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RPF

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Validation of Draft Guidelines for the Design of HMA in SA OBJECTIVES Feedback Status of Validation Scope of Presentation Design Procedures & Performance Testing ... – PowerPoint PPT presentation

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Title: RPF

1
Validation of Draft Guidelines for the Design of
HMA in SA

OBJECTIVES
Feedback
Status of Validation

2
Scope of Presentation

Design Procedures Performance Testing
Study of Rut Resistance Testing
Workshops on HMA Design Guidelines

3
Design Procedures Validated

Selection of Mix Type
Rating of Design Objectives
Volumetric Design
Bulk RD COMPACT Software
Densely Graded Mixes
Stone Mastic Asphalt

4
Volumetric Design of Densely Graded Mixes
5
Mod Marshall Compaction Voids Criteria
Traffic Level Eq. Field Compaction(75 Blows) Allowable Void Content Range after additional compaction to simulate trafficking Allowable Void Content Range after additional compaction to simulate trafficking Allowable Void Content Range after additional compaction to simulate trafficking
Traffic Level Min - Max Total No of Blows Void Content Void Content
Traffic Level Min - Max Total No of Blows Minimum Maximum
Light 3.5 - 5.5 75 15 3.0 4.5
Medium 4.5 - 6.5 75 45 3.0 5.0
Heavy 5.5 - 7.0 75 75 4 5.0
Very Heavy 5.5 - 7.0 75 75 4 5.0
6
Volumetric Design of Stone Mastic Asphalt (SMA)

Recommended Trial Binder Content
BRD ? 2.75 BC 5.5 BRD lt 2.75 BC 6.0
4 Samples Compacted _at_ 50 blows
VCA Coarse Aggr. ? Dry Rodded Test
VMA ? 17.0 VIM ? 3.0
VCAmix (with mastic) lt VCAdrc (without mastic)

7
Study of Rut Resistance Testing

8 Field Mixes
Mixes paved on various roads, incl national and
provincial roads and urban streets
Actual designs based on Marshall Method
8 Laboratory Mixes (Experimental)
Different Binder Contents
Different Binder Mix Types

8
Field Mixes
Mix No Road Location Aggr. Mix type (Binder)
1 N2-25 Durban Quartzite AC Med (60/70)
2 P111/1 Carletonville Andesite BTB (40/50)
3 N2-21 Harding Dolorite AC Med (60/70)
4 N3-12 Gilloollys Quartzite S/O BRASO
5 N3-7X Harrismith Dolorite AC Crs (60/70)
6 N3-7X Harrismith Dolorite SMA (60/70)
7 CK1 Cape Town Hornfels AC Med (60/70)
8 CK2 Cape Town Hornfels AC Med (60/70)
9 CCP Pretoria Norite AC Med (60/70)
9
Rut Resistance TestsValidated In Study

Modified Marshall Compaction
Gyratory Compaction
Transportek Wheel Track Test (TWTT)
Dynamic Creep Test
Confined Impact Test (CIT)
Axial Loading Slab Test (ALS)

10
Modified Marshall Compaction
11
Gyratory Compaction
12
Comparison of Gyratory and Modified Marshall
Compaction
13
Transportek WheelTracking Test (TWTT)
14
TWTT Downward Deformation
15
Gyratory Compaction vs TWTT
16
Confined Impact Test (CIT)
17
CIT Measurement of Deformation
18
CIT Performance Ratings
Rating of Rutting Resistance CIT Deformation after 680 blows with Marshall Hammer
Very Good lt 3 mm
Good 3 10 mm
Medium 10 14 mm
Poor gt 14 mm
19
CIT Field Mixes
20
Dynamic Creep vs TWTT
21
Experimental Laboratory Mixes
Mix No Binder Content Binder Type Mix type
1 Optimum 60/70 Pen AC Medium
2 Opt 1.0 60/70 Pen AC Medium
3 Opt 0.5 60/70 Pen AC Medium
4 Optimum 60/70 Pen Gap Graded
5 Optimum 80/100 SBS AC Medium
6 Optimum 60/70 Pen SMA
7 Optimum 60/70 EVA AC Medium
8 Optimum 60/70 SBR AC Medium
22
Comparison of Rut Resistance ofLaboratory Mixes

Modified Marshall Compaction
Gyratory Compaction
Transportek Wheel Track Test (TWTT)
Dynamic Creep Test

23
Influence of Binder Content Modified Marshall
Compaction
24
Influence of Binder Content Gyratory Compaction
25
Influence of Binder Content Transportek Wheel
Track Test
26
Influence of Binder Type Modified Marshall
Compaction
27
Influence of Binder Type Transportek Wheel Track
Test
28
ConclusionsValidity of Rut Resistance Tests