Aggregates And Admxitures

Question 1

What is an aggregate?

Answer 1

A granular material used in construction

Question 2

How much volume does aggregates of concrete take up?

Answer 2

60~80%

Question 3

What do aggregates within concrete influence?

Answer 3

Workability
Density
Strength
Dimensional stability
Durability
Mix design
Cost

Question 4

What are the three sources of aggregates?

Answer 4

Natural

Manufactured

Recycled

Question 5

What are some examples of natural aggregate sources? (Primary aggregates)

Answer 5

Crushed rock

Sand & gravel

Question 6

What are some examples of manufactured aggregates?

Answer 6

Industrial by-products such as

blast furnace slag
Fly ash

Expanded clay

Question 7

What is an example of recycled aggregates?

Answer 7

Construction & demolition waste

Question 8

What goes into the production of crushed rock aggregates? (4)

Answer 8

Removal of material overlying useful aggregates

Drilling and blasting

Processing

Quality control

Question 9

What goes into sand and gravel aggregate production? (4)

Answer 9

Removal of overburden

Extraction dry/wet or dredging

Processing

Quality control

Question 10

What is the main difference about marine aggregates?

Answer 10

Chloride & shell content

Question 11

What is shell marine aggregate mostly made of and why is it important?

Answer 11

Mostly calcium carbonate

Stable in concrete

Strong, but affects workability

Max is 10% of concrete volume

Question 12

How are manufactured aggregates . . . Manufactured?

Answer 12

Raw materials are pelletised then sintered at 1000-1200°C

Gases generated make pellets expand

Question 13

The interior of a manufactured aggregate looks like black pudding, what am I talking about?

Answer 13

Spherical particles with porous centre and low density

Question 14

What are the advantages of manufactured aggregates

Answer 14

Porous, lightweight, you can decide density

More voids, more air trapped, better insulation

Question 15

Why not choose manufactured aggregates?

Answer 15

Weak aggregate

Question 16

Why do we add aggregates to concrete at all?

Answer 16

Increase strength

Increase volume

Increase thermal insulation

Increase dimensional stability

Question 17

How does primary aggregate strength compare to concrete

Answer 17

Aggregate - 200MPa

Cement paste - 30~50MPa

Question 18

Why would we care about the strength and elastic modulus of our concrete aggregates?

Answer 18

They influence the overall mechanical property of concrete

Question 19

Angular, rough particles require more [] & [] to produce a workable mix, increasing []

Answer 19

Water and cement

Cost

Question 20

What kind of aggregates should be avoided?

Answer 20

Flaky and elongated

Question 21

What is special about gravels?

Answer 21

They have rounded edges, smooth surfaces due to attrition from water or glacial transportation

Question 22

What is special about crushed rock?

Answer 22

They are angular, have rough surfaces

Question 23

Between gravels and crushed rock, what makes a better aggregate?

Answer 23

Crushed rock

Question 24

Why does failure occur when using gravels?

Answer 24

Debonding at the concrete-aggregate interface

Low strength

Question 25

Why does failure occur when using crushed rock?

Answer 25

Fracturing of the aggregate

High strength

Question 26

Between well graded and gap graded aggregate selections, what is best for concrete?

Answer 26

Well graded

Less voids

More workability, reduction of cost

Question 27

An excess of large aggregates leads to . . .

Answer 27

Segregation

Question 28

What is the typical porosity of natural aggregates? (3)

Answer 28

Igneous 0.5~2%

Sedimentary 5%

Porous sandstone and limestones 10~40%

Question 29

What does porosity influence?

Answer 29

Density

Water absorption

Workability

Strength

Mix design

Question 30

What is the definition of a deleterious substance?

Answer 30

Any substance that interferes with hydration, setting and hardening of concrete.

May cause swelling and disruptions

Question 31

What are some examples of deleterious substances ? (6)

Answer 31

Fine materials - clay, silt,dust

Weak or unsound particles - disintegrate

Gypsum or other sulphites

Chlorides - accelerate steel corrosion

Reactive silica and carbonate - react with alkalis in concrete pores to produce expansive gel

Question 32

What is the interfacial transition zone? (ITZ)

Answer 32

30-50micron thick region that surrounds each aggregate particle

Question 33

The ITZ contains (2)

Answer 33

Lower cement
Higher porosity

Question 34

What causes the ITZ?

Answer 34

Inefficient packing of cement grains on large aggregate

Question 35

How is the ITZ in terms of strength

Answer 35

Weak, structurally inferior

Question 36

How is micro cracking at the ITZ caused?

Answer 36

When concrete dries, the matrix shrinks, faults often begin at the ITZ

Question 37

What are concrete admixtures?

Answer 37

Materials other than aggregates that is added to cement paste in the mixing phase to change fresh/hardened state properties

Question 38

What are the four main categories of admixture?

Answer 38

Superplasticizers

Air entraining agents

Accelerators

Retarders

Question 39

What does the superplastisizer do?

Answer 39

Decreases surface tension

Question 40

What is surface tension?

Answer 40

Tension on the surface of a liquid caused by the attraction of the surface particles to the bulk of the liquid.

This tends to minimise surface area.

Question 41

Superplasticizers consist of

Answer 41

Anionic polar group joined to long hydrocarbon chain, which is polar and hydrophilic. (lil worm looking structure)

Question 42

How do Superplasticizers work? (5)

Think about negative sperm cells charging cement particles

Answer 42

Absorbed on cement particles, negatively charging them.

cement particles repel each other.

Polar chain reduces surface tension of water, makes cement hydrophilic

Increases mobility of cement particles

Increased cement grain surface area exposure to improve hydration

Question 43

What are the advantages of Superplasticizers?

Answer 43

Improves workability without increasing w/c ratio

Consequently allows reduction of w/c ratio whilst keeping workability

More uniform dispersion of cement particles

Improves hydration, increases strength, particularly at early stage

(Think of the solid slumped Superplasticized concrete sample)

Question 44

What are air-entraining agents?

Answer 44

As they seem

Consist of anionic polar group joined by long hydrocarbon chain that is non polar & hydrophobic

Non polar
Hydrophobic

Question 45

How do air-entraining agents work?

Answer 45

Polar group oriented towards water or cement particles

Non polar & hydrophobic group is directed to air

Covers air bubbles formed during mixing with a sheath of air-entraining molecules which repel each other. Tensile bubble shield

(polar to water and cement, non polar to air)
polar to pool (of water)

Question 46

What are the applications of air-entrained concrete that would be less strong

Answer 46

Lightweight concrete produced through higher volume of voids

Reduces likelihood of freeze thaw weathering

Question 47

What is the difference between entrapped and entrained air?

One is trapped, the other is trained, one we don’t want, the other was manufactured

Answer 47

Entrapped:

Irregular, non-uniform, closer to top surface.

Cause ugly honeycomb voids

Entrained:

Spherical, uniformly distributed all throughout concrete with 10 micron diameter and spacing factor of 200-250 microns

Question 48

What do accelerators achieve?

Answer 48

Accelerated hardening and setting of concrete

Higher rate of heat release

Question 49

Applications of accelerators?

Answer 49

Good for cold weather concreting

Question 50

What do retarders achieve?

Answer 50

Extends setting time, slows hardening

Question 51

What are some applications of retarders?

Answer 51

Allowing further transport of concrete

Helps to not set too fast in hot weather concreting

Question 52

Generally admixtures are not essential or even cheap, but have the advantages of:

Answer 52

Improving workability

Accelerating/retarding setting

Control strength development

Achieve higher strength

Enhance durability to:

Frost action
Thermal cracking
Reinforcement corrosion
Sulphate attack