PSI - Issue 2_B

Thomas Reichert et al. / Procedia Structural Integrity 2 (2016) 1652–1659 Thomas Reichert, Wolfgang Böhme and Johannes Tlatlik / Structural Integrity Procedia 00 (2016) 000–000

1659

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German Bundestag. The project is a cooperation of Fraunhofer Institute for Mechanics of Materials, IWM, Freiburg and Materials Testing Institute University of Stuttgart, MPA, Germany

References

ASTM E1921-15a, 2015. Standard test method for determination of reference temperature, T0, for ferritic steels in the transition range, American Society for Testing and Materials, Philadelphia, PA. ASTM E1820-15a, 2015. Standard Test Method for Measurement of Fracture Toughness, American Society for Testing and Materials, Philadelphia, PA. Böhme, W., Mayer, U., Reichert, T, Offermanns, S., Allmendinger, A., Hug, M., Schüler, J. und Siegele, D., 2012. Überprüfung und Weiter entwicklung von Bewertungsmethoden für dynamische Rissinitiierung und Rissarrest”, (Verification and further development of assessment methods for dynamic crack initiation and crack arrest), BMWi-Vorhaben Nr. 150 1368. Fraunhofer IWM report 665/2012. Böhme, W., Reichert, T. and Mayer, U., 2013. Assessment of dynamic fracture toughness values K Jc and reference temperatures T 0,X determined for a German RPV steel at elevated loading rates according to ASTM E1921, 22nd Int. Conf. on Structural Mechanics in Reactor Technology, SMiRT-22, San Francisco, USA, August 18-23, 2013. Wallin, K., 2011. Fracture Toughness of Engineering Materials, EMAS Publications, UK, ISBN-13: 978 0 9552994 6 9. Schindler, H. J. und Kalkhof, D., 2013. Lower bounds and saturation effects of dynamic fracture toughness in the brittle-to ductile transition regime of ferritic steels, to be published at 22nd Int. Conf. on Structural Mechanics in Reactor Technology, SMiRT-22, San Francisco, USA. Schindler, H. J. und Kalkhof, D., 2015. A Closer Look at Effects of the Loading Rate on Fracture Toughness in the Ductile-to-Brittle Transition Regime of a Ferritic Steel“, Journal of Testing and Evaluation American Society for Testing and Materials, Philadelphia, Vol. 43, No. 3 Viehrig, H.-W., Zurbuchen, C., Schindler, H.-J. und Kalkhof, D., 2010. Application of the Master Curve Approach to Fracture Mechanics Characterisation of Reactor Pressure Vessel Steel, Wissenschaftlich-Technische Berichte FZD-536, Forschungszentrum Dresden Rossendorf. Böhme, W. Reichert, T., 2015. New Aspects Regarding the Statistical Distribution of Dynamic Fracture Toughness Values and the Shape of the Dynamic Master Curves, 15th International ASTM/ESIS Symposium on Fatigue and Fracture Mechanics (40th National Symposium on Fatigue and Fracture Mechanics), May 20-22, 2015, Anaheim, CA, conference CD, manuscript 22, 2015. Hohe, J., Siegele, D. et al., 2005. Kritische Überprüfung des Masterkurven-Ansatzes im Hinblick auf die Anwendung bei deutschen Kernkraftwerken, Forschungsvorhaben BMWi-FKZ 1501239, Fraunhofer IWM Bericht S8/2004, Freiburg. Roos, E., Eisele, U., Schuler, X., Silcher, H. et al., 2006, Kritische Überprüfung des Masterkurven-Ansatzes im Hinblick auf die Anwendung bei deutschen Kernkraftwerken, Forschungsvorhaben BMWi-FKZ 1501240, Abschlussbericht, MPA Stuttgart. ISO 26843, 2015. Metallic Materials - Measurement of fracture toughness at impact loading rates using precracked Charpy-type test pieces, ISO/TC164/SC 4, International Organization for Standardization. Böhme, W., 1990. Dynamic Key-Curves for Brittle Fracture Impact Tests and Establishment of a Transition Time, Fracture Mechanics: Twenty First Symposium, ASTM STP 1074, J.A. Joyce, and E.M. Hackett, Eds., American Society for Testing and Materials, Philadelphia, pp. 144 156. Böhme, W. und Kalthoff, J.F., 1983. Der Einfluß der Probengröße auf dynamische Effekte bei der KId Bestimmung im Kerbschlagbiegetest, Fraunhofer IWM Bericht W 3/83, Freiburg. Zehnder, A.T. und Rosakis, A.J., 1993. Temperature Rise at the Tip of Dynamically Propagating Cracks: Measurements using High Speed Infrared Detectors, J.S. Epstein (Ed.), Experimental Techniques in Fracture, SEM, VCH, New York, pp. 125–169. Mayer, U., 2015 MPA-intermediate results of the IWM-MPA-joint project „Analysis and Validation of Fracture Mechanical Assessment Methods under Dynamic Loading”, personal message, June 2015.