Ground Penetrating Radar Survey of Pavement Thickness on MN/road Sections
Title | Ground Penetrating Radar Survey of Pavement Thickness on MN/road Sections PDF eBook |
Author | Kenneth R. Maser |
Publisher | |
Pages | 24 |
Release | 1994 |
Genre | Ground penetrating radar |
ISBN |
Nondestructive Testing of Pavements and Backcalculation of Moduli
Title | Nondestructive Testing of Pavements and Backcalculation of Moduli PDF eBook |
Author | Shiraz D. Tayabji |
Publisher | ASTM International |
Pages | 534 |
Release | 2000 |
Genre | Materials |
ISBN | 0803128584 |
As with the previous two symposia, the 32 papers from the June/July, 1999, Seattle symposium present advances in the nondestructive testing of pavements using conventional falling weight deflectometer techniques and other promising techniques such as ground penetrating radar, rolling weight deflecto
Implementation of Ground Penetrating Radar
Title | Implementation of Ground Penetrating Radar PDF eBook |
Author | Yuejian Cao |
Publisher | |
Pages | 22 |
Release | 2007 |
Genre | Ground penetrating radar |
ISBN |
The objective of this project was to demonstrate the capabilities and limitations of ground penetrating radar (GPR) for use in local road applications. The effectiveness of a GPR survey is a function of site conditions, the equipment used, and experience of personnel interpreting the results. In addition, not all site conditions are appropriate for GPR applications. GPR is a nondestructive field test that can provide a continuous profile of existing road conditions. GPR utilizes high-speed data collection at speeds up to 50 mph, thus requiring less traffic control and resulting in greater safety. GPR has the potential to be used for a variety of pavement applications, including measuring the thickness of asphalt pavement, base and sub-grade; assisting in the analysis of rutting mechanisms; calculating and verifying material properties; locating subsurface objects; detecting stripping and/or layer separation; detecting subsurface moisture; and determining depth to near-surface bedrock and peat deposits. These applications are discussed in reference to 22 projects completed throughout the State of Minnesota.
Ground Penetrating Radar Surveys to Characterize Pavement Layer Thickness Variations at GPS Sites
Title | Ground Penetrating Radar Surveys to Characterize Pavement Layer Thickness Variations at GPS Sites PDF eBook |
Author | Kenneth R. Maser |
Publisher | Strategic Highway Research Program (Shrp) |
Pages | 68 |
Release | 1994 |
Genre | Technology & Engineering |
ISBN |
A new nondestructive, noncontact method for thickness measurement is available and can be implemented from a survey vehicle moving at highway speed. The technology incorporates horn antenna radar equipment coupled with customized processing software. This report describes an accuracy evaluation of this technology in which results from 10 Strategic Highway Research Program Long Term Pavement Performance (SHRP-LTPP) asphalt pavement sections in 10 states were compared to core data. The results were evaluated and reported in two steps--blind and calibrated.
Ground Penetrating Radar for Evaluating Subsurface Conditions for Transportation Facilities
Title | Ground Penetrating Radar for Evaluating Subsurface Conditions for Transportation Facilities PDF eBook |
Author | Rexford M. Morey |
Publisher | Transportation Research Board |
Pages | 48 |
Release | 1998 |
Genre | Technology & Engineering |
ISBN | 9780309061100 |
This synthesis will be of interest to state Department of Transportation (DOT) geotechnical, bridge, and pavement engineers, engineering geologists, consultants involved with ground penetrating radar (GPR) investigations for state DOTs, and researchers. It describes the current state of the practice of using GPR for evaluating subsurface conditions for transportation facilities. This was accomplished by conducting a literature search and review and an extensive survey of U.S. and Canadian transportation agencies and practitioners, as well as limited international information collection. GPR is a noninvasive nondestructive tool used in transportation applications such as evaluation and characterization of pavement systems, soils, and environmental problems. This report of the Transportation Research Board presents information on the principles, equipment, logistics, applications, and limitations of GPR pertaining to transportation applications. Selected case studies for which ground truth information is available are presented. In addition, an extensive bibliography and glossary are provided as well as appending information about GPR manufacturers from their literature.
Appendices to Implementation of Ground Penetrating Radar
Title | Appendices to Implementation of Ground Penetrating Radar PDF eBook |
Author | Yuejian Cao |
Publisher | |
Pages | 101 |
Release | 2007 |
Genre | Ground penetrating radar |
ISBN |
The objective of this project was to demonstrate the capabilities and limitations of ground penetrating radar (GPR) for use in local road applications. The effectiveness of a GPR survey is a function of site conditions, the equipment used, and experience of personnel interpreting the results. In addition, not all site conditions are appropriate for GPR applications. GPR is a nondestructive field test that can provide a continuous profile of existing road conditions. GPR utilizes high-speed data collection at speeds up to 50 mph, thus requiring less traffic control and resulting in greater safety. GPR has the potential to be used for a variety of pavement applications, including measuring the thickness of asphalt pavement, base and sub-grade; assisting in the analysis of rutting mechanisms; calculating and verifying material properties; locating subsurface objects; detecting stripping and/or layer separation; detecting subsurface moisture; and determining depth to near-surface bedrock and peat deposits. These applications are discussed in reference to 22 projects completed throughout the State of Minnesota.
Mechanistic-empirical Evaluation of the Mn/Road Mainline Flexible Pavement Sections
Title | Mechanistic-empirical Evaluation of the Mn/Road Mainline Flexible Pavement Sections PDF eBook |
Author | Claribel Alvarez |
Publisher | |
Pages | 374 |
Release | 1998 |
Genre | Granular materials |
ISBN |
This study utilized Illinois DOT (IDOT) mechanistic-empirical (M-E) technology and Mn/ROAD mainline pavement section data and information to verify/refine/modify IDOT M-E analysis and design concepts and procedures for full-depth asphalt concrete (FDAC) and conventional flexible pavements (CFP). The Mn/ROAD mainline flexible pavements include eleven CFP and three FDAC pavement sections. Four different granular materials were used in the conventional flexible pavements. A fine-grained soil subgrade (R-value of about 12) is present throughout the mainline. Laboratory material testing results, field distress measurements, and FWD test data were used to study pavement deflection response and performance (rutting and asphalt concrete fatigue). The study demonstrated that the IDOT M-E analysis and design procedures for FDAC and CFP sections are adequate. The ILLI-PA VE structural model adequately predicts the pavement responses. The use of bi-linear (arithmetic) subgrade model and the "theta" granular material model ILLI-PA VE inputs closely replicate CFP field FWD deflection responses. The effect of granular material quality on CFP deflection response is very limited. The ILLI-PAVE FWD backcalculation algorithms are adequate for estimating the moduli of asphalt concrete and sub grade soils.