Course Catalogue.

After participating in this course, you will be able to:

• Apply practical knowledge to effectively rehabilitate municipal roadways.
• Understand the fundamental parameters necessary for completing pavement designs.
• Select the most suitable pavement type and rehabilitation strategy by evaluating relevant factors.
• Identify various pavement distresses and determine the appropriate treatments based on current best practices.
• Utilize your comprehension of specification requirements to conduct thorough and accurate field inspections.

Description
Focusing on the complexities of pavement design and construction in densely populated urban areas, this course emphasizes the necessity for engineers to consider various factors such as curbs, gutters, utilities, and private and commercial entrances during the planning and execution of pavement projects. Effective pavement engineers must have a comprehensive understanding of roadway design constraints to select the most appropriate and cost-effective pavement rehabilitation treatments. These treatments should also be adaptable to future needs, ensuring the long-term sustainability and functionality of urban infrastructure.

This course covers a wide range of pavement rehabilitation strategies and provides guidance on selecting the best options for specific project requirements. Additionally, it offers insights into designing and constructing new pavements using flexible, rigid, and composite pavement types. Participants will learn to understand critical construction specifications and identify key features to monitor during inspections to ensure quality and compliance.

While encompassing concepts applicable across all Canadian jurisdictions, this course includes specific references and examples from municipalities in Western Canadian Provinces. By the end of this course, participants will be equipped with the knowledge and skills to tackle the unique challenges of urban pavement projects, enabling them to make informed decisions that balance cost, effectiveness, and future needs.

Who Should Attend
This course will be particularly valuable for professionals involved in the assessment, design, and construction of municipal roadways. These include pavement engineers, civil technicians and technologists, engineering consultants, design engineers, construction inspectors, and contractor superintendents.

Whether you are directly engaged in roadway projects or provide support through consultancy and inspection, this course offers critical insights and skills to enhance your expertise and effectiveness in urban pavement design and construction.

Course Syllabus

Day I

Pavement Engineering: An Overview

• Types of municipal pavements
• Roadway classifications
• Basic design inputs
• Challenging municipal environments
• Interaction with other roadway features

Assessment of Existing Roadways

• Pavement distresses
• Functional pavement assessment
• Structural pavement assessment
• Non-Destructive Tools (NDT)
• Considerations of future roadway needs

Pavement Design Tools

• Municipal Design Charts/ Standard Pavement Designs
• Asphalt Institute
• AASHTO Guide for the Design of Pavement Structures
• CPCA Pavement Design Charts
• StreetPave 12
• OptiPave2
• AASHTOWare Pavement ME Design Software
• CAC Street Smart Reports

Pavement Preservation Treatments

• Surface Treatment
• Cold Recycling Mix
• Bonded Wearing Course
• FibreMat

Pavement Rehabilitation Alternatives

• Asphalt overlay
• Asphalt resurfacing with base repairs
• Asphalt overlays (with stress-absorbing membranes)
• Full-depth reclamation with expanded asphalt stabilization
• Cold-in-place recycling
• Hot-in-place recycling
• Concrete pavement repairs
• Concrete overlays (white-topping)
• Flexible pavement reconstruction
• Rigid pavement reconstruction
• Composite pavement reconstruction
• Roller-compacted concrete pavement reconstruction
• Life cycle cost analysis

Day II

Pavement Platforms

• Rural roadways
• Urban roadways
• Semi-urban roadways

Drainage Considerations

Design Details: Asphalt

• Asphalt material selection
• Joint construction
• Tack coat
• Temporary detour pavements

Design Details: Concrete

• Type of concrete materials
• Joint reinforcement
• Surface texturing
• Concrete curing
• Joint sealing
• Joint Layout
• Construction staging

Construction Specifications

• Subgrade preparation
• Proof-rolling
• Granular base/subbase material
• Hot asphalt paving
• Concrete paving
• Roller compacted concrete

Construction Preparation

• Subgrade preparation
• Application of Geotextiles and Geogrids
• Construction on Expansion Soils

Construction Inspection: Concrete Paving

• Pre-paving site inspection
• Concrete placement
• Dowel/ tie-bar
• Concrete Finishing
• Surface texture
• Surface curing
• Joint cutting/ sealing
• Dowel bar orientation verification

Construction Inspection: Asphalt Paving

• Pre-paving site inspection
• Asphalt mix design
• Asphalt paving
• Compaction
• QC/QA material testing

Innovation Materials and Processes

• Infrared thermography
• GPR asphalt density measurements
• Safety edge

Questions and Answers, Feedback on Achievement of Learning Outcomes

Concluding Remarks and Final Adjournment