Sup erior Per forming Asphalt Pave ments

1. Superior Performing Asphalt Pavements • Performance based design system • testing and design procedures simulate closer to the actual loading and climatic conditions • performance graded asphalt binders • aggregate specifications • hot mix asphalt design and analysis system • Level 1 material selection and volumetric design • Level 2 Level 1 design + performance testing • Level 3 Level 1 design + more performance testing • Enhanced mix performance • Permanent deformation • Fatigue Cracking and Low temperature cracking ENCI 579 8

2. Superpave • SHRP established 1987 - 5 yrs. • Binder specs in use by 100% of US, Ont., Quebec in Canada • Level 1 Mix design - partial use • Still to come • simple performance tests • performance prediction models ENCI 579 8

3. Superpave Mixture Design • Key features are laboratory compaction and performance testing • Laboratory compaction • Superpave gyratory compactor (SGC) • compacts test specimens to simulate actual pavement and loading conditions • provides information about the compactability of a particular mixture • design mixtures that do not exhibit tender mix behavior and do not densify to low air voids under traffic ENCI 579 8

4. Superpave Mixture Design • Performance testing and performance prediction models • detailed predictions of actual pavement performance in terms of ESAL’s • Superpave Shear tester (been replaced by triaxial) • Indirect Tensile tester • Short term aging protocol • performance of HMA immediately after construction is influenced by mix properties from hot mixing and compaction • oven aged mix at 135 C 4 hours to simulate delays that can occur during construction ENCI 579 8

5. Superpave Mixture Design ENCI 579 8

6. Level 1 Mix Design • Volumetric mix design • Select asphalt and aggregate materials • develop several aggregate trial blends (3) that meet Superpave aggregate specs • blend asphalt, compact, analyze • use best blend with several asphalt contents to determine the design asphalt content at 4% air voids and compare to other criteria ENCI 579 8

7. Gyratory Compactor • Better simulates field compaction than hammer • Compacts specimen but also measures density during compaction • Measures compactibility so tender mixes are identifies • Larger size aggregate blends can be used (50 mm max size) because of larger mold sizes ENCI 579 8

9. Amount of compaction depends on traffic and climate • Ndes is the design number of gyrations used for volumetric properties • Nmax < 98%, Nini < 89% of max. density - used to indicate compactibility • Log Nmax = 1.1 Log Ndes • Log Nini = .45 Log Ndes

10. Trial Blends • The available aggregate stockpiles are combined in varying percentages, 3 blends are usually considered • Aggregate properties are determined (either on blends or estimated from individual aggregates) • Compact each blend and estimate volumetric properties ENCI 579 8

11. Trial Blends • For each aggregate trial blend: • Asphalt binder grade selected • Mixing temperature (non modified) • viscosity .15 - .19 Pa-s (150 – 190 mm2/s) • Compaction temperature • viscosity = 0.25 - .31 Pa-s (250 – 310 mm2/s) • Prepare aggregates • 2 specimens for each trial blend : 2 x 4700g for compaction • 1 approx. 2000g for max density (uncompacted mix) • 1 x 3700 g for moisture sensitivity ENCI 579 8

12. Trial Blends • Heat, mix with asphalt and short term age for 4 hours at 135°C representing possible delays in the field • Compact specimens for Nmax gyrations, recording height ENCI 579 8

13. Data Analysis • Measure density at Nmax, using volume of cylinder calculate estimated density at Nmax, Nini, Ndes • Errors in estimated densities due to surface irregularities of briquette are corrected using ratio of measured to estimated density at Nmax • Measure Max. theoretical density of the uncompacted mix • Calculate air voids, VMA, VFA at Ndes ENCI 579 8

14. Data Analysis • When you calculate your air voids you want to be at 4%……….. • Estimate asphalt content at 4% using Pb,est = Pbi - (.4x(4-AV%)) • Calculate corrected values of design VMA and VFA for 4% air voids using • VMAest = VMAinitial+C x (4-AV%) where C = .1 if AV% < 4% or .2 if AV% > 4% • VFAest = ( VMAest- 4) / VMAest ENCI 579 8

15. Blend Selection • Check blend properties against design criteria • VMA VFA meets table 6-14,6-15 in text • Nini < 89%, Nmax < 98% of max density • passes moisture sensitivity (T283) • 80 % minimum indirect tensile strength • dust content (% passing 0.075 mm sieve divided by effective asphalt content) between .6 and 1.2 • Choose best blend - new samples ( 2 compaction 2 max density) are made and checked • Pb @ 4% AV • one at 0.5% less • 2 more at 0.5% and 1% higher • volumetric properties calculated at each a/c content • a/c content at 4 % chosen other criteria checked ENCI 579 8

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17. Level 2 & 3 Design • Performance tests for permanent deformation fatigue cracking and low temperature cracking • Superpave Shear Tester (SST) (been replaced by triaxial) • Indirect Tensile Tester (IDT) • Lab testing has not yet been validated with field results and is still in experimental stage • Current expectations are that Level 2 & 3 will be combined into one and Level 1 will include an additional simplified stability test • At present research - triaxial testing for rutting and fatigue and indirect tension test for thermal cracking - presently being evaluated ENCI 579 8

18. Example - Level 1 • Interstate 43 in Milwaukie, Wisconsin • Nominal max aggregate size = 19mm • Design ESALs = 18,000,000 • this would actually require a level 3 design ENCI 579 8

19. Select a PG 58-34 • mix temp = 165 to 172°C • compaction temp = 151 to 157°C • 5 stockpiles - measure bulk and apparent specific gravities ENCI 579 8

20. Measure 4 consensus properties • can measure blends but will use individual in this case to estimate blend properties which has an advantage in choosing blends • final design blends must meet criteria not individual stockpiles ENCI 579 8

21. 3 blends are produced • 1 - Intermediate, 2 - Coarse, 3 - Fine ENCI 579 8

22. Blends are checked against gradation requirements and for consensus properties - all 3 pass ENCI 579 8

23. Trial asphalt content • absorption water calculated from bulk and apparent specific gravities of aggregate blends • Absorption water % = 100 (1/Gsb-1/Gsa) • Blend 1 = .9% water absorption • Blend 2 = 1.0%, Blend 3 = .9% • From table 6-12 in text, initial binder content is 4.4% for all 3 blends • Two samples of each blend are compacted using Nini = 8, Ndes = 109, Nmax = 174 (from design table table 6-13 text) • Maximum and bulk specific gravities (RD) (Gmm, Gmb) are measured and compactor data obtained ENCI 579 8

24. Trial Blend 1 ENCI 579 8

25. Trial Blend 1 ENCI 579 8

26. Trial Blend 2 ENCI 579 8

27. Trial Blend 2 ENCI 579 8

28. Trial Blend 3 ENCI 579 8

29. Trial Blend 3 ENCI 579 8

30. The % max density at Nini , Ndes, Nmax is calculated from an average of the two samples of each blend • Calculated air voids and VMA at Ndes • AV = 100 - %Gmm • 1 = 100-96.2 = 3.8%, 2 = 4.3%, 3=4.8% • %VMA = 100 - (%Gmm x Gmm x (1 - Pbi))/Gsb • 1 = 100-(96.2x2.563x.956)/2.699 = 12.7% • 2 = 13.0% • 3 = 13.5%

31. Estimate properties @ 4% air voids • Pb,est = Pbi - (.4 x(4-AV)) • 1 = 4.4-(.4x(4-3.8)) = 4.3% • 2 = 4.5% • 3 = 4.7% • VMAest = VMAinitial + C x (4 - AV) • 1 = 12.7 + (.1 x (4.0 - 3.8)) = 12.7% • 2 = 13.0 + (.2 x (4.0 - 4.3)) = 13.0% • 3 = 13.5 + (.2 x (4.0 - 4.8)) = 13.4% • %VFAest = 100x (VMAest - 4)/VMAest • 1 = 100 x (12.7 - 4.0)/12.7 = 68.5% • 2 = 69.2% • 3 = 70.1% ENCI 579 8

32. Estimate properties at 4% Air Voids • %Gmm,est @ Nini = % Gmm,trial - (4-Av,trial) • 1 = 87.1-(4-3.8) = 86.9% • 2 = 85.9% • 3 = 87.1% • Similarly for Nmax • 1 = 97.4% • 2 = 97.7% • 3 = 97.3% • Results for 4% air voids for 3 blends: ENCI 579 8

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35. Dust ration = P0.75/Pbe,est • 1 = 3.1/3.6 = .86 • 2 = 2.9/3.7 = .78 • 3 = 3.5/4.0 = .88 • All pass with values between .6 and 1.2 • Blend 1 fails VMA, blend 2 just meets VMA, therefore select blend 3 • If no blends were acceptable start over with new stockpile ratios • Evaluate blend 3 as before by mixing 2 specimens with 4.2%, 4.7%, 5.2% and 5.7% AC contents • Note: this time aggregate consensus properties must be measured on the blends and not calculated from stockpile values ENCI 579 8

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42. Calculating mix volumetric properties (not estimating) for the final blend use: • Calculated air voids, VMA, VFA at Ndes%AV = 100 - %Gmm%VMA = 100 - (%Gmm x Gmm x (1 - Pbi))/Gsb%VFA = 100 x ((VMA - AV)/VMA) ENCI 579 8

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44. Blend is tested for moisture sensitivity and has tensile strength ratio of 82.6% which exceed the 80% minimum requirement • This blend meets all required design criteria and is approved for use! ENCI 579 8