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Materials and Design for Design by Analysis Requirements in PRESSURE TECHNOLOGY • MASTERCLASS SERIES
High Temperatures ASME Boiler and Pressure Vessel Code
Section VIII, Division 2 – Alternative Rules
MC112 MASTERCLASS SERIES
MC121 MASTERCLASS SERIES / ASME STANDARDS COURSE /
This two-day MasterClass provides insight into important aspects TOP SELLER
of performance of materials and its relation to design and residual life
assessments of components. The focus of the two-day MasterClass learning event is to provide an
understanding of the analytical methods found in Part 5 of Section
Presented in two parts, the class will address two main topics: VIII, Division 2 as well as to convey practical information on how to
“Structural Materials and Damage in Elevated and High Temperature meet the requirements using Finite Element Analysis (FEA). Discussion
Applications” on day one, and “Design and Lifetime Assessments on the background of the analysis methods and their application
of Components Exposed to High Temperatures” on day two. is presented through the ASME Pressure Technology Bulletins,
“PTB-1-2013 Section VIII – Division 2 Criteria and Commentary” and
Materials and material qualities which can be used at higher “PTB-3-2013 Section VIII – Division 2 Example Problem Manual.” The
temperatures is discussed in detail, as well as damage development attendees will gain an appreciation and understanding of how these
under creep and fatigue loading (crack initiation and crack analytical techniques can be applied to practical design situations. The
propagation). Consideration of high temperature design rules and class will include detailed example problems that demonstrate how
code related aspects of high temperature design will be discussed the analytical techniques are to be applied, and their limitations.
with practical examples. Detailed FEA models will be presented to help illustrate the various
analytical techniques.
You Will Learn To
You Will Learn To
• Use high temperature materials data for design (time dependent
allowable stresses) • Define the basis and application of the design by analysis
techniques to ensure proper vessel design
• Identify damage occurring at elevated and high temperatures
• Apply the design by analysis techniques to the evaluation of in-
• Assess damage evolution under creep, fatigue and its interactions service components through the Life-Cycle Management Process
and the relationship to API 579-1/ASME FFS-1 Level 3 Assessments
• Design for high temperature service and creep-fatigue interactions
• Evaluate the basis of design by analysis techniques and how they
Who Should Attend compare with other International Pressure Vessel Codes,
EN 13445 and PD 5500
Design engineers, materials engineers, fabrication, installation and
construction engineers, consultants and authorities for boiler, piping, Who Should Attend
turbomachinery and advanced nuclear plants. The course addresses
individuals with an intermediate knowledge level on materials and Pressure vessels engineers working for owner-users, manufacturers
strength of materials being interested in a general understanding of or engineering and design construction firms in the refining,
high temperature materials properties and design for high temperature petrochemical and other comparable industries who desire a practical
service. understanding of one of the major areas of the new Division 2 of ASME
BP&V Code Section VIII
Special Requirements
Special Requirements
This MasterClass is structured on the assumption that participants
have a basic understanding of structural materials, strength of metals This MasterClass is structured on the assumption that participants
and alloys, classification of loads and determination of stresses and have a basic understanding of ASME BP&V Code Section VIII,
stress allowables. Participants are encouraged to bring examples Division 2 and FEA. Participants are encouraged to bring examples
of particularly challenging issues encountered on the job for of particularly challenging issues encountered on the job for
in-class discussion. in-class discussion.
2 Days, 1.5 CEUs, 15 PDHs 2 Days, 1.5 CEUs, 15 PDHs
Date: 20–21 June, 2018, Milan, IT Date: 20-21 June, 2018, Milan, IT
Member: €1.400 / List Price €1.500 Member: €1.400 / List Price €1.500
MASTERCLASS INSTRUCTOR MASTERCLASS INSTRUCTOR
Wolfgang Hoffelner, Managing Director, RWH David Osage, PE, CSQE, CQA, President &
Consulting LLC and Committee Member, ASME CEO of Equity Engineering Group, and Principal
Code Section VIII. Wolfgang is a recognised Author of ASME BPV Code Section VIII, Division
expert and senior lecturer for high temperature 2. David is internationally recognised for his
materials at the Swiss Federal Institute of expertise in the design of new equipment
Technology (since 1986). He has published a and as an industry expert and leader in the
book on Materials for Nuclear Plants and more development and use of FFS technology. He
than 150 papers in scientific and technical received a Certificate of Acclamation from
books and journals. He is a contributing ASME for his work on the new ASME B&PV
member to various ASME Code committees, Code, Section VIII, Division 2.
including ASME Section III, Construction of
Nuclear Power Plants.
Visit go.asme.org/EUlearning or call +32.2.743.1543 11
