Integrated modeling of second phase precipitation in cold-worked 316 stainless steels under irradiation

[1]  J. Garnier,et al.  Evolution of microstructure after irradiation creep in several austenitic steels irradiated up to 120 dpa at 320 °C , 2016 .

[2]  K. Fujii,et al.  Irradiation-induced microchemical changes in highly irradiated 316 stainless steel , 2016 .

[3]  Ying Yang,et al.  In situ phase transformation of Laves phase from Chi-phase in Mo-containing Fe–Cr–Ni alloys , 2015 .

[4]  B. Wirth,et al.  Modeling precipitation thermodynamics and kinetics in type 316 austenitic stainless steels with varying composition as an initial step toward predicting phase stability during irradiation , 2015 .

[5]  Ying Yang,et al.  Thermal Stability of Intermetallic Phases in Fe-rich Fe-Cr-Ni-Mo Alloys , 2015, Metallurgical and Materials Transactions A.

[6]  B. Tanguy,et al.  Correlation of radiation-induced changes in microstructure/microchemistry, density and thermo-electric power of type 304L and 316 stainless steels irradiated in the Phénix reactor , 2015 .

[7]  J. Busby,et al.  Analysis of phase transformation studies in solute addition alloys , 2014 .

[8]  B. Tanguy,et al.  Characterization of Precipitates in 316 Stainless Steel Neutron-Irradiated at ∼390°C by the Combination of CDF-TEM, EF-TEM, and HR-TEM , 2014 .

[9]  S. Tamura,et al.  Direct observation of solute–dislocation interaction on screw dislocation in a neutron irradiated modified 316 stainless steel , 2014 .

[10]  Ying Yang,et al.  Thermodynamic modeling and kinetics simulation of precipitate phases in AISI 316 stainless steels , 2014 .

[11]  M. Gussev,et al.  Magnetic phase formation in irradiated austenitic alloys , 2014 .

[12]  B. Margolin,et al.  Prediction of the effects of thermal ageing on the embrittlement of reactor pressure vessel steels , 2014 .

[13]  M. L. Hamilton,et al.  Void Swelling of Annealed 304 Stainless Steel at ∼ 370-385°C and PWR-Relevant Displacement Rates , 2013 .

[14]  E. Kozeschnik Modeling Solid-State Precipitation , 2012 .

[15]  N. Soneda,et al.  Accurate determination of the number density of G-phase precipitates in thermally aged duplex stainless steel , 2012 .

[16]  E. Kenik,et al.  Radiation-Induced Degradation of Stainless Steel Light Water Reactor Internals , 2012 .

[17]  E. Kozeschnik,et al.  Numerical simulation of NbC precipitation in microalloyed steel , 2012 .

[18]  Z. Jiao,et al.  Novel features of radiation-induced segregation and radiation-induced precipitation in austenitic stainless steels , 2011 .

[19]  F. Onimus,et al.  Experimental study and numerical modelling of the irradiation damage recovery in zirconium alloys , 2010 .

[20]  F. Bergner,et al.  Cluster dynamics simulation of point defect clusters in neutron irradiated pure iron , 2010 .

[21]  S. Zinkle,et al.  Structural materials for fission & fusion energy , 2009 .

[22]  Jeremy T Busby,et al.  Radiation damage concerns for extended light water reactor service , 2009 .

[23]  E. Kozeschnik,et al.  Generalized Nearest-Neighbor Broken-Bond Analysis of Randomly Oriented Coherent Interfaces in Multicomponent Fcc and Bcc Structures , 2009 .

[24]  J. P. Massoud,et al.  Tomographic atom probe characterization of the microstructure of a cold worked 316 austenitic stainless steel after neutron irradiation , 2008 .

[25]  Hiromasa Nishioka,et al.  Evolution of Microstructure and Microchemistry in Cold-worked 316 Stainless Steels under PWR Irradiation , 2006 .

[26]  F. Christien,et al.  Effect of self-interstitial diffusion anisotropy in electron-irradiated zirconium: A cluster dynamics modeling , 2005 .

[27]  T. Yamamoto,et al.  On the effect of dose rate on irradiation hardening of RPV steels , 2005 .

[28]  P. Fratzl,et al.  Modelling of kinetics in multi-component multi-phase systems with spherical precipitates I. – Theory , 2004 .

[29]  P. Dubuisson,et al.  Irradiation damage in 304 and 316 stainless steels: experimental investigation and modeling. Part II: Irradiation induced hardening , 2004 .

[30]  P. Dubuisson,et al.  Irradiation damage in 304 and 316 stainless steels: experimental investigation and modeling. Part I: Evolution of the microstructure , 2004 .

[31]  Stephen M. Bruemmer,et al.  Influence of irradiation temperature and dose gradients on the microstructural evolution in neutron-irradiated 316SS , 2003 .

[32]  T. Allen,et al.  Properties of 20 % Cold-Worked 316 Stainless Steel Irradiated at Low Dose Rate , 2002 .

[33]  A. Barbu,et al.  Microstructure modelling of ferritic alloys under high flux 1 MeV electron irradiations , 2002 .

[34]  Roger E. Stoller,et al.  Modeling of microstructure evolution in austenitic stainless steels irradiated under light water reactor condition , 2001 .

[35]  A. Hishinuma,et al.  Microstructure of austenitic stainless steels irradiated at 400°C in the ORR and the HFIR spectral tailoring experiment , 2000 .

[36]  Eal H. Lee,et al.  Fe–15Ni–13Cr austenitic stainless steels for fission and fusion reactor applications. III. Phase stability during heavy ion irradiation , 2000 .

[37]  A. Serra,et al.  Vacancy loops and stacking-fault tetrahedra in copper - I. Structure and properties studied by pair and many-body potentials , 1999 .

[38]  Stephen M. Bruemmer,et al.  Radiation-Induced Material Changes and Susceptibility to Intergranular Failure of Light-Water-Reactor Core Internals , 1999 .

[39]  N. Soneda,et al.  Defect production, annealing kinetics and damage evolution in α-Fe: An atomic-scale computer simulation , 1998 .

[40]  A. Hindmarsh,et al.  CVODE, a stiff/nonstiff ODE solver in C , 1996 .

[41]  R. Stoller,et al.  A comparison of displacement cascades in copper and iron by molecular dynamics and its application to microstructural evolution , 1995 .

[42]  P. J. Maziasz,et al.  Overview of microstructural evolution in neutron-irradiated austenitic stainless steels , 1993 .

[43]  L. Mansur,et al.  Relationships between phase stability and void swelling in Fe-Cr-Ni alloys during irradiation , 1992 .

[44]  R. Stoller Modeling dislocation evolution in irradiated alloys , 1990 .

[45]  N. Q. Lam,et al.  Calculations of the properties of single and multiple defects in nickel , 1986 .

[46]  J. Lai A study of precipitation in AISI type 316 stainless steel , 1983 .

[47]  F. Garner,et al.  Radiation-induced phase development in AISI 316 , 1980 .

[48]  N. M. Ghoniem,et al.  The Simultaneous Clustering of Point Defects during Irradiation , 1979 .

[49]  P. Maziasz The formation diamond-cubic eta (η) phase in type 316 stainless steel exposed to thermal aging or irradiation environments , 1979 .

[50]  C. Cawthorne,et al.  The occurrence of an ordered FCC phase in neutron irradiated M316 stainless steel , 1977 .

[51]  R. S. Nelson,et al.  The stability of precipitates in an irradiation environment , 1972 .

[52]  Brigitte Weiss,et al.  Phase instabilities during high temperature exposure of 316 austenitic stainless steel , 1972 .

[53]  L. Onsager Reciprocal Relations in Irreversible Processes. II. , 1931 .

[54]  G. Was Phase Stability Under Irradiation , 2017 .

[55]  Adrian Barbu,et al.  Cluster dynamics modeling of the effect of high dose irradiation and helium on the microstructure of austenitic stainless steels , 2016 .

[56]  R. Stoller,et al.  A Model of Radiation-induced Microstructural Evolution , 2014 .

[57]  B. Margolin,et al.  The Relationship of Radiation Embrittlement and Swelling for Austenitic Steels for WWER Internals , 2009 .

[58]  Pål Efsing,et al.  MICROSTRUCTURAL EVOLUTION IN NEUTRON-IRRADIATED STAINLESS STEELS: COMPARISON OF LWR AND FAST-REACTOR IRRADIATIONS , 2005 .

[59]  C. Wolverton,et al.  Experimental and theoretical evidence for carbon-vacancy binding in austenite , 2004 .

[60]  Bruno Buchmayr,et al.  MatCalc – A simulation tool for multicomponent thermodynamics, diffusion and phase transformation kinetics , 2001 .

[61]  H. Ullmaier Atomic Defects in Metals , 1991 .

[62]  P. Maziasz,et al.  Microstructural evolution in annealed austenitic steels during neutron irradiation , 1987 .

[63]  Roger E. Stoller,et al.  A Composite Model of Microstructural Evolution in Austenitic Stainless Steel Under Fast Neutron Irradiation , 1987 .

[64]  P. Haasen,et al.  Decomposition of alloys, the early stages : proceedings of the 2nd Acta-Scripta Metallurgica Conference, Sonnenberg, Germany, 19-23 September 1983 , 1984 .

[65]  D. Gelles A FRANK LOOP UNFAULTING MECHANISM IN fcc METALS DURING NEUTRON IRRADIATION , 1981 .

[66]  Eal H. Lee,et al.  Structure and composition of phases occurring in austenitic stainless steels in thermal and irradiation environments , 1980 .

[67]  K. E. Mironov Interstitial alloys , 1969 .