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www.fh.co.nz AUSTROADS Pavement Design Dr Bryan Pidwerbesky Group Technical Manager Fulton Hogan Ltd

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Page 1: Pavement Design 2004 - Pavement Analysispavementanalysis.com/images/papers/documents... · 5 AUSTROADS Pavement Design Guide 2003 Two design processes for Flexible Pavements Empirical

www.fh.co.nz

AUSTROADS Pavement Design

Dr Bryan Pidwerbesky

Group Technical Manager

Fulton Hogan Ltd

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2www.fh.co.nz

Pavement

Subgrade

Load, W

P0

P0

P1

P1

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3www.fh.co.nz

Pavement

Subgrade

Compression Tension

Load, W

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4www.fh.co.nz

Pavement Life Cycle StrategiesPavement Strategies

Life Cycle Analysis Period (years or esa)

Perf

orm

an

ce M

easu

re

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5www.fh.co.nz

AUSTROADS Pavement Design Guide 2003

Two design processes for Flexible Pavements

Empirical Design Chart

• flexible pavements consisting of unbound

granular materials, sprayed seal surface

Mechanistic

• flexible that contain one or more bound

layers

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6www.fh.co.nz

8

AUSTROADS Guide Figure 8.4

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7www.fh.co.nz

Fundamentals of Mechanistic Design

• Pavement performance related to elastic

strain

• Advantages

– rational / scientific

– flexible

– portable

• Really semi-empirical

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8www.fh.co.nz

Definitions of Stress & Strain

Strain (ε)

unit movement / unit length

dimensionless (µm/m)

Elastic strain

100% rebound after load is removed

Recoverable (resilient) strain

strain that rebounds after load is

removed

Residual (permanent) strain

Stress (σ)

unit load / unit area

kN/m2 = kPa

Modulus

• stress / strain

• Elastic modulus

• Flexural modulus

• Resilient modulus

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9www.fh.co.nz

Mechanistic Design Process

Design Traffic (ESA)

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10www.fh.co.nz

Single

ε2

Single tyre – Single Axle

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11www.fh.co.nz

ε1

ε2

Direction of Travel

ε1 ε2= Permanent strain = Resilient strain

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12www.fh.co.nz

Dual Tyre

ε4

Individual tyre’s effect

Combined effect

Dual tyre – Single Axle

Equivalent Standard Axle (esa)

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13www.fh.co.nz

ε3

ε4

Direction of Travel

ε3 ε4= Permanent strain = Resilient strain

Tandem

Combined effect

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14www.fh.co.nz

Equivalent Standard Axle (esa)

Tyre & Axle Configuration

Single tyre - single axle

Dual tyre - single axle

Dual tyre - tandem axle

Dual tyre - tri-axle

• Number of standard axles to cause same damage =

Reference Axle Load (kN)

53

80

135

181

Actual axle load 4

Reference axle load

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15www.fh.co.nz

Traffic Loading

• For seal design: use equivalent light vehicles -

convert heavy vehicles to elv

• For highway pavement design: ignore light

vehicles, use only HCVs, converted to Equivalent

Standard Axles (esa)

• For ports & log handling yards, DON’T use esa

or 4th power rule for converting loads!

• For airports, special loading formula

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16www.fh.co.nz

Mechanistic Design Process

Design Traffic (ESA)

Proposed Pavement Model

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17www.fh.co.nz

Pavement Model

• ESA loading

• layers defined by E, υ, h

• anisotropic (value depends on

direction)

– subgrade

– unbound

• isotropic (same in any

direction)

– asphalt

– cemented

E1, υ1, h1

E2, υ2, h2

E3, υ3, h3

En, υn, hn

ESA Load

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18www.fh.co.nz

Typical, Reasonable Input Values

Material Modulus (MPa) Poisson’s Ratio

Asphalt (> 75 mm thick) 1500 – 4500depends on mixproperties & vehiclespeed

0.40

Unbound Base 200 – 450(!) 0.35

Unbound Subbase 150 – 300 0.35

Subgrade 10 – 250 0.45

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19www.fh.co.nz

Sub-layering

Asphalt Modulus = 3200 MPa

Subgrade Modulus = 100 MPa

Granular Layer Modulus = 400 MPa

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20www.fh.co.nz

Selected subgrade materials• 1992 Guide: Ev = 10 * Design Subgrade CBR for

entire layer thickness

• concern that this resulted in higher moduli than granular materials

• new procedure developed to sublayer select material,

• modulus is limited by modulus of underlying insitu subgrade

• modulus doubles every 150 mm thickness of select material, up to max 10 x CBR

150) / thicknesslmat' subgrade selected (

insitu 2 x E =selectE

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21www.fh.co.nz

New granular sublayering rules

divide total granular thickness into 5 equally thick layers

5

4

3

2

1

Sublayer

T/5

T/5

T/5

T/5

T/5

Modulus

(MPa)

Thickness

(mm) First step: calculatemodulus of top

sublayer

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22www.fh.co.nz

Modulus of top granular sublayer

and that determined using the following formula:

doubling of modulus every 125mm

125) / thickness granular (SubgradesublayergranularTop 2 x E E =

ETop granular sublayer

Modulus of Cover1 Material (MPa)Thickness of

OverlyingMaterial

1000 2000 3000 4000 5000

40 mm 350 350 350 350 35075 mm 350 330 310 290 280100 mm 320 280 260 240 220125 mm 280 240 210 190 170150 mm 250 200 160 150 150175 mm 220 160 150 150 150200 mm 180 150 150 150 150>=250 150 150 150 150 150

1. Cover material is either asphalt or cemented material or a combination of these materials.

vertical modulus of top sub-layer, minimum of

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23www.fh.co.nz

New granular sublayering rules

5

4

3

2

1

Sublayer

4160

5760

7960

10960

15060

Modulus

(MPa)

Thickness

(mm)

5

1

=

subgrade

sublayer granular top

E

E R

Modulus of each Sublayer calculated from ratio of

modulus of top granular sublayer and subgrade:

R = (150/30)1/5

= 1.38

Subgrade modulus = 30

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24www.fh.co.nz

Definition of Project ReliabilityBecause of this lack of certainty in performance of

the constructed pavement, an appropriate measure of

anticipated performance of the proposed pavement is

its Project Reliability:

“The Project Reliability is the probability that the

pavement when constructed to the chosen design will

outlast its design traffic before major rehabilitation

is required”

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25www.fh.co.nz

Typical Desired Project Reliabilities

Table 2.1

Typical Project Reliability Levels

Road Class Project Reliability (%)

Freeway 95-97.5

Highway: lane AADT>2,000 90-97.5

Highway: lane AADT<2,000 85-95

Main Road: lane AADT>500 85-95

Other Roads: lane AADT<500 80-90

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26www.fh.co.nz

Desired reliability achieved by using

reliability factors in the performance relationships

mk

RFN

=

µε

Reliability Factor varies with selected desired project reliability

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27www.fh.co.nz

Cemented materials

Characterisation for Pavement Design

• isotropic (Ev=Eh)

• elastic modulus

• Poisson’s ratio 0.2

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28www.fh.co.nz

Improved guidance on presumptive moduli for cemented materials

• Subbase gravels, 4-5% cement E= 2,000 MPa

• Crushed rock, 2-3% cement E= 3,500 MPa

• Base with 4-5% cement E= 5,000 MPa

• Lean mix concrete (rolled) E= 7,000 MPa

• Lean mix concrete (screeded) E=10,000 MPa

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29www.fh.co.nz

Cemented materials fatigue relationship

• Modified to allow to design to desired project

reliability, includes Reliability Factor (RF)

( ) 128040 191000113

+=

µε

.E/,RFN

Desired Project Reliability

80% 85% 90% 95% 97.5%

4.7 3.3 2.0 1.0 0.5

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www.fh.co.nz

Asphalt

Characterisation for Pavement Design

• isotropic (Ev=Eh)

• elastic modulus

• Poisson’s ratio 0.4

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31www.fh.co.nz

asphalt fatigue relationship• modified to allow to design to desired project

reliability, includes Reliability Factor (RF)

5

360

+=

e S

1.08) V6918(0.856 RF N

.mix

B

µ

D e s i r e d P r o j e c t R e l i a b i l i t y

I n t ’ l 8 0 % 8 5 % 9 0 % 9 5 % 9 7 . 5 %

5 t o 1 0 2 . 5 2 . 0 1 . 5 1 . 0 0 . 6 7

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32www.fh.co.nz

Mix Stiffness

• Resilient modulus is a measure of ‘stiffness’

• As stiffness increases, load is spread over a

wider area

• Smix (t, T) ∝ σ/ε

• Smix (t, T) = mix stiffness at a particular rate

of loading (t) and temperature (T)

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33www.fh.co.nz

Gyratory

Compaction

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34www.fh.co.nz

Advantages of Gyratory

Compaction • Better replication of

mixes laid in the field

• Opportunity to vary compaction conditions

• Gives information on mix compactibility

• Rational

• Affordable

• Safe

• Allows fuller characterisation of mixes at design stage:♦ air voids at several

compaction levels

♦ compaction to refusal density (250 cycles)

♦ assessment of mix compactability

• Allows optimisation of aggregate blend

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35www.fh.co.nz

Resilient Modulus Test

• Apply vertical load, P, at a specified rate (Pulse repetition period, 3.0 ±0.05 seconds) and for a specified time (Rise time, 0.04 ± 0.005 seconds)

• Different rates of loading and different load pulse times simulate different loading conditions.

Extensometersmeasurehorizontaldisplacement

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36www.fh.co.nz

MATTA

• IPC Universal Materials Testing Apparatus

• Indirect tensile test setup, for measuring stiffness modulus

• Normally measured at 25 ºC, but different temperatures can be specified depending on field conditions.

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37www.fh.co.nz

FH MATTA Results

Modulus

Bitumen

Location

Modulus

Bitumen

Location

Mix

Bitumen

3390 MPa

@ 4.8%

Dunedin

2880 MPa

@ 5.1%

Nelson

2970 MPa

@ 5.5%

Nelson

3350 MPa

@ 5.4%

Waikato

2930 MPa

@ 4.5%

Southland

1570 MPa

@ 5.6%

Nth Hrbr

1570 MPa

@ 5.8%

Southland

2300 MPa

@ 5.8%

Auckland

40 mm

B80

20 mm

B80

14-16 mm

B80

14-16 mm

B60

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38www.fh.co.nz

Increase Resilient Modulus by:

• Reducing bitumen content

– Relative to Marshall optimum binder content

• Increasing bitumen viscosity

– decreasing penetration grade

• Coarser gradation

• Increasing compactive effort (to a critical limit for some mixes)

• Reducing temperature

• Aging (generally increases modulus)

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39www.fh.co.nz

Effect of Temperature on Modulus

0

2000

4000

6000

8000

0 10 20 30 40 50 60

Temperature (C)

Mo

du

lus

(M

Pa

)

Mix10

Mix16

Mix20

• 120 Gyratory

compaction cycles

• 80/100 pen bitumen

• Auckland basalt

• Air voids:

– Mix 10 = 4.8%

– Mix 16 = 4.8%

– Mix 20 = 4.6%

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40www.fh.co.nz

Repeat Load Triaxial Apparatus

On-sample Axial Strain Measurement

LVDT core extensions

Minature LVDT

LVDT clamp screwed to target

glued on test specimen

LVDT extension bracket

screwed to brass target

glued on test specimen

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41www.fh.co.nz

Non-linearity of Unbound Aggregates

For most bound materials,

modulus is independent of

confining pressure, but does

vary with load duration (speed)

For unbound aggregates, modulus

depends on confining pressure

(kPa), load magnitude (kN) &

duration (speed)

Modulus increases as confining /

applied pressure increases

0

50

100

150

200

250

300

Applied Pressure (kPa)

Mo

du

lus

(MP

a)

Non-linearNon-linearLinear

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42www.fh.co.nz

Mechanistic Design Process

Design Traffic (ESA)

Proposed Pavement Model

Calculate Critical Strains

CIRCLY

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43www.fh.co.nz

3 Distress modes, 3 critical strains

Uniform stress

(equal to tyre pressure)

1 Tensile strain at bottom of asphalt - asphalt fatigue

2 Tensile strain at bottom of cemented material - cement mat fatigue

3 Compressive strain at top of subgrade - rutting & shape lossDenotes likely locations of critical strains due to applied loading

3 Subgrade

1 Asphalt

2 Cemented Material

Spacing of Dual Wheels – Full Axle Configuration

330mm

Crushed Rock

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44www.fh.co.nz

Critical Strains

• Critical strains

– subgrade

– cemented layers

– asphalt

Asphalt

Cemented

Subgrade

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45www.fh.co.nz

CIRCLY

• Accumulates ‘damage’ contributed by each axle load in the traffic spectrum at each analysis point

• Cumulative Damage Factor (CDF) is the sum of damage factors over all the loadings

– Pavement reaches its design life when CDF = 1.0

– If CDF < 1.0, then pavement has excess capacity, & CDF gives proportion of life consumed

– If CDF > 1.0, then pavement could fail early!

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46www.fh.co.nz

Asphalt layer thickness

Compression Tension

STRAIN IN BOTTOM OF ASPHALT LAYERSTRAIN IN BOTTOM OF ASPHALT LAYER

Asphalt

Layer

Thickness

& Strains

50 mm

75 mm

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47www.fh.co.nz

Thickness AC Tensile strain

25 50 75 100Asphalt

layer thickness

Compressivestrain

Granular layers

Subgrade

Environment issues

dominate

Structural issues

dominate

Typical Multi-layer Flexible Pavement -

Design Parameters

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48www.fh.co.nz

Typical Multi-layer Flexible Pavement -

Design Parameters

Thickness AC Tensile strain

25 50 75 100Asphalt

layer thickness

Compressivestrain

Granular layers

Subgrade

Environment issues

dominate

Structural issues

dominate

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49www.fh.co.nz

Thickness AC Tensile strain

25 50 75 100Asphalt

layer thickness

Compressivestrain

Granular layers

Subgrade

EB 200 MPa

EB 400 MPa

Typical Multi-layer Flexible Pavement -

Design Parameters

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50www.fh.co.nz

Mechanistic Design Process

Design Traffic (ESA)

Proposed Pavement Model

Calculate Critical Strains

Apply Performance Criteria

CIRCLY

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51www.fh.co.nz

Performance Criteria

N

.

=

85117 14

µε Subgrade

N =

93007

µε

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52www.fh.co.nz

100

1000

10000

10000 100000 1000000 10000000

Cumulative Load Repetitions

Ver

tica

l C

om

pre

ssiv

e S

ub

gra

de

Str

ain

m/m

)

Shell, 1978 NZ Primary, 1983

NZ Secondary, 1983 AUSTROADS, 1992

AUSTROADS 2001

(1)

(2)

(3)

Dormon & Metcalf, 1965

(4)

(5)

Test Pavement Number

(2' )

Pidwerbesky

(6)

(7)

Subgrade Strain Criterion

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53www.fh.co.nz

Performance Criteria

CementedNE

====++++

113000 19112

.804

µεµεµεµε

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54www.fh.co.nz

Modified Materials

• Small proportion of binder ( < 2% )

• Improved properties

– PI, workability, reduced water susceptibility

• Provides stable working platform

• Primarily compressive mode of failure

• Cracking not significant

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55www.fh.co.nz

Cemented Materials

• Greater proportion of binder

• Adds significant strength

• Relies on slab action

• Attracts stress

• Prone to fatigue cracking

• Prone to shrinkage cracking

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56www.fh.co.nz

Definition of Modified Materials

Unbound Modified Cemented Lean-mix Concrete

Tensile Strength

< 80 kPa > 80 kPa

Dunlop (1978)

Increasing Binder Content

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57www.fh.co.nz

Performance Criteria

N

.

=

85117 14

µε

Subgrade

Modified Subgrade Sub-layering

N =

93007

µε

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58www.fh.co.nz

Performance Criteria

AsphaltN

V

S

B

Mix

=+

6918 0 856 1080

5( . . )

.36 µε

NV

S

B

Mix

=+

6918 0 856 1080

5( . . )

.36 µεRF

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59www.fh.co.nz

Tyre/Axle Load Configuration

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60www.fh.co.nz

Mechanistic Design Process

Design Traffic (ESA)

Proposed Pavement Model

Calculate Critical Strains

Apply Performance Criteria

Determine Theoretical Service Life (esa)

CIRCLY

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Mechanistic Design Process

Design Traffic (ESA)

Proposed Pavement Model

Calculate Critical Strains

Apply Performance Criteria

Determine Theoretical Service Life (ESA)Not OK

CIRCLY

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Mechanistic Design Process

Design Traffic (ESA)

Proposed Pavement Model

Calculate Critical Strains

Apply Performance Criteria

Determine Theoretical Service Life (ESA)

Input to Decision

Not OKOK

CIRCLY

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Subgrade Evaluation

• One strategy is to compact subgrade at a

Equilibrium Moisture Content (EMC)

• Number of methods to establish design subgrade

strength • e.g measure on nearby pavement with similar materials &

conditions

• vertical modulus = 10xCBR & horiz modulus = 5xCBR

• poissons ratio = 0.45

• Potential to reduce costs by using a design strength other than soaked CBR

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Rutting Resistance of AsphaltRutting Resistance of Asphalt

• Larger mix size

• Angular/textured aggregates

• Stiffer/plastomeric binders

• Coarser grading

• Reducing air voids (min 3%)

• Increase filler

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Fatigue Resistance of AsphaltFatigue Resistance of Asphalt

• Elastomeric binders

• Increase binder content

• Reduce air voids (min 3%)

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Durability of AsphaltDurability of Asphalt

• Reduce air voids

• Softer binders

• Increase binder film thickness

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Skid Resistance of AsphaltSkid Resistance of Asphalt

• Larger mix size

• Coarser grading

• Angular/rough aggregate

• Higher Polished Stone Value (PSV) of

larger aggregate component only

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Workability of AsphaltWorkability of Asphalt

• Increase VMA

• Higher binder content

• Softer binders

• Reduce filler

• Rounded aggregate

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Moisture in the Pavement

A small amount is okay, and is

beneficial

Too much - disastrous!

Everything in Moderation!

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Pavement stress dissipation

Radius of contact

about 100 mm

Pressure > 100 psi

Granular layer(s)

Subgrade

Radius of stress

about 500 mm

Pressure ≈ ≈ ≈ ≈ 4 psi

Radius of stress

about 300 mm

Pressure ≈ ≈ ≈ ≈ 10 psi

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Pavement saturation

Numerous contact points each,

under high stress in a well compacted granular material

Aggregate particles

In a saturated system the applied load

is transmitted equally in all directions, forcing the aggregate particles apart

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HeaveHeave

SubgradeSubgrade

Distance of heave from wheelpath is Distance of heave from wheelpath is

relative to depth/extent of failurerelative to depth/extent of failure

HeaveHeave

RutRut

Subgrade shear failure Subgrade shear failure

due to saturationdue to saturation

Saturated pavement rutting & heavingSaturated pavement rutting & heaving

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300 mm rain in 3 days!

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Model of asphalt interfaces and potential hydraulic debonding stress

If the voids at the interface become

near saturated the hydraulic stress will

tend to debond the surfacing which is

not confined by the load.

LoadLoad

Air voids will be concentrated at the layer

interface because the overlay mix will not

conform identically to the texture of the

substrate material.

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Pavement Construction Quality• Density - % of Max Density & Optimum

Moisture– Nuclear Density Meter– sand cone displacement

• In situ CBR and Plate Bearing tests

• Dynamic Cone (Scala) penetrometer

• Performance properties - Field tests– NOT Clegg Hammer - measures consistency of

the surface finish– Deflection bowls - including Benkelman Beam

• Laboratory tests

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Deflection Testing Equipment

• Full scale, heavy load devices:

– Benkelman Beam

– Deflectograph

– Falling Weight Deflectometer

• Single point portable devices:

– Clegg hammer

– Prima

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Prima 100

Portable

FWD Device

AC; Run 1 Ch 10 Pt 37

-100

-50

0

50

100

150

0 5 10 15 20 25 30Time (ms)

Fo

rce

(kP

a)

& D

efl

ecti

on

(m

icro

ns)

Force (kPa) D(1) (µm)

Force (kPa) D(1) (µm)

Force (kPa) D(1) (µm)

TYPICAL PLOT PRIMA LOAD & DEFLECTION v LOAD DURATION

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Deflection Bowl Analysis

-3

-2.5

-2

-1.5

-1

-0.5

0

0 0.2

0.4

0.6

0.8 1 1.2

1.4

1.6

1.8

Distance from Centre of Load (m)

Def

lect

ion

(m

m)

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Curvature Function (CF) of a deflection bowl

• D0 = maximum deflection for a test point

• D200 = deflection measured where the test load is 200 mm from the point of maximum deflection (in the direction of travel).

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Characteristic Deflections &

Curvatures

Determined for each sub-section

Homogeneous sub-sections have:

• Coefficient of Variation (CoV) < 0.25

• Characteristic deflection (CD) or curvature (CC) is equal to average deflection or curvature (µ) + a factor (f) x standard deviation (σ):

CD or CC = µ + f x σ– f is selected based on reliability required

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Coefficient of Variation (CoV)

0

5

10

15

20

25

30

Per

cen

tag

e (%

)

0.5 0.7 0.9 1.1 1.3 1.5

Deflections (mm)

• Statistical measure of

consistent quality of

construction

• Std dev of values divided by

average value x 100%

– ± 1 Standard deviation includes

68% of values

• Typical maximum values for

CoV are < 25 or 30%

– If deflection high, reduce to 20%

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Coefficient of Variation

0

5

10

15

20

25

30

Per

cen

tag

e (%

)

0.5 0.7 0.9 1.1 1.3 1.5

Deflections (mm)

• Previous distribution:

– Average = 1.0 mm

– Std. Dev. = 0.1 mm

– CoV = 10%

• This distribution:

– Average = 1.0 mm

– Std. Dev. = 0.2 mm

– CoV = 20%

• Greater variation!

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Factor ‘f’ for Characteristic Values

Road Functional

Class

f % of all deflection measurements which will

be covered by the Characteristic Deflection*

1 and 6

2, 7, 8 and 9

3, 4 and 5

2.00

1.65

1.30

97.5

95

90

CD or CC = µ + f x σ

* after identifying areas to be patched/reconstructed

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Example Calculation of

Characteristic Deflection (CD)

Sub-section: Average Deflection µD = 1.0 mm

Standard Deviation σD = 0.1 mm

Require 95% confidence, for f

CD = µD + f x σD