We.2.I
D02 - Fatigue Evaluation

We.2.I.1
  Full Paper

Very High Cycle Fatigue (VHCF) behavior of austenitc stainless steels and their welds for reactor internals at ambient and operating relevant temperature

M. Smaga1, T. Daniel1, E. Regitz1, T. Beck1, T. Schopf2, G. Veile2, S. Weihe2, J. Rudolph3, U. Fischer3

1: Institute of materials science and engineering (WKK), Kaiserslautern, Germany
2: Materials Testing Institute (MPA), Stuttgart, Germany
3: Framatome GmbH, Erlangen, Germany

We.2.I.2
  Full Paper

RCC-MRx and R5 Creep-Fatigue Initiation Predictions Applied to the EVASION Tests

P. James1, P. Lamagnere2, Y. Leijeail2, T. Lebarbé3, C. Pétesch3, S. May1

1: Jacobs, Warrington, United Kingdom
2: CEA, Cadarache, France
3: CEA, Paris-Saclay, France

We.2.I.3
  Full Paper

Current State of knowledge and determination of realistic ke factors for the simplified elastic - plastic fatigue analysis

S. Fricke1, J. Bruening2

1: TUEV NORD EnSys GmbH & Co. KG, Hannover, Germany
2: TUEV NORD EnSys GmbH & Co. KG, Hamburg, Germany

We.2.I.4
  Full Paper

XFEM Analysis of Non-uniform Fatigue Crack Growth Crossing Interface in Cladded Plate

M. Nagai1, T. Nagashima2, N. Miura1, T. Shinko1

1: Central Research Institute of Electric Power Industry, Yokosuka-shi, Japan
2: Sophia University, Tokyo, Japan

We.2.I.5
  Full Paper

Automated Fatigue Crack Growth tool developed on the basis of ASME Code Case N-809 for the application on real time plant data measured using FAMOSi

V. Suryaprakash1, R. Tiete1, S. Bergholz1

1: Framatome GmbH, Erlangen, Germany