Chapter 10

Question 1

Alloy

Answer 1

A material made from multiple elements that exhibits properties of a metallic material

Question 2

Binary phase diagram

Answer 2

A phase diagram for a system with two components

Question 3

Copolymer

Answer 3

A polymer that is formed by combining two or more different types of monomers,
usually with the idea of blending the properties affiliated with individual polymers.

Question 4

Coring

Answer 4

Chemical segregation in cast products, also known as microsegregation or interdendritic
segregation. The centers of the dendrites are rich in the higher melting point
element, whereas interdendritic regions, which solidify last, are rich in the lower melting point
element.

Question 5

Dispersion strengthening

Answer 5

Strengthening, typically used in metallic materials, by the formation
of ultra-fine dispersions of a second phase. The interface between the newly formed phase and
the parent phase provides additional resistance to dislocation motion, thereby causing strengthening
of metallic materials (Chapter 11).

Question 6

Freezing range

Answer 6

The temperature difference between the liquidus and solidus temperatures

Question 7

Gibbs phase rule

Answer 7

Describes the number of degrees of freedom, or the number of variables
that must be fixed to specify the temperature and composition of a phase ( ,
where pressure and temperature can change, , where pressure or temperature is
constant).

Question 8

Homogenization heat treatment

Answer 8

The heat treatment used to reduce the
microsegregation caused by nonequilibrium solidification. This heat treatment cannot eliminate
macrosegregation.

Question 9

Hot isostatic pressing (HIP)

Answer 9

Sintering of metallic or ceramic powders, conducted under an isostatic
pressure.

Question 10

Hot pressing (HP)

Answer 10

Sintering of metal or ceramic powders under a uniaxial pressure; used for production
of smaller components of materials that are difficult to sinter otherwise.

Question 11

Hot shortness

Answer 11

Melting of the lower melting point nonequilibrium material that forms due to segregation,
even though the temperature is below the equilibrium solidus temperature.

Question 12

Hume-Rothery rules

Answer 12

The conditions that an alloy or ceramic system must meet if the system is
to display unlimited solid solubility. The Hume-Rothery rules are necessary but are not sufficient for
materials to show unlimited solid solubility.

Question 13

Interdendritic segregation

Answer 13

Coring

Question 14

Isomorphous phase diagram

Answer 14

A phase diagram in which the components display unlimited

solid solubility.

Question 15

Lever rule

Answer 15

A technique for determining the amount of each phase in a two-phase system.

Question 16

Limited solubility

Answer 16

When only a certain amount of a solute material can be dissolved in a solvent
material.

Question 17

Liquidus

Answer 17

Curves on phase diagrams that describe the liquidus temperatures of all possible
alloys.

Question 18

Liquidus temperature

Answer 18

The temperature at which the first solid begins to form during solidification

Question 19

Macrosegregation

Answer 19

The presence of composition differences in a material over large distances
caused by nonequilibrium solidification. The only way to remove this type of segregation is to break
down the cast structure by hot working.

Question 20

Multiple-phase alloy

Answer 20

An alloy that consists of two or more phases.

Question 21

Phase

Answer 21

Any portion, including the whole of a system, which is physically homogeneous within it
and bounded by a surface so that it is separate from any other portions.

Question 22

Phase diagrams

Answer 22

Diagrams showing phases present under equilibrium conditions and the phase
compositions at each combination of temperature and overall composition. Sometimes phase diagrams
also indicate metastable phases

Question 23

P-T diagram

Answer 23

A diagram describing thermodynamic stability of phases under different temperature
and pressure conditions (same as a unary phase diagram).

Question 24

Segregation

Answer 24

The presence of composition differences in a material, often caused by insufficient
time for diffusion during solidification.

Question 25

Single-phase alloy

Answer 25

An alloy consisting of one phase

Question 26

Solid solution

Answer 26

A solid phase formed by combining multiple elements or compounds such that the
overall phase has a uniform composition and properties that are different from those of the elements
or compounds forming it.

Question 27

Solid-solution strengthening

Answer 27

Increasing the strength of a metallic material via the formation
of a solid solution

Question 28

Solidus

Answer 28

Curves on phase diagrams that describe the solidus temperature of all possible alloys

Question 29

Solidus temperature

Answer 29

The temperature below which all liquid has completely solidified

Question 30

Solubility

Answer 30

The amount of one material that will completely dissolve in a second material without
creating a second phase.

Question 31

Tie line

Answer 31

A horizontal line drawn in a two-phase region of a phase diagram to assist in determining
the compositions of the two phases.

Question 32

Triple point

Answer 32

A pressure and temperature at which three phases of a single material are in equilibrium

Question 33

Unary phase diagram

Answer 33

A phase diagram in which there is only one component

Question 34

Unlimited solubility

Answer 34

When the amount of one material that will dissolve in a second material
without creating a second phase is unlimited.

Question 35

Gibbs Phase Rule

Answer 35

P + F = C + N

Question 36

Gibbs Phase Rule - P =

Answer 36

of phases

Question 37

Gibbs Phase Rule - F =

Answer 37

of deg of freedom (T, P & %x)

Question 38

Gibbs Phase Rule - C =

Answer 38

of components

Question 39

Gibbs Phase Rule - N =

Answer 39

non-compositional variables (T & P)

Question 40

Conditions for Unlimited Solid Solubility (4 of them)

Answer 40

Size factor, Crystal structure, Valence, Electronegativity

Question 41

Do two examples of the lever rule

Answer 41

DO THEM!

Question 42

Solid-Solution Strengthening (alloying) is a primary …..

Answer 42

strengthening mechanism

Question 43

strength increases with increasing difference between

Answer 43

solvent (host) and solute (guest) size

Question 44

Phase diagrams are useful tools to determine (3 points)

Answer 44

• • the number and types of phases present,
• • the composition of each phase,
• • and the weight fraction of each phase given the temperature and composition of the system