Print this page Selected Topics in Mechanics of Materials
Course Outline
Whether you are an engineer or an architect, it is essential to have a basic understanding about the mechanics of materials. This course introduces engineers and architects to the fundamental principles involved in designing typical components such as drive shafts, floor beams, pressure tanks, and bolted connections found in machines or structures. The selected topics for discussion include the mechanical properties of materials, torsion, bending, stress and strain transformation, beam deflection, and column stability, with the emphasis towards real-world applications.
This webinar uses the state-of-the-art illustrative techniques to demonstrate the analytical procedures in engineering design. This course includes a multiple-choice quiz at the end, which is designed to
enhance the understanding of course materials.
Learning
Objectives
At
the conclusion of this course, the student will:
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Be familiar with the vocabulary related to engineering analysis and design;
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Know the basic assumptions used in mechanics of materials;
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Have a better understanding of material properties;
- Understand material behavior under different loadings;
- Know how to draw free-body diagrams;
- Understand engineering design approaches;
- Be familiar with stress analysis methods;
- Know how to construct Mohr's circles;
- Be able to transform stresses and strains;
- Know how to calculate internal forces in components;
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Be able to calculate various deformations;
- Know the effects of combined loads;
- Understand the deformation compatibility requirements;
- Be aware of two types of buckling;
- Be able to analyze column stability;
- Understand the factor of safety required;
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Be able to design simple structures;
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Improve engineering design skills.
Course Content
The purpose of
this course is to present basic concepts of material analysis and design using the strength of materials approach. It is highly recommended for you to have a copy of Mechanics of Materials by Beer, Johnson, Dewolf and Mazurek or an equivalent textbook. If you do not have a copy, you can refer to the materials under the "Related Link" or purchase the book from Amazon.com.
Selected topics from the following chapters in Mechanics of Materials will be discussed in this course:
Chapter 3 Torsion
Chapter 5 Analysis and Design of Beams for Bending
Chapter 6 Shearing Stresses in Beams and Thin-Walled Members
Chapter 7 Transformations of Stress and Strain
Chapter 8 Principal Stresses under a Given Loading
Chapter 9 Deflection of Beams
Chapter 10 Columns
By reviewing the materials contained in the Related Links below, you will gain a better
understanding of the subject.
Because this course is offered as a "live" course, you are required to attend the webinar at the scheduled time and date. Please check the Webinar Schedule under course description on our website for currently scheduled meeting date and time. We will send you an invitation to the webinar through email approximately 24 hours before the webinar (confirmation of the receipt of the invitation is required). The certificate of completion will not be issued unless you attend the webinar and pass a quiz. Thank you for your cooperation.
Related Links
For
additional technical information related to this subject, please visit the following
websites or web pages:
Mechanics of Material Basics: General Equation and Definitions
Mechanics of Materials by Mansfield Merriman
Strength of Materials Wikipedia
Stress & Strain Calculator
Glossary - Mechanics of Materials
Quiz
Before you attend the webinar, you need to print the quiz questions from your browser for your study during the webinar. At the end of the webinar, you need to complete the quiz and submit your answers 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 PDHonline.org 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 professional engineer. Anyone making use of the information set forth herein does so at their own risk and assumes any and all resulting liability arising therefrom.
