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== About The Engineered Residual Stress Implementation Working Group | == About The Engineered Residual Stress Implementation Working Group == | ||
The Engineered Residual Stress Implementation (ERSI) Working Group is a consortium | The Engineered Residual Stress Implementation (ERSI) Working Group is a consortium of industry, academic, and government participants, dedicated to the various aspects of understanding, characterizing, developing, and analyzing residual stresses in metallic parts. Through collective engagement of individuals that share this common goal, the consortium seeks to foster improvements in the state-of-the-art that will lead to wider implementation and benefit from processes that impart residual stresses. | ||
== Purpose | == Purpose == | ||
1. Identify and lay out a roadmap for the implementation of engineered deep residual stress which can be used in the calculation of initial and recurring inspection intervals for fatigue and fracture critical aerospace components. <br> | 1. Identify and lay out a roadmap for the implementation of engineered deep residual stress which can be used in the calculation of initial and recurring inspection intervals for fatigue and fracture critical aerospace components. <br> | ||
2. Highlight gaps in the state-of-the-art and define how those gaps will be filled. <br> | 2. Highlight gaps in the state-of-the-art and define how those gaps will be filled. <br> | ||
3. Define the most effective way to document requirements and guidelines for fleet-wide implementation.<br> | 3. Define the most effective way to document requirements and guidelines for fleet-wide implementation.<br> | ||
== Working Group Structure | == Working Group Structure == | ||
See the [[Committees]] page. | |||
Latest revision as of 13:48, 5 May 2023
About The Engineered Residual Stress Implementation Working Group
The Engineered Residual Stress Implementation (ERSI) Working Group is a consortium of industry, academic, and government participants, dedicated to the various aspects of understanding, characterizing, developing, and analyzing residual stresses in metallic parts. Through collective engagement of individuals that share this common goal, the consortium seeks to foster improvements in the state-of-the-art that will lead to wider implementation and benefit from processes that impart residual stresses.
Purpose
1. Identify and lay out a roadmap for the implementation of engineered deep residual stress which can be used in the calculation of initial and recurring inspection intervals for fatigue and fracture critical aerospace components.
2. Highlight gaps in the state-of-the-art and define how those gaps will be filled.
3. Define the most effective way to document requirements and guidelines for fleet-wide implementation.
Working Group Structure
See the Committees page.
