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MATERIALS A substance that has been completed or transformed by humans and is then used to make or be a part of a technical object. - Mechanical constraints (reaction to external forces) - Effects on materials produced by constraints of increasing intensity - Mechanical properties - Different categories of materials (wood, metals & alloys, plastics)
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Mechanical Constraints describe the stress produced within a material when it is subjected to external forces (rigours of the environment such as temperature, humidity, and pressure). FIVE PRINCIPAL MECHANICAL CONSTRAINTS: 1 – COMPRESSION 2 – TENSION 3 – TORSION 4 – BENDING 5 - SHEARING
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COMPRESSION Force that crushes materials BENDING Force that bends material TORSION Force that twists material TENSION Force that stretches material SHEARING Force that cuts or tears material
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EFFECTS ON MATERIALS PRODUCED BY CONSTRAINTS OF INCREASING INTESITY 1 – ELASTIC DEFORMATION: this results in the temporary deformation of the material. When the constraint is removed, the material regains its shape. 2 – PLASTIC DEFORMATION: even when the constraint is removed, the material remains deformed. 3 – FRACTURE: the material ruptures after being subjected to the constraint.
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FRACTURE: chalk is ruptured PLASTIC: metal of car remains deformed after it is separated from the pole. ELASTIC: boxer hits the bag and it returns back to its shape after the hit.
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* A MECHANICAL PROPERTY determines how a material will react when it is subjected to one or more mechanical constraints. 1- HARDNESS 2 – ELASTICITY 3 – RESILIENCE 4 – DUCTILITY 5 – MALLEABILITY 6 – TENSILE STRENGTH
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* Resists penetration (reacts to locally applied pressure force by elastic deformation). * Marble is hard; it is difficult to make a hole in it.
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* Regains its initial shape after being subjected to a force (reacts to force by elastic deformation) * Coils are springy
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* Resists physical impacts (reacts to temporary force by elastic deformation). * The steal frame adds resilience to this construction
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* Stretches without breaking (reacts to tension force by plastic deformation) * Copper can be stretched to make wires
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* Flattens or bends without breaking (reacts to bending or compression by plastic deformation). * Metals are malleable enough to be made into sheets
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* Resists tension without becoming permanently deformed (reacts to tension force by elastic deformation) * The crane’s cable must have enough tensile strength to resist the tension placed on it by wrecking ball
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WOOD METAL PLASTIC STONE CERAMIC TEXTILE GLASS SYNTHETIC MATERIALS
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* Wood is a material that comes from cutting and processing trees. * HARDWOOD comes from deciduous trees and is primarily used in the manufacturing of furniture and flooring. * SOFTWOOD comes from coniferous trees and is primarily used in residential construction and paper manufacture. FACTORS THAT EFFECT THE MECHANICAL PROPERTIES OF WOOD - species of tree - growth rate of tree - moisture content of tree - injuries sustained by tree
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MECHANICAL PROPERTYVARIATION AMONG SPECIES -HARDNESS Hardwood, healthier, moisture, and cold increase hardness -ELASTICITY Good. Can suffer impacts without permanent deforming -RESILIENCE Adequate moisture creates better resilience -DUCTILITY Not much ductility. Can’t really be stretched -MALLEABILITY Heat increases malleability. Can be bent a certain amount - TENSILE STRENGTH Excellent. Rot decreases strength of wood FOUR REASONS WHY WOOD IS SUCH A COMMONLY USED MATERIAL 1 – IT IS EASILY WORKED 2 – IT IS EASY TO ASSEMBLE 3 – IT IS A GOOD THERMAL INSULATOR 4 – IT DOES NOT CONDUCT ELECTRICITY
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* HARDWOOD: (leafy, summer trees) MAPLE – furniture, flooring, trim YELLOW BIRCH – furniture, flooring, toys, kitchen cabinets OAK – furniture, flooring, kitchen cabinets, support columns * SOFTWOOD: (needle, evergreens) SPRUCE – papermaking, construction, musical instruments PINE – furniture, doors, papermaking, construction CEDAR – outdoor decks, closets, furniture, construction
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* MODIFIED WOOD is treated wood or material made with wood mixed with other substances. * ADVANTAGES: - Stable mechanical properties - More resistance to inclement weather - Used to manufacture larger materials - Can be made by smaller trees - Can be made with wood chips and wood waste (such as saw dust)
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MODIFIED WOOD TYPE MANUFACTURING PROCESSAPPLICATIONS - TREATED WOODHeated. Dipped in copper based chemical. Objects or structures in which wood is exposed to rain or snow. - LAMINATED WOODGluing small pieces of wood together. Snowshoes Building structures Tables -PLYWOODGluing large sheets of wood so the fibres are at a right angle to those below them. Work tables Construction (floors) - PARTICLE BOARDMade with wood chips and wood waste. Particles are bonded with various products Construction Trunks Toys - FIBREBOARDSeparated wood fibres into smaller bits then bonded with various products. Insulation Furniture Floating floors
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* METAL is a material extracted from an ore. Metals are usually shiny and are good conductors of electricity and heat. * ALLOY is the result of a mixing of metal with one or more metallic or non-metallic substances. * FERROUS ALLOY is an alloy whose main constituent is iron. * A NON-FERROUS ALLOY is an alloy whose main constituent is a metal other than iron.
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METALCHARACTERISTICSUSEFUL PROPERTIESAPPLICATIONS -IRONSilvery Rust prone Soft Most common Ductility Malleability Automobiles Buildings Utensils, Nails Cables -COPPERRed-brown Best conductor Ductility Malleability Conductivity Electrical wires Musical instruments Pennies -ALUMINUMWhite, soft Abundant (2 nd ) Malleability Light weight Corrosion resistance Conductivity Pleasure boats Foil Cans Electrical products -ZINCWhite-bluishDuctility Malleability Corrosion resistance Electrical wires Gutters Surface coating -MAGNESIUMSilvery-white Burns easily Light weight Flammable Fireworks/Bengal lights Cans -NICKELGreyHardness Malleability Corrosion resistance Heating elements Coins -CHROMEWhite-bluishExtreme hardness Corrosion resistance Surface coating - TINSilvery -whiteDuctility Malleability Lowest melting point Wielding Utensils
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ALLOYCOMPOSITION AND DESCRIPTION USEFUL PROPERTIES APPLICATIONS -STEELMix of iron/carbon <1.5% Nickel, chrome, and zinc are added Hardness Resilience Malleability Tensile strength Construction tools Building structures Automobiles - CAST-IRONMix of iron/carbon >2%HardnessCookware Wood stoves Engine blocks -BRASSMix of copper and zincDuctility Malleability Corrosion resistance Decoration Automobiles Electronic parts -BRONZEMix of copper and tinHardness Malleability High density Corrosion and wear resistance Art objects Olympic medals Boat propellers -ALUMINUM ALLOY Small amount of many substances (copper, manganese, silicon, zinc, etc) Malleability Low density Corrosion resistance Light weight Car parts Airplane parts Electronic parts
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* 1970s invention. From petroleum or natural gas. PLASTIC is manufactured material made of polymers. * Can be easily moulded. Once moulded, they keep their shape. * Two categories: Thermosetting plastics and Thermoplastics * THERMOSETTING PLASTICS: plastics that harden permanently under the effect of an energy source such as heat, irradiation or a chemical reaction. This process gives the plastic great rigidity. * THERMOPLASTICS: plastics that soften when heated and harden when cooled. Can be reshaped when softened, maintaining their new shape when cooled. 75% of all plastics * Various colors, durable, do not rust, lightweight, and inexpensive.
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THERMOPLASTICRECYCLING CODE PROPERTIESAPPLICATIONS - POLYTHYLENE TEREPHTALATE 1 - PETEImpact, gas, heat, and moisture resistant Bottles Containers (jam) Oven-proof -POLYTHYLENE2 – HDPE 4 – LDPE Flexible, Easily cut, moulded Moisture resistant Squeeze bottles Garbage, grocery bags Plastic wrap Beach balls - POLYVINYL CHLORIDE3 – VHard Resistant to grease, oil, and chemicals Medicine tubes Patio furniture CD cases, Piping, window frames -POLYPROPYLENE5 – PPImpact, heat, oil, and water resistant Containers (yogurt) Water bottles Car bumpers Geotextiles -POLYSTYRENE6 - PSInsulation Foam or rigid plastic forms Slab insulation Plastic dinner wear Food packaging -POLYAMIDENOT RECYCLABLEElastic Absorbs water Textiles Electrical components - POLYMETHYL METHACRYLATE (ACRYLIC) NOT RECYCLABLEVery rigid Various colors Transparent bowls Signs Dental prostheses
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