You are now leaving the National Highway Institute's Web Site. You are about to access Thank you for visiting. You are about to access a link outside of the Federal Highway Administration (FHWA), U.S. Department of Transportation (DOT). Our Web sites have many links to oth. Federal Highway administration (FHWA). 1985, 'FHWA Pavement Rehabilitation Manual,' FHWA-ED-88-025. Federal Highway Administration, Washington, DC. American Concrete Pavement Association (ACPA). 1989, 'Guidelines for Partial-Depth Repair,' Technical Bulletin TB-003P. American Concrete Pavement Association, Arlington Heights, IL.

1. Pavement Rehabilitation Methods
2. Concrete Pavement Rehabilitation

PAVEMENT REHABILITATION MANUAL. VOLUME 1, CHAPTERS 1-5. INTERIM REPORT. Volume 1 of the pavement rehabilitation manual contains state-of-the-practice information for practicing engineers on the design and construction of five rehabilitation techniques: (1) Portland Cement Concrete (PCC) Pavement Recycling, (2) Full Depth Concrete Patching of Jointed Rigid Pavement, (3) Slab Undersealing, (4. Characterizing Existing Hot-Mix Asphalt Layer Damage for Mechanistic Pavement Rehabilitation Design (FHWA-PROJ-14-0126) Demonstration of Network Level Pavement Structural Evaluation with Traffic Speed Deflectometer (FHWA-PROJ-13-0095) Quantifying Pavement Albedo (FHWA-PROJ-13-0018) Pavement Structural Evaluation at the Network Level (FHWA-PROJ. CHAPTER 11 PAVEMENTS. FHWA-NHI-131060: Concrete Pavement Design Details and Construction Practices. Techniques for Pavement Rehabilitation, Reference Manual. The FHWA published the results of the Rigid Pavement Performance and Rehabilitation (RPPR) study in the following four volumes: FHWA-RD-94-177: Volume I – Field Investigations This volume describes the field data collection activities that were conducted under the study and also summarizes the individual performance of the 303 concrete.

Analysis may necessitate the use of analytical tools, depending on the degree of analysis required. Some tools, such as QuickZone and CA4PRS, were designed for work zone related analysis. Other traffic analysis tools that were not designed specifically for work zones may also be useful for analyzing work zone situations.

QuickZone

QuickZone is an easy-to-use computer-based traffic analysis tool that compares the traffic impacts for work zone mitigation strategies and estimates the costs, traffic delays, and potential backups associated with these impacts. The target users of QuickZone are State and local traffic, construction, operations, and planning staff, and construction contractors. QuickZone can be used to:

• Quantify corridor delay resulting from capacity decreases in work zones.
• Identify delay impacts of alternative project phasing plans.
• Support tradeoff analyses between construction costs and delay costs.
• Examine the impacts of construction staging by location, time of day (peak versus off-peak), and season (summer versus winter).
• Assess travel demand measures and other delay mitigation strategies.
• Help establish work completion incentives.

QuickZone can help agencies with the impacts analysis efforts that are encouraged by the Work Zone Safety and Mobility Rule.

QuickZone 2.0 is the current version of the software. Learn more…

Construction Analysis for Pavement Rehabilitation Strategies (CA4PRS)

CA4PRS is a software tool that supports the integrated analysis of project alternatives for different pavement design, construction logistics, and traffic operations options. It was designed to help state highway agencies and paving contractors develop construction schedules that minimize traffic delay, extend the service life of pavement, and reduce agency costs.

• CA4PRS Brochure (PDF 2.09MB)
• CA4PRS Presentation (PDF 5.59MB)
• CA4PRS Usage Example: I-15 Devore Project (PDF 1.49MB)

Dynasmart-P

Dynasmart-P is a dynamic traffic assignment analysis tool that can be used to support decision making for regional work zone management. Free butterfly downloads.

Highway Capacity Manual

The Highway Capacity Manual (HCM) contains concepts, guidelines, and computational procedures for assessing capacity and quality of service for current conditions of highway facilities, as well as the effects of temporary conditions such as work zones and future conditions such as proposed improvement projects. The latest version, HCM 2010, discusses the proper application of micro-simulation analysis and its results; provides specific tools and generalized service volume tables; provides an integrated multimodal approach to analyzing urban streets; and discusses how active traffic management can affect both demand and capacity.

• Purchase the Highway Capacity Manual - Link to TRB Bookstore
• NCHRP Synthesis 427: Extent of Highway Capacity Manual Use in Planning (PDF 1.4MB) - Assesses how state DOTs, small and large metropolitan planning organizations, and local governments are using or might use the HCM for performance monitoring, problem identification, project prioritization and programming, and decision-making processes to better compare project alternatives and understand impacts to highway facilities.

Highway Safety Manual

The Highway Safety Manual (HSM) provides information and tools to facilitate roadway planning, design, operations, and maintenance decisions based on precise consideration of their safety consequences. The primary focus of the HSM is analytical tools for predicting the impact of transportation project and program decisions on road safety. Several accompanying references have been developed through cooperative research initiated by FHWA. These include SafetyAnalyst, Interactive Highway Safety Design Model (IHSDM), and the Crash Modification Factors (CMF) Clearinghouse.

• Purchase the Highway Safety Manual - Link to AASHTO Bookstore
• AASHTO Highway Safety Manual Web Site - Provides HSM-related news, resources supporting implementation of the HSM, and a user discussion forum.
• FHWA Highway Safety Manual Web Site - Includes links to HSM guidance, training, case studies, and the three reference tools developed by FHWA.
• Integrating the Highway Safety Manual into the Highway Project Development Process - Provides examples for integrating methods from the HSM into planning, alternatives development and analysis, design, operations, and maintenance.

FHWA Traffic Analysis Tools Program

Pavement Rehabilitation Methods

FHWA's Traffic Analysis Tools Program supports development of new, improved tools for traffic operations analysis and facilitates the deployment and use of existing tools.

Concrete Pavement Rehabilitation

You will need the Adobe Acrobat Reader to view the PDFs on this page.