L3: High-Rise Foundations

Question 1

What is the purpose of foundations?

Answer 1

To safely transfer building loads to the ground

Question 2

What is the type of foundation based on?

Answer 2

Building size
Occupied weight
Need for stability
Soil/ground support capabilities

Question 3

What are the foundation loads?

Answer 3

Dead, live, wind, horizontal pressures underground, structural member thrust, uplift, earthquake

Question 4

What are foundations supported by?

Answer 4

Pressure bulbs (spheres of soil)

Question 5

What can happen if buildings are in close proximity and how is it overcome?

Answer 5

Pressure bulbs overlap causing a failure as it cannot support both buildings

Caisson - produces its own pressure bulb
End bearing piles - individual pressure bulbs which combine into one similar to that of a caisson

Question 6

What are the requirements of a foundation?

Answer 6

Safe against structural failure
Settlement not an impairing function
Technically and economically feasible

Question 7

What is settlement and what is it dependent on?

Answer 7

Sinking of building as soil compresses; dependent on soil type (eg bedrock vs clay)

Question 8

What are the two types of settlement?

Answer 8

Uniform and differential

Question 9

What are signs of differential settlement?

Answer 9

Sloped floors, cracked walls/windows, door opening/closing improperly

Question 10

What building is an example of uniform settlement and how much did it settle?

Answer 10

The Palace of Fine Arts; 3m

Question 11

What are the two types of matter under buildings?

Answer 11

Rock (continuous)

Soil (particulate)

Question 12

What is the difference between cohesive and non-cohesive soils?

Answer 12

Cohesive soils retain shear resistance in confining forces (stick together) and non-cohesive soils rely on friction between particles to support loads

Question 13

How does level of cohesion affect angle of repose

Answer 13

Cohesive - steeper

Non-cohesive - shallower (cannot maintain vertical form)

Question 14

How is soil tested?

Answer 14

Bearing capacity (driving hammer)
Test pits (less than 2.5m)
Test bores (deeper)

Question 15

What does bearing capacity test?

Answer 15

How much force the soil pushes back (number of blows per metres driven)

Question 16

What do test pits/bores show?

Answer 16

Strata (layers)

Question 17

What is soil stability?

Answer 17

Soil’s ability to retain its engineering properties under varying conditions

Question 18

What are examples of stable and unstable soils?

Answer 18

Stable - rock, gravel, sands, some silts

Unstable - clay

Question 19

Why is clay considered an unstable soil?

Answer 19

Subject to changing water content - swells when wet and shrinks when dry; wet clay put under pressure will reduce in volume

Question 20

How is the water table detected?

Answer 20

Shows in test pit/bore in course-grained soils but requires special devices in clay soils (impermeable)

Question 21

What is compaction?

Answer 21

Process of increasing soil density in thin layers (lifts), to squeeze out air between particles and rearrange particles to improve soil stability

Question 22

When is compaction useful?

Answer 22

For shallow foundations supported uniformly by large surface of soil

Question 23

What are the two main types of excavation?

Answer 23

Benched and sheeted

Question 24

When is benched excavation used?

Answer 24

When the site is sufficiently larger than the building area

Question 25

How is benched excavation sloped?

Answer 25

Shallow in frictional soils; steeper in cohesive soils

Question 26

What does sheeted excavation require and why?

Answer 26

Bracing, to resist soil pressure

Question 27

What are the three options for sheeted slope supports and when are they used?

Answer 27

Soldier beams and lagging (deeper excavation)
Sheet piling (shallowed excavation)
Slurry wall (used as permanent foundation wall)

Question 28

What is soldier beams and lagging?

Answer 28

H shaped soldier beams (steel) driven into ground with lagging placed between (wood)

Question 29

What is sheet piling?

Answer 29

Sheet material driven into ground (timber, steel, precast concrete)

Question 30

What is slurry and how is a slurry wall formed?

Answer 30

Mixture of bentonite clay and water

Concrete guide walls laid out
Trench dug to desired depth and filled with slurry
Cage of steel installed
Concrete filled into trench using a tremie and slurry is removed
Slurry wall tied back

Question 31

What are the methods to brace sheeted slope support and when are they used?

Answer 31

Crosslot - used in tight urban areas
Rakers - used when width is too large for crosslot
Tiebacks - most common

Question 32

Why is tiebacks the most common compared to crosslot and rakers?

Answer 32

Crosslot and rakers take up space in the excavated area

Question 33

How are tiebacks installed?

Answer 33

Steel tendon/cable placed in a hole drilled in the wall and cured at the end with grout;
Walers installed to horizontally connect tiebacks

Question 34

When can a sheeted slope support be unbraced?

Answer 34

When the excavation is very shallow compared to the sheeted slope support (cantilevered)

Question 35

What are two other options for excavation?

Answer 35

Soil nailing and shotcrete

Secant pile walls

Question 36

What is soil nailing and shotcrete and when can it be used?

Answer 36

Soil nails (tiebacks) installed
Grid of rebar placed over soil
Shotcrete (sprayed concrete) applied over rebar and cures
Nails tightened with anchor plate

Used in cohesive soils because needs to hold before shotcrete is applied

Question 37

What is a secant pile wall?

Answer 37

A series of interlocking poured, reinforced concrete piles; alternating concrete and concrete with steel rebar

Question 38

What are the advantages of a secant pile wall?

Answer 38

Stiffer than sheeted slope support and can be installed in difficult soil

Question 39

What is a tangent pile wall?

Answer 39

A secant pile wall without overlap between piles

Question 40

Why is dewatering done?

Answer 40

Because excavation must be done in dry conditions

Question 41

What are the methods for dewatering and when are they used?

Answer 41

Well points - most common

Watertight barrier - used when reachable impermeable layer

Question 42

What are well points?

Answer 42

Wells placed around perimeter to pump from water table; can affect surrounding buildings

Question 43

What is a watertight barrier?

Answer 43

A slurry wall around the perimeter to an impermeable layer, isolating the water table; does not affect surrounding buildings

Question 44

What are the three main parts of buildings?

Answer 44

Foundation
Substructure
Superstructure

Question 45

What are the types of shallow foundations?

Answer 45

Mat/raft foundation

Floating foundation

Question 46

What is a mat/raft foundation?

Answer 46

Where the soil cannot support the building weight so column footings are merged together

Question 47

What is a floating foundation?

Answer 47

Where soil is dug and replaced by building; 1 storey of soil supports 5-8 building storeys

Question 48

What are the types of deep foundations?

Answer 48

Caissons
Piles
Site cast concrete piles

Question 49

What is the purpose of deep foundations?

Answer 49

To reach through the weak soil

Question 50

What are caissons?

Answer 50

Large, column-like members poured into the ground

Question 51

What are piles?

Answer 51

Mechanically pounded then cut level at top; 2-24 piles together with pile caps and clusters joined by grade beams

Question 52

What are the types of caissons?

Answer 52

Belled ending (on top of good soil) or socketed (into good soil)

Question 53

What are the types of piles?

Answer 53

End bearing (on top of good soil) or friction pile (cannot reach good soil so uses friction against weak soil to stay up)

Question 54

What are site cast concrete piles?

Answer 54

Steel casing driven into soil and then filled with concrete

Question 55

What are the types of site cast concrete piles?

Answer 55

Cased (casing remains) or uncased (casing removed)

Question 56

What is seismic base isolation?

Answer 56

Flexible joints to allow for shifting at connection between foundation and sub/super structure

Question 57

What makes up base isolators?

Answer 57

Column base plate, lead core, layers of steel plates and rubber, isolate base plate

Question 58

What is underpinning?

Answer 58

Process of strengthening and stabilising foundations of an existing building eg. fixing failing foundation, adding levels

Question 59

What are the three approaches to underpinning?

Answer 59

Digging trenches at intervals and underpinning bit by bit
Exposing entire portions of foundation by temporary supports (needle beams)
Installing mini-piles without excavation

Question 60

What is up-down construction?

Answer 60

Building substructure and superstructure are built simultaneously

Question 61

What is the up-down construction process?

Answer 61

Perimeter slurry wall
Drill holes and fill with slurry
Steel columns set in concrete footing poured using a tremie
Ground floor slab poured with opening
Superstructure is built while excavation takes place (each storey individually with controlled low strength material placed to support formwork above - excavated with next storey)