Live Training

Failure Analysis Webinar

accredited iacet provider
Price: $99
No options of this product are available.
About the Course

If you're ever involved with failure analysis of fractured or cracked metal components or joints, this webinar is for you. Join Michael Pfeifer, Ph.D., P.E. from 2:00 - 4:00 pm Eastern time to learn about failure analysis of fractured and cracked components and joints.

You'll learn concepts that will enable you to be more productive as you'll be able to more quickly determine the root cause of fracture failures, better understand failure analysis reports, and better participate in a failure analysis.

What You'll Learn

The following topics will be discussed:

  • How to perform a failure analysis on fractured and cracked components and joints
  • Four common fracture modes and their appearance
  • Relating fracture surface appearance to the fracture mode
  • Common failure mechanisms associated with cracks and fracture
  • Common analysis techniques used for failure analysis of fractures

Several real-life failures will be used as examples and case studies. Also, attendees will be given opportunities to apply their knowledge by answering failure quiz questions.

Target Audience

This course is targeted to design and quality engineers, and engineers involved with root cause analysis.

Registering for the Webinar

The fee is $99 per person. After registering you will receive an email within a few hours with information about how to access the webinar. In addition to the webinar, you'll get handouts of the webinar slides and 7-day access to a recording of the webinar.

About the Instructor

Michael Pfeifer is Principal Engineer and Trainer at Industrial Metallurgists LLC.

For over 25 years Michael has worked with many companies on failure analysis and root cause analysis investigations, as well providing engineering consulting for product design and manufacturing. He is also the author of Materials Enabled Designs, which teaches how to select materials that optimize product performance, reliability, and cost.

He received a B.S. and M.S. in Metallurgical Engineering from University of Illinois and a Ph.D. in Materials Science and Engineering from Northwestern University.