Creep-fatigue crack growth in austenitic stainless steel centre cracked plates at 650°C. Part II: Defect assessment according to the A16 document

Author:

Poussard C.,Celard N.,Drubay B.,Moulin D.

Publisher

Informa UK Limited

Subject

Materials Chemistry,Metals and Alloys,Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,Ceramics and Composites

Reference17 articles.

1. HIDA.Project Programme of Brite/Euram Project BE-1702 on Validation, Expansion and Standardisation of Procedures for High Temperature Defect Assessment (HIDA), ERA Technology, UK (1995).

2. Webster, G.A.Comparison of Crack Assessment Procedures/Practices with a View to Developing a Unified Procedure, Proceedings of the 3rd Saclay International Seminar on Structural Integrity Conference organised in conjunction with the BRITE HIDA BE1702 European Project, SISSI 3/HIDA, S7-51, Saclay, France (1998).

3. Nuclear Electric Pic.An Assessment Procedure for the High Temperature Response of Structures, Assessment Procedure R5, Issue 1, UK (1990).

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1. Probabilistic assessment of creep-fatigue crack propagation in austenitic stainless steel cracked plates;Engineering Fracture Mechanics;2018-09

2. A comparison between Japanese and French A16 defect assessment procedures for creep-fatigue crack growth;Nuclear Engineering and Design;2003-10

3. Use of the R5 Volume 4/5 procedures to assess creep–fatigue crack growth in a 316L(N) cracked plate at 650°C;International Journal of Pressure Vessels and Piping;2003-07

4. High temperature defect assessment procedures;International Journal of Pressure Vessels and Piping;2003-03

5. Creep Crack Growth;Comprehensive Structural Integrity;2003

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