern design. At the end of the lesson, you will understand the concepts and principles behind the form, process, composition, and structure of composites. At the end of the lesson, you will be able to identify the advantages and disadvantages of using composite materials in various design contexts. At the end of the lesson, you will recognize different types of composites such as laminar, fiber-reinforced, and particle-reinforced, and their applications. At the end of the lesson, you will comprehend the role of the matrix in composites and the types of matrices commonly used. At the end of the lesson, you will be familiar with the different manufacturing processes for composites like weaving, molding, pultrusion, and lamination.

Slide 2 - Slide

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What do you already know about composite materials?

Slide 3 - Mind map

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Slide 4 - Video

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forms.gle

Slide 5 - Link

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The Role of Composites in Product Design
Forms of composites: fibers/sheets/particles and matrix. Composite manufacturing processes: weaving, molding, pultrusion, lamination. Composition and structure of various composites: concrete, engineered wood, fiberglass, Kevlar®, carbon-reinforced plastic, LVL. 

Slide 6 - Slide

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Pultrusion
Pultrusion is a continuous process used to manufacture fiber-reinforced polymer (FRP) composite profiles with a constant cross section. A composite is a composition material, typically consisting of a thermoset or thermoplastic polymer, reinforced with glass, carbon, aramid fibers, or combinations thereof.

Slide 7 - Slide

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What type of composite is LVL (Laminated Veneer Lumber)?
A
Engineered wood
B
Concrete
C
Fiberglass
D
Carbon-reinforced plastic

Slide 8 - Quiz

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What is the composition of Kevlar® composites?
A
Fibers and matrix
B
Only matrix
C
Sheets and particles
D
Only fibers

Slide 9 - Quiz

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Which manufacturing process is commonly used for making fiberglass composites?
A
Lamination
B
Weaving
C
Pultrusion
D
Molding

Slide 10 - Quiz

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Forms of Composites
Composites are materials made by combining two or more distinct materials to harness their unique properties.
 Main components: reinforcement (fibers, sheets, or particles) and matrix (thermoplastics, thermosets, ceramics, or metals). Laminar, fiber-reinforced, and particle-reinforced composites. Specific applications based on mechanical, electrical, physical, and chemical properties.

Slide 11 - Slide

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Composition and structure of composites


Concrete – water, Portland cement, and aggregates (gravel etc)

Slide 12 - Slide

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Composition and structure of composites


Engineered wood – also called composite wood, man-made wood, or manufactured board. gluing sheets (veneer), particles or stands of wood together.
  • Plywood – sheets of venner glued together with the grain perpendicular to each sheet.
  • Particleboard – chips of wood glued together (see above image).

Slide 13 - Slide

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Composition and structure of composites


Fibreglass – stands of glass, formed into a matt and then covered in resin (polymer/thermoset plastic)

Slide 14 - Slide

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Composition and structure of composites


Carbon- reinforced plastic – carbon fibres formed into a matt (see above image) then covered in resin.

Kevlar® – para-aramid synthetic fiber covered in a resin

Laminated veneer lumber (LVL) – uses multiple layers of thin wood assembled with adhesives


Slide 15 - Slide

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Composite Manufacturing Processes
Weaving, molding, pultrusion, and lamination are used to create composite products. Each process has its unique advantages and is suitable for different types of composites and applications.

Slide 16 - Slide

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Composition and Structure of Various Composites
Concrete, engineered wood, fiberglass, Kevlar®, carbon-reinforced plastic, LVL. Each composite has specific properties and is used in various design contexts based on its unique characteristics.

Slide 17 - Slide

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Advantages and Disadvantages of Composite Materials
Strength-to-weight ratio, molded into complex shapes. Costly and difficult to repair. Specific advantages and disadvantages based on the type of composite and its application.

Slide 18 - Slide

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Applications of Composite Materials in Design
Various applications in aerospace, automotive, construction, marine, sports equipment, and consumer goods. Each type of composite is used based on its specific properties and benefits in a particular design context.

Slide 19 - Slide

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Applications of Composite Materials in Design
Advantages of composite materials: 
●Improved properties 
●Reduced weight  
Disadvantages of composite materials: 
● Difficulty of repair 
● Cost 

Slide 20 - Slide

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Definition List
Composite material: A material made by combining two or more different materials to create a new material with unique properties. 
Matrix: The continuous material in a composite that holds the reinforcement in place and helps transfer loads. Laminar composites: Composites made of layers bonded together, such as plywood and laminated glass. 
Fiber-reinforced composites: Composites containing fibers as the reinforcement, providing high tensile strength. Particle-reinforced composites: Composites with particles embedded in a matrix, such as concrete with gravel aggregate. 

Slide 21 - Slide

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What are laminar composites made of?
A
Layers bonded together
B
Individual fibers bonded together

Slide 22 - Quiz

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What is a composite material?
A
A material made by combining different materials
B
A material made from a single material

Slide 23 - Quiz

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Definition List
Thermoplastics: A type of polymer that becomes pliable or moldable above a specific temperature and solidifies upon cooling. Thermosetting plastics: A polymer that irreversibly cures forming a rigid structure through a curing process like heat or a chemical reaction. Ceramics: Inorganic and non-metallic materials that are typically hard and brittle. Metals: A class of elements characterized by good electrical and thermal conductivity as well as malleability and ductility.

Slide 24 - Slide

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Which class of elements is characterized by good electrical and thermal conductivity?
A
Metals
B
Ceramics

Slide 25 - Quiz

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What is a characteristic of thermosetting plastics?
A
Becomes pliable or moldable above a specific temperature
B
Irreversibly cures forming a rigid structure

Slide 26 - Quiz

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Slide 27 - Video

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Write down 3 things you learned in this lesson.

Slide 28 - Open question

Have students enter three things they learned in this lesson. With this they can indicate their own learning efficiency of this lesson.
Write down 2 things you want to know more about.

Slide 29 - Open question

Here, students enter two things they would like to know more about. This not only increases involvement, but also gives them more ownership.
Ask 1 question about something you haven't quite understood yet.

Slide 30 - Open question

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.

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