Metals and Alloys COPY Flashcards

1
Q

Give some features of metals at ambient temperature:

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Are there any exceptions?

A
  • hard and lustrous
  • closely packed crystalline structures
  • opaque
  • conductors of heat and electricity

One exception is Hg, mercury, used in dental amalgam.

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2
Q

What is an alloy? Give examples of different types:

What is interesting with regards to metals in molten state?

A

An alloy is a mixture of two or more metals

e.g. 2 metals: binary alloy, 3 metals: ternary alloy

In molten state, metals display mutual solubility.

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3
Q

What are metals of regular crystalline structure composed of and how are they formed?

When do crystals stop growing?

What is a grain boundary?

A
  • composed of many small crystals which form from molten metal

As the metal cools;

  • impurities enable metal atoms to deposit upon them
  • these nucleate crystal growth

Grains

The grains grow until all the melt of the metal has been consumed

Grain boundary: where crystals join with their neighbours

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4
Q

Name and describe the two types of nucleation:

A

Heterogeneous:

  • many sites of nucleation
  • majority of dental applications

Homogeneous:

  • single site
  • metal is pure so requires 4 metal atoms to come together
  • requires specialised equipment
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5
Q

How does grain size affect metals?

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What is the lost wax technique?

List other factors affecting grain size:

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A
  • influences physical properties
  • controlled by manufacturer: rapid solidification, provision of ‘extra’ nucleation sites

Lost wax technique: make a replica of thing we wish to make, in wax, then surround wax with investment material, then melt wax out

  • Temperature of mould: if similar to the melt, slow cooling and large grain size. If different to the melt, perhaps cooler, rapid cooling and small grain size
  • Shape of mould: walls of mould initiate growth, therefore influence direction of crystal growth
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6
Q

List methods to shape metals/alloys:

A
  • hammering, rolling, pressing (e.g. stainless steel denture bases), drawing through a die (e.g. wire), cold working known as wrought working
  • casting: pouring molten form into an investment mould
  • amalgamation: mix alloy with mercury, leads to a plastic mass, a hardening chemical reaction and crystallisation
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7
Q

Define ductility:

Define malleability:

A
  • the maximum degree of extension in response to an applied tensile force e.g. drawing metal out into a wire)
  • the maximum degree of compression in response to an applied compressive force
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8
Q

Do elemental metals, such as pure gold, silver, copper, etc have much practical use?

A

Not much practical use, severe limitations of their properties, however uses may be extended by mixing metals to form alloys.

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9
Q

On cooling alloys from molten components, metals may:

A
  • remain soluble in each other - solid solution
  • be completely insoluble in each other
  • be partially soluble in each other
  • form intermettalic compounds if the metals have affinity for each other e.g. Ag3Sn
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10
Q

Name the three types of solid solutions:

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A
  • ordered solid solution
  • random solid solution
  • interstitial solid solution
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11
Q

What type of solid solution is this?

List its features:

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A

Ordered solid solution:

  • component metal atoms have specific sites in common lattice
  • this photo is substitutional as atomic radii are similar
  • if radii differ, distortions of lattice may occur which may be advantageous or disadvantageous
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12
Q

Which type of solid solution is this?

A

Random solid solution: random sites in common crystal lattice

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13
Q

What type of solid solution is this?

A

Interstitial solid solution: atoms of one lie within the primary lattice sites of the other, atomic radii dependent

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14
Q

Solid solutions compared to pure metals are:

What do they have?

A
  • harder, stronger, higher elastic limits

Hardening effect known as solution hardening - as atoms of differing radii form mechanical resistance to dislocations

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15
Q

Is insolubility of metals common or rare?

What issues can arise:

A
  • rare

Consequences:

  • areas high in metal A and areas high in pure metal B
  • risks electrolytic corrosion and a battery is set up, leading to corrosion and cored
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16
Q

Requirements of affinity of metals:

A
  • form intermettalic compounds
  • require precise chemical formulation:
  • few crystal imperfections means less potential for slip lane movement so material is hard, brittle and low ductility
17
Q

Explain this cooling curve for a pure metal:

A

Plateau at melting point indicates temperature constant during crystallisation.

18
Q

For the binary alloy, where A has the highet MP explain the temperature of crystallisation, and when crystallisation is rich in A and B

What are the implications of this?

A
  • Crystallisation occurs over a range of temperatures
  • At T1 crystallisation rich in A
  • At T2 crystallisation rich in B

Implications:

  • a cored structure
  • impact on corrosion resistance
19
Q

Label the liquidus and solidus:

Explain how to interpret this graph to conclude whether risk of corrosion is great or not:

A

The larger the separation between the solidus and liquidus, the greater the coring, therefore a greater risk of corrosion!

20
Q

What is a eutectic alloy?

A
  • specific point where crystallisation occurs at a specific temperature
  • behaves like a pure metal
  • narrow melting range
  • application as solders
21
Q

Label this diagram:

A