ASME VIII Div. 2 | Design of Pressure Vessels by Analysis
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+ The general definitions and failure mechanisms associated with ASME VIII-2 Ch. 5 assessments
+ Code compliance checks for collapse, ratcheting, fatigue and buckling load cases
+ An overview of the code section requirements
+ How to perform Stress Categorization and link the results to failure mechanisms
Instructor-led training course
Downloadable study notes
Solved case studies
COURSE LED BY AN ASME AUTHORIZED INSTRUCTOR
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The course follows the “learning through experience” methodology. A series of discussions, individual exercises and simplified case studies provide practical knowledge to implement in the field. With the help of the Study Notes and with the assistance of the instructor, participants will gradually progress through the course.
Who should attend?
This is an essential course for individuals involved with design, analysis, fabrication, purchasing, repair, and inspection of pressure vessels, as well as supervisory and regulatory personnel.
Although some knowledge of design and fabrication of pressure vessels is desirable, previous knowledge of this subject is not required to attend the course.
The main objective of this course is to transfer to participants the theoretical and practical skills required in projects, obtained from experience and sound engineering practices.
What to expect?
- Understand the General Definitions and Failure Mechanisms associated with ASME VIII-2 Ch. 5 (Design by Analysis) assessments.
- Have a good overview of the code section requirements.
- Be able to perform Stress Categorization and be able to link results to failure mechanisms.
- Benefit from worked examples developed with Finite Element Models.
- Know the concepts of Stress Linearization and are able to apply them.
- Understand the different methods of analysis as per ASME VIII-2 Part 5.
- Benefit from best practices and lessons learned.
CONTENTS AND STRUCTURE OF THE COURSE: 12 HS
Failure model evaluated in Chapter 5
Code revisions of Section VIII division 2
Stress values from FEA
Method 1 Elastic analysis
Method 2 Limit load analysis
Method 3 Elastic-plastic analysis
Comparing the 3 methods against Plastic Collapse
Stress linearization of FEA results
An introduction | Compliance check for ratcheting failure
Simplified elastic/plastic analysis method
Elastic/plastic analysis method
Fatigue Assessment methods
Method A: Smooth bar method
Method B: Welded curve method
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