Using Reflective Crack Interlayer-

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Presentation transcript:

Using Reflective Crack Interlayer- John Cheever, SemMaterials Nicola Upright, Colorado Department of Transportation

Reflective Crack Interlayer System Nova 99 short.ppt

Topics What? (John) The Problem The Solution: Reflective Crack Relief System Specifications Why? (John) Advantages Project results Where? (John) Site Selection Criteria How? (Nicki) Colorado Construction of RCI

What? The Problem

Conventional HMA overlay 6 months later What? The Problem Conventional HMA overlay 6 months later Before Nova 99 short.ppt

What? The Problem Superpave didn’t address reflective cracking Many miles of PCC in poor condition Conventional HMA overlays not addressing need NCHRP recent Request for Proposal for reflective cracking addition to AASHTO Design Guide (1-41) Nova 99 short.ppt

What? The Solution

The Solution Reflective Crack Interlayer System Significantly delays reflective cracking Protects pavement from moisture damage (impermeable) Lengthens service life Recyclable Nova 99 short.ppt

The Solution Reflective Crack Relief System Control HMA overlay Interlayer section The crack stops here! After Before Nova 99 short.ppt

The Solution Reflective Crack Interlayer System Thin (1”) fine aggregate HMA Highly elastic PMAC Asphalt-rich, impermeable Overlay Recommendation SBS modified SHRP+ spec, 98% reliability Minimum thickness to protect interlayer Overlay Interlayer Existing PCC Nova 99 short.ppt

Interlayer Specifications Materials Liquid AC Binder Minimum PG Elastic recovery Separation Fine aggregate Sand equivalency =45+ Crushed & natural sands Gradation: Sieve % Passing 3/8 inch (9.5 mm) 100 No. 4 (4.75 mm) 85 – 100 No. 8 (2.36 mm) 75 – 99 No. 16 (1.18 mm) 53 – 87 No. 30 (600 mm) 32 – 59 No. 50 (300 mm) 9 – 26 No. 100 (150 mm) 1 – 12 No. 200 (75 mm) 1 – 6

Design Specifications Volumetrics *Criteria for 9.5mm mixture, medium traffic.

Design Performance Based Specs: Reflective Crack Resistance Flexural Beam Fatigue Device, AASHTO T-321 Tests mix’s ability to withstand repeated bending Data = number of loading cycles to failure (loss of strength) Run at 10x typical strain (deformation) to simulate reflective cracking caused by PCC joint movement

Design Performance Based Specs: Hveem Stability Resistance to rutting during construction 18.0 minimum Hveem stability US 85 design = 26.0 AASHTO T 246 Nova 99 short.ppt

The Problem Nova 99 short.ppt

The Problem & The Solution

Why Isn’t the Reflection Crack Over the Joint? Stress distributed over larger area Stress concentrated at crack / joint Crack forms at weakest point in overlay Overlay Interlayer Overlay PCC PCC Joint Joint Interlayer System Typical Overlay

What Does That Mean for Performance? Interlayer Simple Overlay Overlay Interlayer Overlay PCC PCC joint joint CRACK OFFSET Ride is better, structure is intact CRACKED THROUGH TO BASE Ride is worse, structure is compromised

The Solution Impermeable Interlayer Protects Pavement Cracked overlay Interlayer intact New Jersey Route 10, Constructed 1997

Field Performance Analysis Crack counting % reflective cracking = length of cracks measured length of cracks before overlay Core analysis Cores from interlayer and control sections

Project Performance Summary Data represents 15 projects built with control sections, up to 5 years old

Project Performance Summary Average 69% improvement in reflective cracking on reflective crack relief system projects (avg. 6% reflection cracking/year) over control sections (avg. 20% reflection cracking/year) Interlayer improves overlay performance Data represents 15 projects built with control sections, up to 5 years old

Other Advantages Can be recycled Mills easily Standard HMA production & construction methods Uses locally available materials Decreased construction time vs fabric, grid Lower lane closures, user delay costs Nova 99 short.ppt

Site Selection Guidelines Where? Site Selection Guidelines

Where? PCC, ACC & composite pavements slated for overlays Cracked Needing moisture protection If not doweled, PCC slab must be stable Failed joints & unstable asphalt patches will cause early cracking User-delay concern Nova 99 short.ppt

Where? Low & Moderate Severity Distresses Spalling of joints Transverse cracking Corner cracking From SHRP P-338 Distress Manual Nova 99 short.ppt

Transverse joint spalling Where? Moderate to severe distresses repaired full depth or replaced prior to construction Patch deterioration Transverse joint spalling D-Cracking Longitudinal crack From SHRP P-338 Distress Manual Nova 99 short.ppt

Site Evaluation Core to verify condition Verify that stripping is not a concern in underlying asphalt Program severe distresses for repair Ground Penetrating Radar- Potential moisture issues

Summary Reflective Crack Relief System Advantages Significantly delays reflective cracking Impermeable Lengthens service life Recyclable Nova 99 short.ppt

Reflective Crack Relief System Projects- Colorado Here’s Nicki!!!! Nova 99 short.ppt

Thank you. Questions? Nova 99 short.ppt