$7.96 PCMO $2.07 Thermo seal w/o aggregate $3.72 Thermo Slurry Fine $2.00 Slurry Seal $2.40 Chip Seal $1.08 Rejuvenator $1.65 FOG Seal $5.00 Ekrete $9.00 Surtreat $5.00 Magnesium Phosphate Cement $18.00 AddaGrip UK $6.50 MG-Krete $16.00 HPCO 4/9/2014 Presented by: Paul Rogers, PE, Trimat Materials Testing, Inc. Phil Lanier, NCDOT-Division of Aviation Christopher Bacchi, PE, Trimat Materials Testing, Inc. Paul Rogers Geotechnical engineer works primarily in airfield preservation, maintenance, and construction. Extensive background in inspection and quality assurance. Phil Lanier- Currently NCDOT Division of Aviation Airport Project Manager. Developed NCDOT Airport Maintenance Program. Extensive background in construction program management. Chris Bacchi- Former DOT pavement engineer. Currently working on FHWA, private, and university research on asphalt pavements. Extensive background in pavement and mix design. What are rejuvenators? Do they work? Benefits and drawbacks Experience on NC airports Project Selection Product Selections Project Execution Encompassing term that covers all products designed to restore asphalt binder flexibility. Excellent product to seal the surface, stop the loss of fines, combat the effects of oxidation. Replaces maltenes lost due to oxidation to restore the maltenes/asphaltenes balance. Must have verifiable influence on the asphalt pavement. No changes to P-632 in new FAA AC 150/5370 10G $2,000,000.00 $1,800,000.00 $1,600,000.00 $1,400,000.00 $1,200,000.00 $1,000,000.00 Surface Treatment Cost - Based on 100,000 Sq. Yds. NCDOT and Trimat have tested and evaluated 8 commercially available products over the past decade. All of the products tested met FAA Item P-632. $800,000.00 $600,000.00 $400,000.00 $200,000.00 $0.00 Some of products evaluated performed much better than expected and others much worse. 1
VISCOSITY % Porosity Absolute Viscosity (Poises) 4/9/2014 Henderson Oxford Airport NCDOT Division of Aviation Test Airport Tested 5 Commercially available rejuvenation products. Products were graded on a variety of characteristics Product Grading Matrix 400000 350000 Asphalt Binder Testing Henderson-Oxford Airport Eight Year Testing Criteria Product A Product B Product C Product D Product E Short Term Performance 5 7 4 7 4 300000 Pre- Treatment Post- Treatment LT Perf- Untreated 2 10 5 6 3 250000 LT Perf- treated 0 5 3 1 3 LT Perf- average intital 2 10 2 10 3 200000 Surface Fodability 1 4 10 8 8 Raveling Fodability 9 10 10 10 6 150000 Short Term Color/Conspicuity 5 5 0 5 5 Long Term Color/Conspicuity 7 9 0 8 3 Surface Distress 8 8 8 8 8 Friction 7 9 9 9 10 Crack Sealing 5 6 1 8 3 Total 51 83 52 80 56 100000 50000 0 12/5/2002 12/5/2003 12/4/2004 12/4/2005 12/4/2006 12/4/2007 12/3/2008 12/3/2009 12/3/2010 12/3/2011 12/2/2012 6.00 5.00 M.i.S.T. Rejuvenator Testing Meeting the FAA P-632 can be accomplished in a variety of ways, not all are beneficial to the pavement. 4.00 40% Criteria 3.00 Conditioned Non Grooved Conditioned Grooved 2.00 Existing Non Grooved Existing Grooved Untreated Treated 1.00 0.00 0 1000 2000 3000 4000 5000 6000 Pressure Cycles Rejuvenator Coleman Camp Fuel Kerosene 2
Asheville Regional Airport Part 139 Summer 2011 Runway Rejuvenation Summer 2013 Taxiway Rejuvenation Completed runway work between 12PM & 5AM Extensive test strip and application mock up program. Successful preliminary project testing Onsite QA Rocky Mount - Wilson Part 139 Summer 2012 Design and pre project testing including binder testing, M.i.S.T. testing, macro texture, and friction testing. Testing conducted on a previously treated section (PDC) and untreated runway extension. Summer 2013 Complete Runway and Taxiway Rejuvenation 160,000 Sq. Yds. Restore pavement flexibility Stop loss of fines Seal pavement surface and decrease permeability Increase marking conspicuity Increase marking life Will not restore low friction Will not help stop the propagation of large cracks. Does not help alligator, fatigue cracked, raveling, or pavements with structural problems. Limited availability of qualified contractors. Provide more attractive airport pavement. Requires limited mobilization and construction time Much of the research available to potential beneficiaries of these products has not been conducted by independent parties. Not all products are created equal Before Photograph @ Mt. Airy 2008 Typical GA in NC Recent Projects (Typically 8-10 Airports/Year) Mount Airy 2009 Asheville Regional Runway - 2011 Person County Runway and Taxiway 2011 Henderson Oxford Airport Runway 2012 Pitt-Greenville Regional Runway 2012 Albert J. Ellis Taxiway 2012 Asheville Regional Taxiway 2013 Rocky Mount-Wilson Runway and Taxiway 2013 Duplin County Airport Runway 2013 Anson County Airport Runway and Taxiway - 2013 Asheboro Airport - 2014 3
Mt Airy Runway PCI in 2008 ~ 68 = Fair Why was Mt. Airy a good Candidate for Rej? Pavement @ 15 Years and has 10 yrs to Go?!?!? PCI inspection noted weathering was a predominant distress. PCI was 68 Markings @ end of life Need more Contrast Between Markings & Pavement Small fines becoming an issue (weathering) Funding not in place for Extension & Rehab..Yet Testing Schedule for Mt. Airy RWY in 2009 Pre & Post Coring Pre & Post Skid Testing Pre & Post Liquid Samples Applicator Rate (in this case 0.06 gal/sq.yd) & Atomization Check Construction Phasing for Mt. Airy in 2009 Pavement Markings are cleaned of mold & dirt Cracks are routed, blown, vacuumed RWY is rejuvenated, except for markings larger than 6 Cracks are sealed and squeegied Half Rate paint (no beads). This is the scratch coat/primer coat Full Rate Paint With Beads then applied. Within 3-4 Weeks Post Cleaning & Rejuvenating @ Mt. Airy, 2009 Final Product @ Mt. Airy, 2009 4
Mt Airy Runway PCI in 2010 ~ 80 = Good Mt. Airy Rejuvenation Conclusions Rejuvenation was contributory in suppressing weathering distress RWY PCI increased from 68 to 80 Enhanced Conspicuity of new Markings by providing contrast Per Airport Sponsor, small fines decreased - FOD 4300 x 75 RWY Rejuvenation costs ~35K Total Project Turn-Key cost ~ 75K Before Photograph @ Asheville 2011 Typical 139 in NC 2008 MAP 2013 Predicted PCI 2013 PCI Why was Asheville a good Candidate for Rej? Testing Schedule for Asheville RWY in 2011 Pavement @ 15 Years and has 5-8 yrs to Go?!?!? PCI inspection noted weathering was a predominant distress. PCI was 50. Markings @ end of life ~ 7 yrs Need more Contrast Between Markings & Pavement Small fines becoming an issue (weathering) Funding not in place for New Runway Yet Pre & Post Coring Pre & Post Skid Testing Pre & Post Liquid Samples Pre & During Curing Time Applicator Rate (in this case 0.045 gal/sq.yd) & Atomization Check Full Time RPR and Testing Rep 5
Construction Phasing for Asheville RWY in 2011 After Photograph @ Asheville 2011 Typical 139 in NC Rubber Removed (Chemically) Pavement Markings are cleaned of mold & dirt Cracks are routed, blown, vacuumed RWY is rejuvenated, except for markings larger than 6. Cracks are sealed and squeegied Half Rate paint (no beads). This is the scratch coat/primer coat Full Rate Paint With Beads then applied. Within 2 Weeks. Asheville Rejuvenation Conclusions Rejuvenation was contributory in suppressing weathering distress RWY PCI increased from 50 in 2008, to 59 in 2013 Enhanced Conspicuity of new Markings by providing contrast Per Airport Operations, small fines decreased 8000 x 150 Grooved RWY Rejuvenation costs ~100K Total Project Turn-Key cost ~ 200K Ensure QA/QC roles/responsibilities prior to construction. Each job is different. Application rates determined by friction testing, cores, and other project specific factors Too much rejuvenation = Asphalt too soft & Friction to low. Too little rejuvenation = Full Benefits not achieved Scarring/streaking should be avoided Communication is key: Engineer/Contractor/Testing & RPR/Owner/Tenants Good candidates include: PCI > 70 Asphalt age 8-12 years, again at 16-20 years Severe oxidation Loss of fines Good macro-texture Poorly compacted new asphalt Hairline cracks Marking conspicuity problems Bad candidates include: PCI < 60 Major cracking Structural issues Raveling Pavements Previous surface treatments Poor macro-texture Low friction 6
Current P-632 Testing Requirements Other Selection Factors include: Marking Conspicuity Beautification GA Airports Weathering deterioration Pavements that need to be sealed Lab Recovered Binder Testing: Pre and post treatment Absolute Viscosity* Complex Modulus (viscosity)* Phase Angle Targeting 25% or 40% decrease in these values* dependant on age of pavement (table) Current P-632 Testing Requirements Current P-632 Testing Requirements Table 1. Pavement Three (3) Years or Less in Age Recovered Binder 2 Requirement Item Property of Test Method 1 Absolute Viscosity 60 C, P ASTM D 2171 2a Complex Modulus 60 C, G* 25% Decrease 2 2b Viscosity 60 C, η = G* / ώ Pa s AASHTO T 315 2c Phase Angle 60 C, δ, Report Table 2. Pavement More than Three (3) Years in Age Recovered Binder 2 Requirement Item Property of Test Method 1 Absolute Viscosity 60 C, P ASTM D 2171 2a Complex Modulus 60 C, G*, kpa 40% Decrease 2 2b Viscosity 60 C, η* = G* / ώ Pa s AASHTO T 315 Lab Testing Samples onsite of rejuvenator Rejuvenator compliance to MSDS Field Performance: Proof of Past Performance Friction Tests 2c Phase Angle 60 C, δ, Report Current P-632 Testing Issues No specs for rejuvenators (other than EB44B) Core/recovered asphalt lab testing does not tell whole story No pre-treatment testing on asphalt mix after PCI evaluation (min 70) Current P-632 Testing Issues Confusing specs for rejuvenators Section P632-6.1 specifies: Testing, as necessary, will be accomplished by the Engineer to verify information provided by the MSDS information MSDS only provides information regarding physical data, safety and transport, NOT product properties. Materials should conform and be tested using EB44B as guidelines: Materials conforming to ASTM D490, Standard Specification for Road Tar 7
% Change in Lab Values Friction Number, Mu % Change in Lab Values 4/9/2014 Current P-632 Testing Issues MSDS Info Specific Gravity Items covered by D490 (EB44B Table 1): % Water Specific Gravity Specific Viscosity Distillation Softening Point Reasons to Test Rejuvenators Percent Change in Recovered Binder Properties (ABS) 120.0% 100.0% 80.0% 60.0% Kerosene Naptha rej 40.0% 20.0% 0.0% ABVIS Comp Mod Phase Ang -20.0% -40.0% Friction Testing Changes 40 mph 0.9 Skid Results Before and After Rejuvenator Treatment - 40 mph 0.85 0.8 Friction Number, Mu 0.75 0.7 0.65 0.6 0.55 0.5 Design 40 mph Untreated 40 mph Treated Maintenance 0.45 0.4 1 2 3 4 5 Project Min Friction Testing Performance 60 mph Friction Testing Performance vs. Lab Results 1 0.9 Friction Results Before and After Rejuvenator Treatment - 60 mph 120.0% 100.0% 80.0% Lab values vs 40 mph skid Only relationship noted was between Absolute Visc and Skid # 60.0% ABVIS COMPVIS 0.8 40.0% Angle Lab Values vs 60 mph Skid 0.7 60 mph Untreated 20.0% 120.0% 60 mph Treated 0.0% 100.0% 0.6-20.0% 80.0% -10.0% -5.0% 0.0% 5.0% 10.0% 15.0% 20.0% 25.0% 30.0% 35.0% 40.0% % Change In Skid #, mu 60.0% ABVIS 0.5 40.0% COMPVIS Angle 20.0% 0.4 1 2 3 4 5 Project 0.0% -20.0% -10.0% -5.0% 0.0% 5.0% 10.0% 15.0% 20.0% 25.0% 30.0% 35.0% 40.0% 45.0% % Change in Skid #, mu 8
Relationship Between Absolute Viscosity and Friction Number Proposed P-632 Testing % Change in Lab Value Absolute Viscosity vs Skid # 120.0% 100.0% y = -0.6526x + 0.9478 80.0% R² = 0.8241 y = -0.7418x + 0.933 ABVIS 40 R² = 0.9526 60.0% ABVIS 60 40.0% 20.0% 0.0% -10.0% -5.0% 0.0% 5.0% 10.0% 15.0% 20.0% 25.0% 30.0% 35.0% 40.0% 45.0% % Change in Skid #, mu Porosity/permeability testing for pavement prior to application MiST testing Long Term Performance Testing for individual rejuvenators Test Strips for Skid Testing Other Factors to Consider Tracking concrete aprons? Color some are clear FOD does it flake? New Trimat Protocol for Rejuvenators Summary Friction testing test sections? Random core sampling of existing pavement Perform density testing, MiST testing, and viscosity/comp Mod, Phase Angle on recovered binder Rejuvenator Product Sampling and testing as per EB44B (per shipment) Post application cores and lab testing Onsite QC-QA Inspection 9