13th International Conference on Fracture June 16–21, 2013, Beijing, China -10- Acknowledgements This investigation is supported by Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) through Grant 2012/13053-2 and by the Brazilian Council for Scientific and Technological Development (CNPq) through Grant 304132/2009-8. References [1] Mann, N. R., Schafer, R. E. and Singpurwalla, N. D., Methods for Statistical Analysis of Reliability and Life Data, Jonh Wiley & Sons, New York, 1974. [2] Wallin, K. The Scatter in KIc Results, Engineering Fracture Mechanics, 19 (1984), 1085-1093. [3] Beremin, F.M, A Local Criterion for Cleavage Fracture of a Nuclear Pressure Vessel Steel, Metallurgical Transactions, 14A (1983), 2277-2287. [4] Ruggieri, C. and Dodds, R. H., A Transferability Model for Brittle Fracture Including Constraint and Ductile Tearing Effects: A Probabilistic Approach, International Journal of Fracture, 79 (1996), 309-340. [5] Ruggieri, C., An Engineering Methodology to Assess Effects of Weld Strength Mismatch on Cleavage Fracture Toughness Using the Weibull Stress Approach, International Journal of Fracture, 164 (2010), 231-252. [6] Brindley, B. J., The Effect of Dynamic Strain-Aging on the Ductile Fracture Process in Mild Steel, Acta Metallurgica, 18 (1970), 325-329. [7] Lindley, T. C., Oates, G. and Richards, C. E., A Critical Appraisal of Carbide Cracking Mechanism in Ferride/Carbide Aggregates, Acta Metallurgica, 18 (1970), 1127-1136. [8] Gurland, J., Observations on the Fracture of Cementite Particles in a Spheroidized 1.05% C Steel Deformed at Room Temperature, Acta Metallurgica, 20 (1972), 735-741. [9] Wallin, K., Master Curve Analysis of the Euro Fracture Toughness Dataset, Engineering Fracture Mechanics, 69 (2002), 451-481. [10] American Society for Testing and Materials, Standard Test Methods for Determination of Reference Temperature, T0, for Ferritic Steels in the Transition Range, ASTM E-1921, Philadelphia, 2008. [11] Gullerud, A., Koppenhoefer, K., Roy, A., RoyChowdhury, S., Walters, M., Bichon, B., Cochran, K. and Dodds, R., WARP3D: Dynamic Nonlinear Fracture Analysis of Solids Using a Parallel Computers and Workstations. Structural Research Series (SRS) 607. UILU-ENG-95-2012. University of Illinois at Urbana-Champaign. 2004. [12] Savioli, R. G. and Ruggieri, C., T0 Reference Temperature Estimates from Precracked Charpy Specimens Using the Weibull Stress Model, Manuscript in Preparation. [13] American Petroleum Institute. Fitness-for-Service, API RP-579-1 / ASME FFS-1, 2007. [14] Ruggieri, C., FRACTUS2D: Numerical Computation of Fracture Mechanics Parameters for 2-D Cracked Solids, EPUSP, University of São Paulo, 2011. [15] Gao,X., Ruggieri, C. and Dodds, R. H., Calibration of Weibull Stress Parameters Using Fracture Toughness Data. International Journal of Fracture, 92 (1998), 175-200.
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