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Aluminum, Copper, Iron, Lead, Zinc, Tin, Magnesium, Nickel

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Aluminum, Copper, Iron, Lead, Zinc, Tin, Magnesium, Nickel & Titanium are pure Metals. ... Titanium is used in a 99.5% pure state where corrosion resistance is ... – PowerPoint PPT presentation

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Title: Aluminum, Copper, Iron, Lead, Zinc, Tin, Magnesium, Nickel


1
Engineering Materials Metals
  • Michael Hubbard

2
Key Concepts
  • There are a number of basic properties that are
    important to classifying a metal for use with a
    particular manufacturing process and product
    application.
  • These properties are the materials density,
    color, electrical conductivity and reaction when
    exposed to heat.

3
Key Concepts
  • There are a four major types or classifications
    of metals Ferrous, Nonferrous, High Temperature
    Super alloy and refractory.
  • The two major types of ferrous metals are iron
    and steel.

4
Key Concepts
  • Since they are resistant to corrosion, nonferrous
    metals are more durable than iron and steel.
  • Super alloys are classified according to the base
    metal used (typically Iron, Nickel, or Cobalt).
  • There are three major methods used to identify
    types of steel AISI numbering, grinding and
    color coding.

5
Pure Metals
  • Aluminum, Copper, Iron, Lead, Zinc, Tin,
    Magnesium, Nickel Titanium are pure Metals.
  • Metals are not used in pure state very often.
    Titanium is used in a 99.5 pure state where
    corrosion resistance is the most important factor.

6
Steel
  • Steel in the simplest form is an alloy of Iron
    and Carbon. This is known as Carbon Steel.
  • For higher strength it is alloyed with Magnesium,
    Vanadium, Nickel, Chromium, Molybdenum and other
    elements.
  • When alloys are used with carbon the steel is
    called Alloy Steel.

7
Carbon Steel
  • 1018 Cold Drawn - .16 - .2 Carbon, .6 - .9 Mn,
    28 Elongation. Chip control is difficult.
  • 1018 Hot Rolled - .16 - .2 Carbon, .6 - .9 Mn,
    25 Elongation. Chip control is difficult!
  • 1117 Cold Drawn .16 - .2 Carbon, 1 - 1.3 Mn, .08
    - .13 Sulphur 16 Elongation, good chip control
  • 12L14 Cold Drawn - .15 - .35 LEAD 10
    Elongation!!! Great machining, poor forming

8
Aluminum
  • Aluminum is commonly alloyed with Silicon,
    Copper, Manganese, Magnesium, Zinc and Titanium.
  • The alloys provide a wide range of strength and
    corrosion resistance. Properties of aluminum
    alloys.

9
Aluminum Alloys
  • 2000 Series Alloys Copper (Cu) is primary
    alloying element.
  • 3000 Series Alloys - Manganese (Mn) is primary
    alloying element.
  • 4000 Series Alloys - Silicon (Si) is primary
    alloying element.
  • 5000 Series Alloys - Magnesium (Mg) is primary
    alloying element.

10
Aluminum Alloys
  • 6000 Series Alloys - Magnesium and Silicon (Mg
    and Si) is primary alloying element.
  • 7000 Series Alloys - Zinc (Zn) is primary
    alloying element.
  • 8000 Series Alloys - Varius alloying elements are
    used.

11
Physical Properties
  • Specific Heat The amount of energy required to
    raise the temperature of a mass of material 1
    degree.
  • Aluminum .902
  • Brass .382
  • Steel .473.
  • Notice how high the specific heat of aluminum is!

12
Physical Properties
  • Thermal Conductivity is the ease with which heat
    flows through a material. The higher the
    conductivity the more heat that is conducted.
  • Copper 400
  • Aluminum 236
  • Brass 114
  • Steel 43
  • SS 14

13
Physical Properties
  • Thermal Expansion is the amount a material
    expands when heated. Notice there are no units!
  • Aluminum .00001244
  • Copper .000009
  • Iron .00000655
  • Steel .00000655
  • Titanium .000004

14
Physical Properties
  • Density - Mass per cubic volume
  • Mild Steel - .284 lbs/in3
  • Aluminum - .0975 lbs/in3
  • 316 Stainless Steel - .33 lbs/in3
  • Hastelloy Super Alloy .35 lbs/in3
  • Magnetic Properties

15
Mechanical Properties
  • Hardness tests - Rockwell, Brinell
  • Charpy impact
  • Tensile strength
  • Ductility
  • Toughness
  • Elasticity

16
Mechanical Properties
  • Plastic deformation - Doesnt return to original
    shape.
  • Ductility - Elongation less 5 is brittle, More
    than 5 is Ductile.
  • Mild steel is 20-30
  • 316 SS is 40-50

17
Ferrous Metals
  • Steel has less than 1.7 percent carbon
  • Mild steel has 0.05 -0.3 percent carbon
  • Medium carbon steel has 0.3-0.7 percent carbon
  • High Carbon Steel has 0.7 - 1.3
  • 1020 - 1 is Carbon Steel, 0 is percent alloy, 20
    is tenths of carbon (.2)

18
Non-Ferrous Metals
  • Copper - Soft, easy to form, resists corrosion,
    good conductor
  • Aluminum - Soft, easy to form, resists corrosion,
    good conductor

19
High Temperature Alloys
  • Iron Based
  • Nickel Based - Hastelloy
  • Cobalt Based - Thermospan

20
Refractory Metals
  • Niobium 4474º
  • Tungsten 6170º
  • Uses - Incandescent Light filaments, welding
    electrodes

21
Homework Answers
  • Why are alloys so popular? Because the addition
    of alloy provides the mechanical properties
    needed for strength, corrosion resistance and
    ductility.

22
Homework Answers
  • Discuss the concept of plasticity in terms of a
    materials ability to withstand changes in its
    shape when being formed under pressure. A
    material that can be formed under pressure
    (forged) must have Plasticity. For example
    Aluminum can be formed under pressure but cast
    iron cant.

23
Homework Answers
  • How do Plasticity and Ductility differ?
    Plasticity is the ability to be formed by force,
    ductility is a measure of how much the shape can
    change.
  • 5 or less elongation is considered brittle,
    greater than 5 is considered ductile.

24
Homework Answers
  • List some products made with Refractory metals.
    How are the metals made?
  • Light bulb filaments, electrodes, gas turbines,
    crucibles. These metals are pure elements.

25
Homework Answers
  • Explain how the AISI numbering system is used in
    classifying steels.
  • The first two letters of the 4 digit number are
    the type of steel and the last two are the
    percent of carbon.

26
  • First two numbers Type of Steel
  • 10 Carbon Mn to 1 Max
  • 11 Resulfurized
  • 12 Resulfurized Rephosphorized
  • 15 Plain carbon Mn range 1 - 1.65
  • 13 Manganese Steel Mn 1.75
  • 23 Nickel Steel up to 3.5
  • 25 Nickel Steel up to 5.00
  • 31 Ni 1.25 Cr .65-.80
  • 32 Ni 1.75 Cr 1.07
  • 33 Ni 3.50 Cr 1.50-1.57
  • 34 Ni 3.00 Cr .77
  • 40 Molybdenum Steel Mo .2-.25
  • 44 Molybdenum Steel Mo .4-.52
  • 41 Chromium-Molybdenum
  • 43, 47, 81, 86, 87, 88, 93, 94, 97, 98 Nickel
    Chromium-Molybdenum
  • 50, 51, 50xxx, 51xxx, 52xxx Chromium Steels
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