Parking lots, municipal roadways, airports, and major highways all use some form of pavement. Pavements are constructed to provide a safe and durable riding surface for the travelling public. Some may be constructed using a flexible pavement (asphalt), others rigid pavement (concrete). Which types are appropriate for each application? What are the functional requirements for rigid versus flexible pavement? How can each be constructed and maintained in a cost effective manner? Pavement construction is very expensive and once the pavement is built, what is important to ensure that we are getting our money’s worth. How do I determine when I need to “fix” something? What is involved? What are the costs?
- Understand key components and factors necessary for the cost effective design of flexible and rigid pavements.
- Be able to identify design and construction features that may negatively impact the performance of pavements.
- Assist in developing specifications to ensure the performance of pavements.
This course discusses pavement design, specification, subgrade preparation, base/subbase and surface types and function, construction details, and long-term functional and structural performance considerations to ensure a long life and effective product. The course also provides details on maintenance and rehabilitation procedures, how to evaluate both old and new, and innovative pavement treatments using lifecycle cost analysis. Through the presentation of a series of case studies, positive and negative design features, and construction conditions the participant will gain a good understanding of what we can do better to ensure the cost-effective use of transportation investments.
The American Association of State Highway and Transportation Officials (AASHTO) 1993 pavement design procedure is covered along with an introduction to the new AASHTO Pavement Design ME mechanistic-empirical method. Design procedures and processes for low volume parking area and roadways will be discussed.
Municipal interest in green infrastructure solutions for stormwater quantity and quality management, use of permeable pavements has been rapidly increasing. Cities such as Vancouver, Calgary, Toronto, and numerous private sector developers have been designing and building permeable pavements. Key permeable pavement design, construction, and maintenance features will be presented.
For existing pavement infrastructure, common procedures will be outlined to assist in evaluating pavement condition and to use this information for the cost-effective, long-term management of a pavement network. Common pavement and overall asset management systems ranging from the very simple to very complex will be discussed.
The primary design, specification, and construction factors that contribute to the long-term functional and structural performance of pavements ranging from parking lots to municipal roadways, airports, and major highways will be discussed.
The design portion of this course focuses on features that may impact the performance of asphalt and concrete pavement infrastructure.
Some of the key design elements for concrete pavement design and construction include:
- Subgrade preparation;
- Dowel bar: alignment, insertion, and quality;
- Dowel and tie bar placement;
- Joint detailing;
- Proper detailing around utility covers;
- Joint and crack sealing;
- Deleterious materials; and
- General construction site cleanliness.
Some of the key design elements for asphalt pavement design and construction include:
- Subgrade preparation;
- Asphalt stripping;
- Mix problems;
- Drainage; and
- Maintenance procedures.
Pavement evaluation and management procedures and sustainability solutions specific to the Canadian environment as outlined in the recently released Transportation Association of Canada Pavement Design and Asset Management Guide will be highlighted. The design, evaluation, and management of new pavement systems including permeable pavements will be covered. Finally, examples of world-wide innovations in pavement construction and maintenance will be presented.
Unique Features of the Course
While the course materials are structured, there is ample opportunity to explore any aspects of pavement design, evaluation, and maintenance of interest to the participants. The instructor effectively uses discussion, case studies, and real-world examples to highlight key aspects and interests of the group.
- Pavement network owners and administrators;
- Engineers and technicians involved in the design, evaluation, and management of pavements;
- Provincial, municipal, and local agencies; and
- Airport owners and maintenance staff.
Principal Pavement, Engineer Applied Research Associates (ARA)
David Hein is a principal pavement engineer with Applied Research Associates (ARA). ARA is a science and engineering firm specializing in practical solutions to everyday problems. Mr. Hein has over 30 years of experience throughout North America ranging from parking areas and walkways to major highway facilities and airports. He is actively involved with many organizations including the Transportation Association of Canada (past chair of the pavements committee) and co-author of the recently released Pavement Design and Asset Management Guide, Ontario Good Roads Association, American Society of Civil Engineers (chair of the interlocking concrete block pavement and the permeable pavements committees), World Road Association (past chair of the pavements committee), and has completed training courses for over 10,000 participants across North America.