Use of Ground Penetrating Radar to Review MN Roads

1. Mn/DOT Office of Materials and Road Research Use of Ground Penetrating Radar to Review MN Roads Marc Loken Office of Materials and Road Research Tel: 651-779-5526 Marc.loken@dot.state.mn.us Minnesota Department of Transportation

2. Outline • Applications of GPR • Basic Principles of GPR • MnDOT GPR Equipment • Current Projects • Future Projects • Conclusions

3. Applications of GPR • Determine pavement thickness • Calculate material properties • Detect subsurface anomalies • Determine depth to bedrock • Detect stripping and/or layer separation • Analyze rutting mechanisms • Detect subsurface moisture and/or freezing

4. Basic Principles of GPR

5. Typical Data Scan

6. Material Characterization Dielectric Constant The dielectric constant of a material is its ability to store electrical energy

7. Dielectric Constants of Some Common Materials

8. Dielectric Constant Calculation 1= [(1+ρ1)/(1- ρ1)]2 where: 1= dielectric constant of surface layer 1 = A1/ Am A1= amplitude of the surface reflection from the surface layer Am = amplitude of the surface reflection from metal sheet

9. Calculation of Layer Thickness 2*h1 =c t1 / 1 where: h1 = thickness of 1stlayer c = speed of radar in air = 11.8 in/ns t1= time required to transmit signal through 1st layer

10. MnDOT GPR Equipment • Data Collection Systems • SIR 2000 • SIR 020 • Antenna • 100 MHz (5 to 20 ft depth) • 400 MHz (2 to 10 ft depth) • 1 GHz (Air-Coupled) (0 to 4 ft depth) • 1.5 GHz (0 to 3 ft depth) • Post-Processing Software • RADAN NT • RoadDoctor (tenatative)

11. Equipment – SIR 020

12. Equipment – Van & Antenna

13. Current Projects • MnROAD – Calibration, Rutting, Layer Thickness, Material Identification • Olmsted CR 117 – Ground Truth Measurements, Layer Thickness • TH 212 – Subsurface Cracks, Pavement Layer Identification • TH 22 – Evaluate Pavement Thickness, Road Structure • TH 7 – Stripping Layers and Interface Separation

14. MnROAD • Objectives • Calibration • Layer Thickness • Material Identification • Pavement Structure • Cells 33-35 • 4” Asphalt • 12” Class 6 • Cell 36 • 6 1/4” Concrete • 5” Class 5

15. MnROAD -- Calibration

16. MnROAD -- Calibration Cell 33

17. MnROAD – Layer Thickness Cell 34

18. MnROAD – Material ID Cell 36

19. Olmsted CR 117 • Objectives • Ground Truth Measurements • Layer Thickness • Pavement Structure • 6” Asphalt • 12” Class 5

20. Olmsted CR 117

21. Olmsted CR 117 – Ground Truth Measurements

22. Olmsted CR 117 – Layer Thickness Station 130+00

23. TH 212 • Objectives • Subsurface Cracks • Pavement Layer Identification • Pavement Structure • 9-10” Asphalt • 13-14” Gravel Base • Concrete or Clay Loam Subgrade

24. TH 212 – Subsurface Cracks Mile 118.4

25. TH 212 – Clay Loam Mile 118.0

26. TH 212 – Concrete Mile 118.4

27. TH 22 • Objectives • Pavement Thickness • Road Structure • Pavement Structure • 3-6” Asphalt • Concrete or Gravel Base

28. TH 22 – Pavement Thickness Greeley Ave

29. TH 22 – Material Identification Ford Ave

30. TH 7 • Objectives • Stripping Layers • Interface Separation • Pavement Structure • 10-12” Asphalt • 12-36” Gravel

31. TH 7 – Interface Separation Mile 152.6

32. Future Projects • MnROAD (Rutting Mechanisms) • Pine Co. (Stripping and Overlay History) • St. Louis County (Depth to Bedrock) • TH 55 (Fault Plane Survey) • Interstate Park (Potholes in Bedrock)

33. Conclusions • GPR is nondestructive field test used to determine road structure • GPR utilizes high-speed data collection at speeds up to 50 mph • Gives a continuous subsurface description • GPR can be used to identify subsurface structures up to 20 ft in depth