VCPD859 - ASME BPVC Section III: N-1300 Applied Design, Failure Analysis and Prevention of Shock and Vibration Combo Course (Virtual Classroom) has been added to your cart.
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ASME BPVC Section III: N-1300 Applied Design, Failure Analysis and Prevention of Shock and Vibration Combo Course (Virtual Classroom)

Predict and prevent the impact of shock and vibration in structures exposed to high-energy fluid flow, base excitations & earthquakes, and rotating equipment or transportation.

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ASME BPVC Section III: N-1300 Applied Design, Failure Analysis and Prevention of Shock and Vibration Combo Course (Virtual Classroom)
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  • Dec 06 2021-Jan 28th, 2022

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    $1995
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Enroll now to save 53%

$4,220 $1,995


This combo includes two courses: one is scheduled over 3 full days and the other is scheduled over 5, half days. Find detailed dates and information on the individual course product pages.

In this Shock and Vibration Combo Course from ASME engineers will gain a comprehensive understanding of the impact of shock and vibration in new and existing systems.
 
This official learning path is designed to provide attendees with the skills and applied knowledge to compute natural frequencies and response to dynamic forces and designs to reduce vibration. Attendees are introduced to state-of-the-art analysis tools for the prediction and prevention of vibration in structures exposed to high-energy fluid flow, base excitations & earthquakes, and rotating equipment or transportation of equipment. Topics include problem-solving methodologies, vibration reduction strategies, benchmarking analytical results with test results or field data, vibration monitoring and practical applications.
 
This official ASME learning path consists of two courses:

Course 1:  Flow-Induced Vibration with Applications to Failure Analysis
The latest design and analysis tools for the prediction and prevention of vibration in structures exposed to high energy fluid flow are covered in practical detail.
Please note that registration may close up to 10 days prior to the start of the course to ensure that attendees receive the book in a timely manner.

  • The course runs over 3 full days, from 9:30 AM to 1:30 PM and 2:00 PM to 6:00 PM Eastern, each day, with scheduled breaks throughout.

Course 2:  Applied Shock and Vibration Analysis and Design
Learn how to compute natural frequencies and response to dynamic forces, and designs to
reduce vibration of new and existing systems.

  • Schedule: this course runs from 1:00 PM to 6:00 PM Eastern each day, over 5, half days, with breaks scheduled throughout.

Who should attend?
Engineers, engineering supervisors and managers responsible for designing or qualifying mechanical components, equipment, piping and structures subjected to dynamic forces; those responsible for auditing, reviewing, or approving shock and vibration analysis tasks. Engineers in the following fields are strongly encouraged to attend: design, mechanical, product development, system, R&D, noise, maintenance, and diagnostics.

Those with a few years of experience in vibration analysis as well as those who are new to the area will benefit. No prior knowledge of structural dynamics is necessary. Supervisors and managers responsible for the economic impact of flow-induced component damage will also greatly benefit from the course content.

This ASME Virtual Classroom course is held live with an instructor on our online learning platform.
Certificate of completion will be issued to registrants who successfully attend and complete the course.

Buying for a team? Get ASME Corporate Training.

Set up a customized session of this course for your workforce. Contact learningsolutions@asme.org to learn more about group rates.

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Instructors

Dr. Robert D. Blevins has over 30 years of experience in flow-induced vibration. He is a member of the ASME Special Working Group on Structural Dynamics and the Pressure Vessel Research Council's Committee on Dynamic Analysis of Pressure Components. He received a Ph.D. (1974) from the California Institute of Technology. He worked on flow induced vibration of Reactors at General Atomics and was a Fellow at United Technologies for Dynamics and Vibration. He has consulted for numerous government and industrial clients on fluid flow and vibration. Dr. Blevins has written four books and fifty papers. He has taught for ASME for over 20 years.
 
Dr. C. (Raj) Sundararajan has over 35 years of experience in shock and vibration analysis. He has been the President of EDA Consultants since 1982. Previously, he held senior technical positions at an architect-engineering firm, equipment vendor and a consulting firm (Lummus Canada, Foster Wheeler, and Impell). Dr. Sundararajan has authored two books and published over 50 technical papers. He received the ASME Best Paper Award in 1986. He has been teaching ASME courses since 1992.
 

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