Print this page An Introduction to Rigid Pavement Design
J. Paul Guyer, P.E., R.A., Fellow ASCE, Fellow AEI
Course Outline
I. INTRODUCTION
II. RIGID PAVEMENT DESIGN
A. Soil Classification and Tests
B. Compaction
C. Treatment of Unsuitable Soils
D. Determination of Modulus of Subgrade Reaction
III. RIGID PAVEMENT BASE COURSE
A. General Requirements
B. Materials
C. Compaction
D. Frost Requirements
IV. CONCRETE PAVEMENT
A. Mix Proportioning and Control
B. Testing
C. Special Conditions
V. PLAIN CONCRETE PAVEMENT DESIGN
A. Roller-Compacted Concrete Pavements
B. Design Procedure
VI. REINFORCED CONCRETE PAVEMENT DESIGN
A. Application
B. Design Procedure
C. Limitations
D. Reinforcing Steel
E. Design Example
F. Typical Details
This course includes a multiple-choice quiz at the end, which is designed to enhance the understanding of the course materials.
Learning Objective
At the conclusion of this course, the student will:
- Learn how to evaluate site and soil conditions;
- Learn how to evaluate traffic conditions and use the Design Index;
- Learn how to design rigid pavement subgrades;
- Learn how to design rigid pavement select materials and subbase courses;
- Learn how to design rigid pavement base courses; and
- Learn the design procedure for rigid pavement design.
Intended Audience
This course is intended for engineers, architects and construction professionals who want an introduction to flexible pavement design for streets, roads and parking areas. The course will give you the basic terminology and technical considerations needed to help you address flexible pavement design issues on specific projects.
Benefit for Attendee
This course will give engineers and others an understanding an introduction to flexible pavement design that will allow you to understand the design issues and technical approach to design issues.
Course Introduction
This is an introduction to rigid pavement design. It is a basic treatment that will introduce designers to some important principles and terminology. In simple applications on real projects the information provided will give designers a good start in addressing subgrades, select materials and subbase courses, base courses and pavement design.
About Course Author
Paul Guyer is a registered mechanical engineer, civil engineer, fire protection engineer and architect with over 35 years experience in the design of buildings and related infrastructure. For an additional 9 years he was a senior-level advisor to the California Legislature on infrastructure and capital outlay issues. He has designed and supervised the design of hundreds of construction projects requiring the preparation of detailed working drawings and specifications for federal, state and local public agencies and private companies. He is a graduate of Stanford University and has held numerous national, state and local positions with the American Society of Civil Engineers and National Society of Professional Engineers.
Course Content
The course content is contained in the following PDF file:
An Introduction to Rigid Pavement Design
Please click on the above underlined hypertext to view, download or print the document for your study. Because of the large file size, we recommend that you first save the file to your computer by right clicking the mouse and choosing "Save Target As ...", and then open the file in Adobe Acrobat Reader. If you still experience any difficulty in downloading or opening this file, you may need to close some applications or reboot your computer to free up some memory.
Course Summary
This course provides an introduction to design of subgrades, select materials and subbase courses, base courses and base course for flexible pavements for streets, roads and parking areas.
Quiz
Once you finish studying the above course content, you need to take a quiz to obtain the PDH credits.
DISCLAIMER: The materials contained in the online course are not intended as a representation or warranty on the part of PDH Center or any other person/organization named herein. The materials are for general information only. They are not a substitute for competent professional advice. Application of this information to a specific project should be reviewed by a registered architect and/or professional engineer/surveyor. Anyone making use of the information set forth herein does so at their own risk and assumes any and all resulting liability arising therefrom.
