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Characteristics of Metals

Characteristics of Metals. Metals and Welding. Metallurgy. Process - The art and science of extracting metals from their ores, refining them, and processing them for use (including compounding alloys)

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Characteristics of Metals

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  1. Characteristics of Metals Metals and Welding

  2. Metallurgy • Process - The art and science of extracting metals from their ores, refining them, and processing them for use (including compounding alloys) • Physical – behavior of the structure and composition of the metal (shaping, fabricating, heat treating, welding)

  3. Mechanical PropertiesTerms Relative to Tensile Strength(Resistance to the act of pulling apart.) • Stress - The load pressure (measured in 1000psi) of a metal before it stretches. • Strain - Elongation that occurs during the pulling action. • Yield Point - Amount of force required to stretch the metal until it is permanently deformed.

  4. Terms Related to Tensile Strength (continued) • Elastic Range of Limit - The maximum stress the metal will support without permanent deformation. • Ultimate Strength - The maximum load the metal will support in tension. • Modulus of Elasticity - The ratio of stress to strain used to compare elasticity of metals.

  5. Other Mechanical Properties • Ductility - The property of a metal to be formed into shapes without breaking (drawn into wire). • Compression strength - The ability of a metal to withstand a compression force before deforming. • Torsion - The ability of metal to withstand a turning or twisting motion. • Shear strength - The ability of metal to withstand shearing pressure.

  6. Physical Properties • Hardness - The characteristic of metal which resists scratching, abrasion or indentation. • Toughness - The ability of a metal to absorb repeated abuse before failing. • Brittleness - The ability of the material to absorb shock or impact.

  7. Physical Properties(continued) • Corrosion Resistance - The ability of a metal to resist chemical action. • Electrical Resistance - The ability of metal to resist carrying an electric current (opposite of conductivity). • Fusability - Measure of ease of melting. • Thermal Expansion - Increase in size of metal from changes in temperature. • Cost – not a physical property, but must be considered

  8. Ferrous Metals • Made up of Iron and Carbon • Classification is based upon amount of carbon and the finish process • Steel – less than 1.7% Carbon • Cast Iron – more than 1.7% Carbon

  9. Ferrous Metals • Wrought iron - Very ductile, easily worked cold, high corrosion resistance. • Rivets, ornamental work • Low carbon steels - tough, ductile,easily formed, machined and welded. • Bolts, nails, sheet metal

  10. Ferrous metals cont. • Medium carbon steels - strong and hard, but not as easily forged or welded as low carbon. • Ag. machinery, bars, plates • High carbon steels - Respond well to heat treating to obtain any degree of hardness, temper or strength; special welding rods are required. • Screw drivers, pliers, drive shafts

  11. Ferrous metals (continued) • Very high carbon - mechanical characteristics are similar to high carbon. • Chisels, punches, dies, taps, files, metal cutting saws. • High speed steel (Alloy Steel) - contains carbon with cobalt, molybdenum and tungsten. Withstands heat from high speed operations. • Drills, milling cutters, taps, dies

  12. Ferrous metals (continued) • Gray cast iron - containing free carbon and silicon; brittle, resists rust. Slow cooling – graphite flakes. • Ag. machinery, engine blocks • White cast iron - carbon does not separate, very hard, white or silvery when broken, high wear resistance. Quick cooled. • Disc bearings

  13. Ferrous Metals(continued) • Malleable cast iron - white cast annealed to produce a steel skin;bends without breaking. • High strength Ag. machinery parts, some tools. • Ductile cast (Nodular) - addition of magnesium increases ductility, high strength. • Replaces gray and malleable cast.

  14. Non-Ferrous Metals • Brass - alloy of copper and zinc, harder than copper. • Hinges, screws, other hardware • Bronze - alloy of copper and tin, tough, wear resistant, highly corrosion resistant. • Machinery parts, bearings

  15. Non-Ferrous cont. • Aluminum - light weight, good strength, high electrical conductivity, excellent heat transfer, corrosion resistant. • Trailers, airplanes, food handling equipment • Magnesium - lightest weight, has low strength in pure form, produces magnesium oxides when burned. • Wheels, lawn mower frames

  16. Non-Ferrous cont. • Zinc - used for galvanizing, very corrosion resistant. • Nickel - increases hardness and improves resistance to corrosion in steel. • Lead - heavy and soft, considered a health hazard • Soldering

  17. Non-Ferrous cont. • Tin - very high corrosion resistant. • Solder, brass, bronze and pewter • Copper - excellent conductor of electricity and heat, very workable (ductile). • Wire, water pipes, radiators • Tungsten - high melting point, tungsten carbide is very hard. • Cutting and piercing tools

  18. Last of the Non-Ferrous • Silver - very soft, excellent conductor of electricity; sterling silver is 92.5% silver and 7.5% copper. • Metal alloys • Gold - 24 karats is pure gold. • Plating and jewelry

  19. Affects of Elements on Steel

  20. Reading Assignment • Metals • Iron & Steel and Their Alloys • Metal Identification • Drill Bits

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