Chapter 11

Question 1

Age hardening

Answer 1

A strengthening mechanism that relies on a sequence of solid-state phase transformations
in generating a dispersion of ultra-fine particles of a second phase. Age hardening is a
form of dispersion strengthening. Also called precipitation hardening (Chapter 12).

Question 2

Dispersed phase

Answer 2

A solid phase that forms from the original matrix phase when the solubility limit
is exceeded.

Question 3

Dispersion strengthening

Answer 3

Increasing the strength of a material by forming more than one
phase. By proper control of the size, shape, amount, and individual properties of the phases, excellent
combinations of properties can be obtained.

Question 4

Eutectic

Answer 4

A three-phase invariant reaction in which one liquid phase solidifies to produce two solid
phases.

Question 5

Eutectic microconstituent

Answer 5

A characteristic mixture of two phases formed as a result of the
eutectic reaction.

Question 6

Eutectoid

Answer 6

A three-phase invariant reaction in which one solid phase transforms to two different
solid phases.

Question 7

Hyper-

Answer 7

A prefix indicating that the composition of an alloy is more than the composition at which
a three-phase reaction occurs.

Question 8

Hypereutectic alloy

Answer 8

An alloy composition between that of the right-hand end of the tie line
defining the eutectic reaction and the eutectic composition.

Question 9

Hypo-

Answer 9

A prefix indicating that the composition of an alloy is less than the composition at which a
three-phase reaction occurs

Question 10

Hypoeutectic alloy

Answer 10

An alloy composition between that of the left-hand end of the tie line defining
the eutectic reaction and the eutectic composition.

Question 11

Interlamellar spacing

Answer 11

Interlamellar spacing

Question 12

Intermediate solid solution

Answer 12

A nonstoichiometric intermetallic compound displaying a range
of compositions.

Question 13

Intermetallic compound

Answer 13

A compound formed of two or more metals that has its own unique
composition, structure, and properties.

Question 14

Interphase interface

Answer 14

The boundary between two phases in a microstructure. In metallic materials,
this boundary resists dislocation motion and provides dispersion strengthening and precipitation
hardening.

Question 15

Isopleth

Answer 15

IsoplethIsopleth

Question 16

Intermediate solid solution

Answer 16

A nonstoichiometric intermetallic compound displaying a range
of compositions.

Question 17

Intermetallic compound

Answer 17

A compound formed of two or more metals that has its own unique
composition, structure, and properties.

Question 18

Interphase interface

Answer 18

The boundary between two phases in a microstructure. In metallic materials,
this boundary resists dislocation motion and provides dispersion strengthening and precipitation
hardening.

Question 19

Isopleth

Answer 19

A line on a phase diagram that shows constant chemical composition

Question 20

Isoplethal study

Answer 20

Determination of reactions and microstructural changes that are expected while
studying a particular chemical composition in a system

Question 21

Lamella

Answer 21

A thin plate of a phase that forms during certain three-phase reactions, such as the eutectic
or eutectoid.

Question 22

Matrix

Answer 22

The continuous solid phase in a complex microstructure. Solid dispersed phase particles
may form within the matrix.

Question 23

Metastable miscibility gAP

Answer 23

A miscibility gap that extends below the liquidus or exists completely
below the liquidus. Two liquids that are immiscible continue to exist as liquids and remain
unmixed. These systems form the basis for Vycor™ and Pyrex® glasses.

Question 24

Microconstituent

Answer 24

phase or mixture of phases in an alloy that has a distinct appearance.
Frequently, we describe a microstructure in terms of the microconstituents rather than the actual
phases.

Question 25

Miscibility gap

Answer 25

A region in a phase diagram in which two phases, with essentially the same structure,
do not mix, or have no solubility in one another.

Question 26

Modification

Answer 26

Addition of alloying elements, such as sodium or strontium, which change the
microstructure of the eutectic microconstituent in aluminum-silicon alloys.

Question 27

Monotectic

Answer 27

A three-phase reaction in which one liquid transforms to a solid and a second liquid
on cooling.

Question 28

Nanowires

Answer 28

are cylinders or “wires” of material with diameters on the order of 10 to 100 nm.

Question 29

Nonstoichiometric intermetallic compound

Answer 29

A phase formed by the combination of two
components into a compound having a structure and properties different from either component.
The nonstoichiometric compound has a variable ratio of the components present in the compound
(see also intermediate solid solution).

Question 30

Peritectic

Answer 30

A three-phase reaction in which a solid and a liquid combine to produce a second solid
on cooling.

Question 31

Peritectoid

Answer 31

A three-phase reaction in which two solids combine to form a third solid on cooling

Question 32

Precipitate

Answer 32

A solid phase that forms from the original matrix phase when the solubility limit is
exceeded. We often use the term precipitate, as opposed to dispersed phase particles, for alloys
formed by precipitation or age hardening. In most cases, we try to control the formation of the precipitate
second phase particles to produce the optimum dispersion strengthening or age hardening.
(Also called the dispersed phase.)

Question 33

Precipitation hardening

Answer 33

A strengthening mechanism that relies on a sequence of solid-state
phase transformations in generating a dispersion of ultra-fine precipitates of a second phase
(Chapter 12). It is a form of dispersion strengthening. Also called age hardening.

Question 34

Primary microconstituent

Answer 34

The microconstituent that forms before the start of a three-phase
reaction. Also called the proeutectic microconstituent

Question 35

Solvus

Answer 35

A solubility curve that separates a single solid-phase region from a two solid-phase region
in the phase diagram

Question 36

Stoichiometric intermetallic compound

Answer 36

A phase formed by the combination of two components
into a compound having a structure and properties different from either component.
The stoichiometric intermetallic compound has a fixed ratio of the components present in the
compound.

Question 37

Strengthening mechanisms so far (3)

Answer 37

Cold work, Grain size strengthening, Solid Solutions

Question 38

What happens if we exceed the solubility limit?

Answer 38

We have more than 1 phase

Question 39

Intermetallic Compounds

Answer 39

Contains 2 or more metallic elements producing a

new phase and crystal structure.

Question 40

Intermetallic Compounds Are almost always

Answer 40

hard and brittle and thermally

stable.

Question 41

Eutectic

Answer 41

liquid transforms to two solid phases

Question 42

Eutectoid

Answer 42

one solid phase transforms to two other

solid phases

Question 43

Peritectic

Answer 43

liquid and one solid phase transform to a

second solid phase

Question 44

Eutectics have relatively (2)

Answer 44

low melting points and no

freezing range.

Question 45

Eutectics are _______ casting alloys

Answer 45

Effective

Question 46

Eutectics are ____melting solders

Answer 46

Low

Question 47

Nonequilibrium freezing can result in a _______

solidus curve

Answer 47

nonequilibrium

Question 48

Dispersion strengthening can be obtained when ……

Answer 48

the
solubility limit is exceeded and 2 or more phases are
produced.

Question 49

T / F - For optimum dispersion strengthening of a metal - a large number of small, hard, discrete particles in a soft, ductile
matrix will most effectively block dislocations

Answer 49

True

Question 50

T / F - For optimum dispersion strengthening of a metal - round dispersed particles minimize stress concentrations

Answer 50

True

Question 51

Intermetallic compounds are strong but _____

Answer 51

brittle

Question 52

Phase diagrams for materials containing multiple

phases normally contain one or more ______ reactions

Answer 52

3-phase

Question 53

The eutectic reaction permits _____ to solidify as an intimate mixtures of two phases

Answer 53

liquid

Question 54

eutectic _________ can be controlled to generate a variety of
properties, including a balance of strength and ductility

Answer 54

microstructures