When the American Society of Mechanical Engineers (ASME) publishes the latest version of the ASME Boiler and Pressure Vessel Codes, it will signify a monumental breakthrough in how industry addresses weld fatigue. It also marks a crowning achievement for Battelle scientist Dr. Pingsha Dong. Section VIII, Division 2 of the Code will now include Battelle's Mesh-Insensitive Structural Stress method as an alternative means for predicting fatigue and fatigue life. The method is also known as the master S-N curve method signifying its ability to correlate a massive amount of actual fatigue test data into a single S-N curve. The Verity method is implemented in fe-Safe - a leading fatigue software package distributed by United Kingdom-based Safe Technology Ltd.
Because Dong's mesh-insensitive structural stress method provides a level of predictability never before seen and can be easily applied, it was originally viewed as too good to be true. After years of rigorous testing through a Joint Industry Project that has applied Verity in a series of complex scenarios, Verity was proven to be a more reliable method of predicting the point at which a weld would fail than any previous technology.
"There are two aspects of Battelle's method that make it such a monumental achievement for industry," said David Osage, president and CEO of The Equity Engineering Group Inc. and lead consultant in the re-write of Section VIII, Division 2 Code. "First, we have never been able to achieve the consistent and accurate results that this method provides and secondly, and maybe equally as important, is that it is very easy to apply and can be incorporated seamlessly into current codes and standards."
"For the past 20 or 30 years, experts in the field have been trying to address the inadequacies in stress analysis for the fatigue design of welded structures so that companies would not have to compensate for poorly correlated test data," Dong said. "Eventually, industry and academia gave up, concluding that the significant variability inherent in existing empirical-based stress analysis approaches, such as various surface-extrapolation-based hot spot stress methods, is a fact of life. We did not give up."
The ASME Boiler and Pressure Vessel Code establishes construction rules for new boilers and pressure vessels as well as nuclear power plant components. This code is required for use by most regulatory bodies in
Osage noted that Verity has been included in a fitness-for-service standard produced jointly by the American Petroleum Institute and ASME entitled API 579-1/ASME FFS-1 Fitness-For-Service, which is used for the remaining life evaluation of in-service pressurized equipment. The use of Verity in this standard illustrates the flexibility of the method; i.e., it can be used for the design of new equipment as well as the evaluation of existing equipment.
Any breakthrough of this magnitude is sure to raise eyebrows, and the path to adopt Dong's method into the codes was not easy. Since there had been little advancement in fatigue prediction, and Dong's methodology produced results that were previously thought to be impossible, many industry veterans questioned that such a solution could exist. Years of validating data and presentations to ASME's constituency were required to turn skeptics into believers. It was this battle, and the support Dong received not only from Battelle, but also from members of the ASME, that makes this achievement so special, he said.