You are here

Carbon Nanotube-Based Self-Sensing Concrete for Pavement Structural Health Monitoring

Project Information

Project ID: 
FHWA-PROJ-10-0015
Project Status: 
Completed
Start Date: 
Tuesday, March 9, 2010
End Date: 
Friday, March 9, 2012
FHWA Program: 
Exploratory Advanced Research
FHWA Topics: 
Roads and Bridges--Pavement and Materials
TRT Terms: 
Infrastructure; Research; Concrete; Materials; Pavements; Durability
FHWA Discipline: 
Pavement and Materials
TRB Subject Area: 
Data and Information Technology, Materials, Pavements

Contact Information

First Name: 
Katherine
Last Name: 
Petros
Telephone: 
(202) 493-3154
Email Address: 
Team: 
Infrastructure Analysis and Construction Team
Office:
Office of Infrastructure Research and Development
Office Code: 
HRDI-20

Project Details

Project Description: 

Phase 1: Feasibility tests of the carbon nanotube (CNT) enhanced concrete for stress sensing in pavement. Fabricate self-sensing CNT enhanced concrete and use indoor and outdoor lab tests to evaluate their feasibility for detecting stress levels in pavement. Phase 2: Road test of the self-sensing CNT concrete for pavement health monitoring in a Minnesota Road Research Project (MnROAD) controlled road facility. Explore weigh-in-motion (WIM) detection feasibility. Perform road tests to evaluate the CNT enhanced concrete pavement for stress sensing in controlled road environments. The self-sensing concrete will also be explored for WIM detection.

Goals

The key project objective is to develop a new intelligent self-sensing concrete pavement that can monitor its own structural health by continuously detecting internal stress level changes of the pavement.

Deliverables

Deliverable Name: 
Initial research into use of carbon nanotube (CNT) in pavements
Deliverable Type: 
Research report or guidelines
Deliverable Description: 
Carbon nanotubes (CNTs) may enhance real-time monitoring of pavement health in a large area continuously. Carbon nanotubes may also increase concrete strength and durability in a pavement environment.