Mats. Final

Question 1

Graphite, iron, quartz

Answer 1

Crystalline

Question 2

BCC

Answer 2

Bold

Question 3

Glass

Answer 3

Amorphous

Question 4

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oooooAooo
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Answer 4

A = Vacancy
b = substitution

Question 5

Graphite in cast iron is an example of what type of defect?

Answer 5

precipitae

Question 6

Dislocation definition

Answer 6

extra half plane of atoms

Question 7

how are grain boundaries formed in crystals?

Answer 7

cooling from a liquid

Question 8

when a metal/crystal is loaded in tension in elastic region, what’s happening to the atomic bonds?

Answer 8

bond length is getting longer “stretch”

Question 9

what 2 criteria about a crystal need to be satisfied in order for material to be ductile?

Answer 9

crystal must have slip planes and dislocations

Question 10

during ductile/plastic deformation of a metal/crystal loaded in tension, the planes of atoms are moving in response to what resolved stress?

Answer 10

shear

Question 11

when we say that planes of atoms are slipping, what’s actually moving?

Answer 11

dislocations

Question 12

All 4 strengthening mechanisms and defect/imperfection that makes material stronger

Answer 12

Solid strength hardening = subs.
Precipitation hardening = precipitates
Grain refinement = grain boundaries
Strain hardening = dislocations

Question 13

T or F: Mechanisms used to make metals stronger also make them more brittle.

Answer 13

T

Question 14

After grain refinement used to make metals stronger, what can you do to “erase” it or make it weaker again?

Answer 14

Annealing = heat up to a phase transition and cool again slowly

Question 15

Steel is an iron-carbon alloy. There is a eutectoid transformation in alloys with 0.76% carbon. What phase
exists immediately above the eutectoid point and what phases exist below it?

Answer 15

Above E = gamma; Below E = alpha and Fe3C

Question 16

what’s special about the microstructure that forms after a eutectic or eutectoid transformation?

Answer 16

it’s layered

Question 17

what’s the melting temperature of pure iron?

Answer 17

1538 C

Question 18

T or F: Austenite is a liquid

Answer 18

F but a FCC

Question 19

What is the yield strength of a mild 1018/A36 steel?

Answer 19

36 ksi

Question 20

Stress concentrations at crack tips are dependent on:

Answer 20

Crack length, Crack radius of curvature, Applied tensile stress

Question 21

Name one factor that the stress intensity (KI) depends on

Answer 21

crack length, applied tensile stress, geometry

Question 22

What happens to atoms in plastic deformation? (ductile)

Answer 22

planes of atoms “slip” in shear

Question 23

Ductile materials have 2 components:

Answer 23

CPP and dislocations

Question 24

How do dislocations exist?

Answer 24

Entropy

Question 25

Dislocation motion?

Answer 25

visualize car driving down road as shear stress needed to move dislocation

Question 26

Why is deformation important ?

Answer 26

Once broken & reformed a new bond, you would have to break it again to go backward

Question 27

Why does slip happen only on close (or closely) packed planes?

Answer 27

CPP have shortest slip distance (break fewest bonds) “slip planes”

Question 28

Step Process of Slip Planes

Answer 28

FCC have 3 intersecting CPP and have 12 slip systems
HCP have parallel slip planes and about 3 slip systems
BCC have 2 intersecting CPP and have about 12 slip systems

Question 29

HCP brittle or ductile than rest?

Answer 29

Brittle

Question 30

Alloying?

Answer 30

dissolving an impurity metal into majority metal

Question 31

strengthening = hardening =

Answer 31

embrittling

Question 32

Fe3C (cemenite) is ductile or brittle?

Answer 32

brittle

Question 33

Smaller grain size =

Answer 33

more brittle (stronger) and cool faster

Question 34

weakening = softening =

Answer 34

ductilifying

Question 35

Component?

Answer 35

composition which is ingredients

Question 36

phase?

Answer 36

structure which is how components are arranged in space

Question 37

What’s ferrite?

Answer 37

alpha iron: BCC

Question 38

Pearlite?

Answer 38

thinner the layers the faster you cool it and less time for diffusion

Question 39

As C content increases…

Answer 39

strength increases, ductility decreases, and weldability decreases

Question 40

43xx means…

Answer 40

nickel, cr, and maybe molybdenum

Question 41

How does ductile mats. fail?

Answer 41

in yielding. when dislocations move along CPP due to resolved shear stress

Question 42

How do brittle mats. fail?

Answer 42

in tension due to crack growth

Question 43

Fracture when

Answer 43

Applied stress greater than or equal to stress bond break

Question 44

Crack will grow when

Answer 44

max stress greater than or equal to stress bond break

Question 45

fracture toughness =

Answer 45

KIC (stress = applied stress needed for cracks to start growing

Question 46

Creep =

Answer 46

constant stress (strain reduces)

Question 47

stress relaxation =

Answer 47

constant strain (stress reduces)

Question 48

Fatigue =

Answer 48

cyclical load which is worried about tension

Question 49

the longer the cracks…

Answer 49

the longer the stress concentration

Question 50

fatigue limit can…

Answer 50

withstand infinite N, as long as S < fatigue limit

Question 51

N is highly variable and…

Answer 51

dependent on flaws - change with specimens

Question 52

Tresca

Answer 52

ductile mats. = max shear stress

Question 53

Rankine

Answer 53

brittle mats. = max principal stress theory

Question 54

Galvanic Couple

Answer 54

anode oxides and cathode reduces and get a voltage

Question 55

Corrosive environments include

Answer 55

moisture containing dissolved O
Sulfur (acid rain)
NaCl (sea water)
Soil (damp)

Question 56

Types of corrosion

Answer 56

Uniform attack, galvanic corrosion (2 alloys/metals are electrically coupled), crevice and pitting, intergranular, stress corrosion, and H embrittlement in steel

Question 57

Corrosion Prevention

Answer 57

Paint, “passivation” (protective oxide barrier)

Question 58

Which of the following is an example of a material that has been strengthened using precipitation hardening?

Answer 58

Steel

Question 59

Why does making a metal stronger also make it more brittle?

Answer 59

Dislocations can’t move easily.

Question 60

Why are ductile mats. less crack sensitive than brittle mats.?

Answer 60

Plastic deformation at the crack tip increases the radius of curvature

Question 61

Why did zinc and copper pennies behave differently when hit by a hammer?

Answer 61

Some slip planes are inactive at cold temps

Question 62

When failure in fatigue happens in metals, we look
at the stress amplitude, i.e. the maximum tensile stress in the cycles of loading. Why do we look at the
maximum tensile stress and not the maximum compressive stress?

Answer 62

Tensile stress make cracks grow

Question 63

Why does the oxidation of silver or aluminum not cause extensive damage while the oxidation of steel does cause extensive damage?

Answer 63

Steels oxidation product flakes off and exposes new surface

Question 64

In galvanized steel, the steel is coated with

Answer 64

Zinc

Question 65

Why doesn’t steel reinforcement in concrete start rusting immediately after placement since concrete
contains water with dissolved ions?

Answer 65

The high pH of concrete pore solution prevents steel from forming rust

Question 66

Covalent Bond

Answer 66

A chemical bond involving the sharing of electron pairs between atoms is known as a covalent bond (H20, N2, CH4, H2, O2)

Question 67

Ionic Bond

Answer 67

the complete transfer of valence electron(s) between atoms (NaCl, NaBr, KF, KCl)

Question 68

Metallic Bond

Answer 68

Same chemicals mixed (Gold, Silver, Copper)

Question 69

Hydrogen Bond

Answer 69

Molecules that contain a hydrogen atom bound with fluorine, oxygen, or nitrogen are considered examples that show the hydrogen bonding process. (Water, ammonia, hydrogen fluoride)

Question 70

Why are the bonding energy and melting temperature linearly correlated for metals?

Answer 70

Because melting occurs when metallic bonds in metals are broken

Question 71

Bonds that share valence electrons?

Answer 71

Covalent and Metallic

Question 72

Bonds that have electrostatic attraction?

Answer 72

Ionic and Hydrogen

Question 73

When thermoplastic polymers melt…

Answer 73

H bonds between hydrocarbon chains break

Question 74

Propane and polyethylene (PE) are both only made of C and H. Propane has 3 Carbons in each molecule while PE has thousands. Why is propane a gas at room T while PE is a solid?

Answer 74

PE has more H bonds than propane

Question 75

Highest to Lowest most expected plastic deformation polymers?

Answer 75

Polyethylene, polystyrene, rubber

Question 76

Why is rubber elastic?

Answer 76

It has covalently-bonded cross-links between hydrocarbon chains

Question 77

Why is HDPE stronger and more brittle at -40°C than at room temperature (RT) and higher temperatures (i.e., what happens to the molecules at different temperatures)?

Answer 77

At lower temperatures the atoms have less vibrational energy, so the hydrogen bonds are stronger. When the hydrogen bonds are stronger, the material is stronger and more brittle because the chains cannot slip past each other to make plastic deformation

Question 78

Rubber bridge bearings and base-isolation systems are used to allow shear deformation of bridges and
buildings due to thermal expansion or earthquakes. These are considered polymer composite materials
where rubber is the matrix. What is the reinforcement material used?

Answer 78

Steel

Question 79

Fiber reinforced polymers (FRP) are used in a variety of civil engineering applications, for example as an
alternative to steel for reinforcing concrete. Why would you want to use FRP instead of steel rebars?

Answer 79

FRP does not corrode/rust

Question 80

In the FRP composites used in civil engineering, the fibers are:

Answer 80

Continuous through the material and aligned in parallel to each other

Question 81

In the FRP composites used in civil engineering, the matrix is

Answer 81

Epoxy/resin

Question 82

Carbon fiber-reinforced polymers (CFRP) are used to strengthen structural concrete members. To structurally strengthen a load-bearing column, in what orientation are the fibers applied relative to the
column?

Answer 82

Around the circumference of the column (transverse)

Question 83

Asphalt can come from either natural deposits or from crude oil. In the crude oil refining processes, asphalt is at the “bottom of the barrel” because

Answer 83

The hydrocarbons in asphalt have a higher molecular weight than the hydrocarbons in gasoline, the asphalt is a solid room temperature whereas gasoline is a liquid, and asphalt is a waste or by-product containing the molecules the other products don’t want

Question 84

Asphalt flows like a liquid at high temperatures and is a solid at room temperature because

Answer 84

It is a polymer, and the hydrogen bonds between chains break at high temperatures

Question 85

Which of the following asphalt deterioration mechanisms happens due to traffic loading when it is too hot outside for the asphalt binder used in the pavement?

Answer 85

rutting

Question 86

Asphalt pavements are designed using performance criteria. Which of the following is considered to be a design criterion used for designing the material to be used in pavements?

Answer 86

The behavior of the asphalt under the expected traffic loads

Question 87

Why is it easier to recycle an asphalt pavement into another asphalt pavement than it is to recycle a portland cement concrete pavement into another pavement? (In your answer, explain how asphalt
pavements can be recycled.)

Answer 87

Asphalt is recycled by heating it again, just like thermoplastic polymers. Cement cannot be rehydrated once it is hydrated - it is a one-way chemical reaction. You can re-place the asphalt in a pavement by heating again, melting it, and allowing it to cool and solidify. You can only reuse the
aggregate in concrete, not the concrete itself.

Question 88

Wood is a natural composite material made of polymer fibers with a polymer matrix. What polymer are the fibers made from?

Answer 88

Cellulose

Question 89

Assuming the fiber saturation point of wood is 26%, rank the following moisture conditions in order of
highest (1) to lowest (4) volume on the answer sheet. Write “=” between conditions that have the same
volume: 10%, 20%, 30%, 50%.

Answer 89

1) Highest 50% = 30% > 20% > 10% (4) Lowest

Question 90

For the moisture states in the previous question, which one would be the strongest in compression?
(There may be more than one correct answer, but just pick one.

Answer 90

10%

Question 91

Engineered wood composites combine wood pieces with polymeric glues to overcome some of the
shortcomings of natural wood. Name one shortcoming of natural wood that engineered wood solves

Answer 91

Size, defects, anisotropy, etc

Question 92

Why do metallic atoms prefer to arrange themselves in crystal structures?

Answer 92

To minimize potential energy, to reduce interatomic distance, and to allow sharing of electrons

Question 93

Which two of the unit cells have close-packed planes (i.e., planes in which the atoms are packed as closely as they possibly can be)?

Answer 93

FCC and HCP

Question 94

What does it mean for a material’s atomic structure to be called “amorphous?”

Answer 94

The atoms are not arranged in a regular, repeating order. They are randomly arranged (like in a liquid) or almost random.

Question 95

Point defects in crystals involve a single atom in the crystal “lattice.” Which of the following is NOT a point defect?

Answer 95

Dislocation

Question 96

If you have a piece of graphite embedded in a diamond, what kind of defect would you call that?

Answer 96

Precipitate

Question 97

Most materials are “polycrystalline,” meaning that they are made up of a lot of microscopic crystals aligned randomly. What do we call the interfaces where one microscopic crystal meets another microscopic crystal in a material?

Answer 97

Grain boundary

Question 98

Metal example

Answer 98

Iron, gold, steel, brass

Question 99

Ceramic example

Answer 99

Clay, limestone, glass, concrete

Question 100

Polymer example

Answer 100

Rubber, silicone, nylon, teflon, PVC

Question 101

When we say that a diamond is hard, that means

Answer 101

It has a high resistance to scratching/indentation

Question 102

Which one typically has a lower elastic modulus, the matrix or reinforcement?

Answer 102

Matrix

Question 103

Which one typically has a lower elastic modulus, the matrix or reinforcement?

Answer 103

Matrix

Question 104

Which one is typically stronger, the matrix or reinforcement?

Answer 104

Reinforcement

Question 105

Which one is typically present as fibers or particles, the matrix or reinforcement?

Answer 105

Reinforcement

Question 106

Which component of a concrete composite is present in the greatest volume fraction?

Answer 106

Aggregate

Question 107

Why do we use both fine and coarse aggregates together in concrete mixtures?

Answer 107

To reduce void spacing and fill volume

Question 108

What factors are considered when restricting the nominal maximum aggregate size to be used in a concrete mixture?

Answer 108

Spacing between reinforcement, formwork/minimum dimension, and depth (if it is in a slab)

Question 109

Aggregate moisture content is important to consider in concrete mixture design. Which moisture state
represents the total potential absorption of the aggregate?

Answer 109

Saturated surface dry

Question 110

Name a mineral that can be used as a raw material in the production of cement.

Answer 110

Limestone, clay, etc.

Question 111

CO2 emissions from cement manufacturing come from:

Answer 111

burning of fossil fuels to heat the kiln, power used in grinding and transportation, and decomposition of limestone

Question 112

Which cement hydration reaction product acts as glue, holding all the particles together and providing strength?

Answer 112

C-S-H

Question 113

Define segregation in concrete

Answer 113

Segregation is the separation of components of the concrete mixture in the fresh or fluid state where aggregates settle to the bottom and cement paste and water rise. It results
in an inhomogeneous mixture

Question 114

Define setting in concrete

Answer 114

Setting is the transition from the fluid state to the solid state, after which concrete begins to harden and gain strength.

Question 115

Why does increasing the water-to-cement ratio decrease the compressive strength of concrete?

Answer 115

More water-filled pores per volume of concrete

Question 116

Why does increasing age increase the compressive strength of concrete?

Answer 116

More C-S-H per volume of concrete

Question 117

When using the volumetric method to design a concrete mixture, what variable in the material proportions is used to help you target the specified 28-day compressive strength?

Answer 117

Water-to-cement ratio

Question 118

When using the volumetric method to design a concrete mixture, what variable in the material proportions is used to help you target the specified slump?

Answer 118

Water content

Question 119

Tor F? If you oven dry all of your aggregate before batching and mixing concrete, you don’t need to do moisture corrections to your mixture design to adjust the amount of water and aggregate you weigh out.

Answer 119

False (you need to correct the water content for the water the aggregate will absorb)

Question 120

In the US, we make cylinders in order to test the compressive strength of concrete. What is the aspect ratio (length/diameter) of the cylinders used?

Answer 120

2

Question 121

If we test concrete in compression and capture a stress-vs-strain curve, it appears to be quasi-brittle (i.e. not completely brittle). Why?

Answer 121

Cracking creates some permanent deformation

Question 122

We can measure a representation of the tensile strength of concrete using flexural or splitting tensile testing. True or False: The tensile strength of concrete is greater than its compressive strength.

Answer 122

False

Question 123

Supplementary cementitious materials (SCMs) are chemically reactive in concrete mixtures by definition. Which of the following is an expected reaction product from the chemical reaction of an SCM?

Answer 123

C-S-H

Question 124

Which of the following SCMs is used to make high strength concrete:

Answer 124

Silica fume

Question 125

Admixtures are used to manipulate concrete properties. Which chemical would you add to concrete to increase the slump without adding more water?

Answer 125

Plasticizer/Superplasticizer

Question 126

How do you prevent plastic shrinkage cracking?

Answer 126

Moist curing

Question 127

Which of the following is used to prevent cracking from freeze-thaw cycles?

Answer 127

Air-entraining admixtures

Question 128

Why does corrosion of steel reinforcement in concrete cause cracking?

Answer 128

The rust that forms is expansive

Question 129

Why are hydrocarbons with 1000 carbons in a molecule solid state at room T while hydrocarbons with 4 carbons in a molecule in the gas state?

Answer 129

It has more H bonds

Question 130

Why does polystyrene (PS) have a higher yield strength and lower ductility than polyethylene (PE)?

Answer 130

PS has bulkier functional groups

Question 131

Which fiber material would give you the highest elastic modulus in an FRP composite made with an epoxy resin?

Answer 131

Carbon

Question 132

In which of the following civil engineering applications do we use FRP composites?

Answer 132

Repair and strengthening of concrete structural elements

Question 133

Asphalt binder (or bitumen) is considered to be a polymer. Why?

Answer 133

It has a glass transition temperature (brittle when cold), contains hydrocarbon molecules that have a high molecular weight, and it melts when heated bc of H bonds breaking

Question 134

In which direction is the strength of wood the highest?

Answer 134

Compression parallel to the grain

Question 135

In which of the following moisture states is wood at its highest volume assuming that the fiber saturation point is 26%

Answer 135

100% and 50% moisture