A Crack is a Crack s Perspective on Cracking in Asphalt Pavements Presented at the Pavement Performance Prediction Symposium 2007 Laramie, Wyoming Tim Clyne, Roger Olson Minnesota Department of Transportation July 18, 2007
Typical Distresses in Minnesota Top Down Cracking Rutting Very little fatigue cracking Transverse Cracking Transverse Cracking is Minnesota s #1 concern
Low Temperature Cracking Single event Thermal fatigue Less severe event later in life (aging)
MnROAD Mainline When It Cracked Linear Feet 600 500 400 300 200 100 Cell 1 Cell 2 Cell 3 Cell 4 Cell 14 Cell 15 Cell 16 Cell 17 Cell 18 Cell 19 Cell 20 Cell 21 Cell 22 Cell 23 = 5 Year (PG 58-28) = 10 Year (PG 64-22) = 10 Year (PG 58-28) February 2, 1996-39.4 F 0 1994 1995 1996 1997 1998 1999 2000 2001 2002 Cracking occurred in a 4 month period after 2/2/1996 Little increase since that time
MnROAD Mainline Where It Cracked Cracking (Feet) 700 600 500 400 300 200 5 Year 10 Year PG 64-22 Driving Lane Passing Lane PG 58-28 PG 58-28 100 0 1 2 3 4 14 15 16 17 18 19 20 21 22 23 Thickness had little effect on cracking Class 6 had more cracks than Class 3 base Driving lane had more thermal cracking than passing lane Traffic effects
Low Temperature Cracking 2-D Model Dave Timm et al, 2004 Coefficient of thermal contraction, Stiffness, Temperature Gradient If Stress > Strength cracking will occur Advanced 3-D models in current pooled fund study
PG 58-28 PG 64-22 PG 58-34 PG 58-40
Shoulder Cracking Cell 31 cracks from shoulders propagate through lanes PG 52-34 + RAP is common shoulder mix
Reflective Cracking Besides LTC, Minnesota s other main area of interest I-35 NB north of I-90 Unbonded PCC overlay Shoulder mix PG 52-34 + RAP Not a single crack since 1998 Several sealer/rejuvenator treatments
Top-Down Cracking of BOC PCC joint traffic
Transverse Cracking Percentage Comparision 100% 100% 90% 80% Non-polymer modified overlay Polymer Modified Overlay Ultra Thin Bonded Wear Coarse 70% 60% 50% 40% 38% 30% 20% 10% 11% 0% Percentage cracked Percentage cracked after 5 years
Rehab of Full-Depth HMA Clean & Go Route & Seal Mill & Overlay Milling depth Softer (PG -34) binder STRATA, fabrics, etc. CIR (a little bit) FDR (w/ & w/o stabilizer) Whitetopping (GASP!)
Saw & Seal Mixed results over the years Tried it, doesn t do it anymore Some Cities & Counties Cupping along every joint Between joints OK
St. Louis County Example - RAP PG 58-28, 30% RAP Cracked to pieces PG 58-34, 20% RAP No cracks
Oil Gravel Poor Man s Warm Asphalt mid to late 1990s MnROAD Cells 26, 27, 28, 32, Jalger Ave. County Highways: Blue Earth, Stearns, St. Louis real WMA job paved 7/11/07 in Olmsted County Oil Gravel requires solid base No Transverse Cracking or Rutting Some Fatigue and Rough Ride Similar to current WMA development
Shingle Research Manufactured Waste TH 10 near Rice 5% shingles, 25% RAP, 2.2% new PG 64-28 AC 30% RAP, 64-28 control section much better Manufactured Waste vs. Tear-Off Shingles (5% vs. 10%) Hassan Township Better performance
Olmsted County Road 112 WRI Binder Validation Study PG 58-28 Marathon PG 58-28 Citgo PG 58-28 Valero PG 58-34 MIF (RAP) PG 58-34 MIF (Virgin) Sealer/Binder study on SB lane
Polyphosphoric Acid Study MnROAD Low Volume Road 2007 FHWA, Innophos, MTE Services Field validation of earlier lab work PPA + SBS PPA + Elvaloy PPA only SBS only
Aging Determination of Optimum Time for Application of Surface Treatments to Asphalt Concrete Pavements (University of Minnesota) Phase I Literature Review Phase II Lab & Field tests to predict aging Optimal Timing of Preventive Maintenance for Addressing Environmental Aging in HMA Pavements (new Pooled Fund project) Understand mechanisms that cause aging Apply right treatment at the right time Other ad hoc aging studies by, U of M, Texas A&M, etc.
Other Efforts Asphalt Film Thickness Spec is in place and being used Do we get better performance than VMA spec? PG -28 vs. -34 study Do we get better performance with modified binder? Is it cost-effective? LTC & RAP studies, etc.
Thank You!