D. Da Fonseca, F. Mompiou, T. Jourdan, J.-P. Crocombette, A. Chartier & F. Onimus. (2023) Evidence of dislocation loop preferential nucleation in irradiated aluminum under stress. Scripta Materialia 233, pages 115510.
Crossref
S. Esmizadeh & H. Haftbaradaran. (2023) A model for redistribution of oppositely charged point defects under the stress field of dislocations in nonstoichiometric ionic solids: Implications in doped ceria. Journal of the Mechanics and Physics of Solids 174, pages 105242.
Crossref
D. Da Fonseca, F. Onimus, F. Mompiou, M.-C. Marinica, E. de Sonis, E. Clouet & T. Jourdan. (2023) Numerical investigation of dislocation climb under stress and irradiation. Acta Materialia 242, pages 118431.
Crossref
J. R. Willis. (2022) Ronald Bullough. 6 April 1931—20 November 2020. Biographical Memoirs of Fellows of the Royal Society 72, pages 101-115.
Crossref
S. Esmizadeh & H. Haftbaradaran. (2022) Effects of mode II loading on the interaction of a solute atmosphere with a crack in the presence of image stresses: A statistical mechanics study. European Journal of Mechanics - A/Solids 91, pages 104388.
Crossref
H. Haftbaradaran & S. Esmizadeh. (2021) A statistical mechanics-based investigation of a solute atmosphere interacting with a crack: Solute redistribution and image effects. International Journal of Solids and Structures 228, pages 111124.
Crossref
Nargisse Khiara, Fabien Onimus, Stéphanie Jublot-Leclerc, Thomas Jourdan, Thomas Pardoen, Jean-Pierre Raskin & Yves Bréchet. (2021) In-situ TEM irradiation creep experiment revealing radiation induced dislocation glide in pure copper. Acta Materialia 216, pages 117096.
Crossref
Alexandre Mussi, Ahmed Addad & Fabien Onimus. (2021) Dislocation electron tomography: A technique to characterize the dislocation microstructure evolution in zirconium alloys under irradiation. Acta Materialia 213, pages 116964.
Crossref
Enrique Martínez, Alankar Alankar, Alfredo Caro & Thomas Jourdan. (2021) Relative relevance of mobility and driving force on edge dislocation climb by the vacancy mechanism. Computational Materials Science 193, pages 110378.
Crossref
S. Esmizadeh & H. Haftbaradaran. (2020) On the interaction of a solute atmosphere with a circular void in two-dimensional elasticity: A statistical mechanics approach. Journal of the Mechanics and Physics of Solids 145, pages 104131.
Crossref
W. Wen, A. Kohnert, M. Arul Kumar, L. Capolungo & C.N. Tomé. (2020) Mechanism-based modeling of thermal and irradiation creep behavior: An application to ferritic/martensitic HT9 steel. International Journal of Plasticity 126, pages 102633.
Crossref
Peyman Saidi, Zhouyao Wang, Yuhan Mao, Laurent Karim Béland, Zhongwen Yao & Mark R. Daymond. (2020)
A method for calculation of bias factor in anisotropic mediums, application to
zirconium
. Journal of Nuclear Materials 528, pages 151882.
Crossref
Fabien Onimus, Thomas Jourdan, Cheng Xu, Anne A. Campbell & Malcolm Griffiths. 2020. Comprehensive Nuclear Materials. Comprehensive Nuclear Materials
310
366
.
S.I. Golubov, A.V. Barashev & Roger E. Stoller. 2020. Comprehensive Nuclear Materials. Comprehensive Nuclear Materials
717
753
.
J. Svoboda, W. Ecker, V.I. Razumovskiy, G.A. Zickler & F.D. Fischer. (2019) Kinetics of interaction of impurity interstitials with dislocations revisited. Progress in Materials Science 101, pages 172-206.
Crossref
Gary S. Was & Shigeharu Ukai. 2019. Structural Alloys for Nuclear Energy Applications. Structural Alloys for Nuclear Energy Applications
293
347
.
Emmanuel Clouet, Céline Varvenne & Thomas Jourdan. (2018) Elastic modeling of point-defects and their interaction. Computational Materials Science 147, pages 49-63.
Crossref
Céline Varvenne & Emmanuel Clouet. (2017) Elastic dipoles of point defects from atomistic simulations. Physical Review B 96:22.
Crossref
John P. Hirth, David M. Barnett & Richard G. Hoagland. (2017) Solute atmospheres at dislocations. Acta Materialia 131, pages 574-593.
Crossref
David Rivera, Yue Huang, Giacomo Po & Nasr M. Ghoniem. (2017) A dislocation-based crystal viscoplasticity model with application to micro-engineered plasma-facing materials. Journal of Nuclear Materials 485, pages 231-242.
Crossref
N. Gharbi, F. Onimus, D. Gilbon, J.-P. Mardon & X. Feaugas. (2015) Impact of an applied stress on c-component loops under Zr ion irradiation in recrystallized Zircaloy-4 and M5®. Journal of Nuclear Materials 467, pages 785-801.
Crossref
Anirban Patra & David L. McDowell. (2015) A void nucleation and growth based damage framework to model failure initiation ahead of a sharp notch in irradiated bcc materials. Journal of the Mechanics and Physics of Solids 74, pages 111-135.
Crossref
J.H. Ke, A. Boyne, Y. Wang & C.R. Kao. (2014) Phase field microelasticity model of dislocation climb: Methodology and applications. Acta Materialia 79, pages 396-410.
Crossref
Matteo Seita, Alla S. Sologubenko, Franck Fortuna, Martin J. Süess & Ralph Spolenak. (2014) On the peculiar deformation mechanism of ion-induced texture rotation in thin films. Acta Materialia 64, pages 297-306.
Crossref
Anirban Patra & David L. McDowell. (2013) Continuum modeling of localized deformation in irradiated bcc materials. Journal of Nuclear Materials 432:1-3, pages 414-427.
Crossref
S.I. Golubov, A.V. Barashev & R.E. Stoller. 2012. Comprehensive Nuclear Materials. Comprehensive Nuclear Materials
357
391
.
Dan Mordehai & Georges Martin. (2011) Enhanced annealing of the dislocation network under irradiation. Physical Review B 84:1.
Crossref
Clément Lemaignan. 2010. Handbook of Nuclear Engineering. Handbook of Nuclear Engineering
543
642
.
A.A. Semenov & C.H. Woo. (2009) Modeling dislocation structure development and creep–swelling coupling in neutron irradiated stainless steel. Journal of Nuclear Materials 393:3, pages 409-417.
Crossref
X-Y Liu, J Wang & S B Biner. (2008) Hydrogen and self-interstitial interactions with edge dislocations in Ni: atomistic and elasticity comparisons. Modelling and Simulation in Materials Science and Engineering 16:4, pages 045002.
Crossref
J Colin, P Beauchamp, S Brochard, J Grilhé & A Coujou. (2007) Non-linear elastic effects in plasticity: {100} dislocation gliding in aluminum-based alloy. Europhysics Letters (EPL) 78:1, pages 16002.
Crossref
Wai Lun Chan, Eric Chason & C. Iamsumang. (2007) Surface stress induced in Cu foils during and after low energy ion bombardment. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 257:1-2, pages 428-432.
Crossref
Clément Lemaignan & Arthur T. Motta. 2006. Materials Science and Technology. Materials Science and Technology.
A. Debelle, A. Michel, G. Abadias & C. Jaouen. (2006) Ion-irradiation induced stress relaxation in metallic thin films and multilayers grown by ion beam sputtering. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 242:1-2, pages 461-465.
Crossref
Chung H. Woo. 2005. Handbook of Materials Modeling. Handbook of Materials Modeling
959
986
.
Johsei Nagakawa & Keiko Ueno. (2004) Calculation of radiation-induced deformation of SUS 316 in the ITER-relevant condition. Journal of Nuclear Materials 329-333, pages 597-601.
Crossref
. 2003. Thermally Activated Mechanisms in Crystal Plasticity. Thermally Activated Mechanisms in Crystal Plasticity
281
319
.
Johsei Nagakawa, Y Murase, N Yamamoto & T Fukuzawa. (2000) Irradiation creep at 60°C in SUS 316 and its impact on fatigue fracture. Journal of Nuclear Materials 283-287, pages 391-395.
Crossref
N.M. Ghoniem, B.N. Singh, L.Z. Sun & T. Dı́az de la Rubia. (2000) Interaction and accumulation of glissile defect clusters near dislocations. Journal of Nuclear Materials 276:1-3, pages 166-177.
Crossref
Vijay Shastry & Tomas Diaz de la Rubia. (1999) The Interaction Between Point Defects and Edge Dislocation in BCC Iron. Journal of Engineering Materials and Technology 121:2, pages 126-128.
Crossref
Tetsuji Noda & Johsei Nagakawa. 1999. Computational Materials Design. Computational Materials Design
163
193
.
Johsei Nagakawa. (1998) Calculation of radiation-induced deformation in the ITER vacuum vessel. Journal of Nuclear Materials 258-263, pages 289-294.
Crossref
H.J. WOLLENBERGER. 1996. Physical Metallurgy. Physical Metallurgy
1621
1721
.
Johsei Nagakawa. (1995) Calculation of radiation-induced creep and stress relaxation. Journal of Nuclear Materials 225, pages 1-7.
Crossref
C.H. Woo. (1995) Correlation between void swelling and SIPA creep. Journal of Nuclear Materials 225, pages 8-14.
Crossref
V.A. Borodin. (1995) The effect of swelling on SIPA irradiation creep. Journal of Nuclear Materials 225, pages 15-21.
Crossref
H. Trinkaus & A. I. Ryazanov. (1995) Viscoelastic Model for the Plastic Flow of Amorphous Solids under Energetic Ion Bombardment. Physical Review Letters 74:25, pages 5072-5075.
Crossref
H. Trinkaus. (1995) Local stress relaxation in thermal spikes as a possible cause for creep and macroscopic stress relaxation of amorphous solids under irradiation. Journal of Nuclear Materials 223:2, pages 196-201.
Crossref
Naoki Kishimoto, Hiroshi Amekura & Tetsuya Saito. (1995) Resonant creep enhancement in austenitic stainless steels due to pulsed irradiation at low doses. Fusion Engineering and Design 29, pages 391-398.
Crossref
Amitabh Jain & Uma Jain. (1995) A physical basis for irradiation-induced modification of thin-film stresses. Thin Solid Films 256:1-2, pages 116-119.
Crossref
L.K. Mansur. (1994) Theory and experimental background on dimensional changes in irradiated alloys. Journal of Nuclear Materials 216, pages 97-123.
Crossref
Johsei Nagakawa. (1994) Calculation of radiation-induced stress relaxation. Journal of Nuclear Materials 212-215, pages 541-545.
Crossref
Naoki Kishimoto & Hiroshi Amekura. (1994) Resonant irradiation creep of 316 stainless steel under pulsed deuteron bombardment. Journal of Nuclear Materials 212-215, pages 535-540.
Crossref
V.A. Borodin, A.I. Ryazanov & C. Abromeit. (1993) Void bias factors due to the anisotropy of the point defect diffusion. Journal of Nuclear Materials 207, pages 242-254.
Crossref
C.H. Woo, A.A. Semenov & B.N. Singh. (1993) Analysis of microstructural evolution driven by production bias. Journal of Nuclear Materials 206:2-3, pages 170-199.
Crossref
C.H. Woo & F.A. Garner. (1992) A SIPA-based theory of irradiation creep in the low swelling rate regime. Journal of Nuclear Materials 191-194, pages 1309-1312.
Crossref
V.L. INDENBOM & Z.K. SARALIDZE. 1992. Elastic Strain Fields and Dislocation Mobility. Elastic Strain Fields and Dislocation Mobility
699
744
.
V.L. INDENBOM & V.M. CHERNOV. 1992. Elastic Strain Fields and Dislocation Mobility. Elastic Strain Fields and Dislocation Mobility
517
570
.
A.I. Ryazanov & D.G. Sherstennikov. (1991) Void bias factor in materials with weak cubic anisotropy. Journal of Nuclear Materials 186:1, pages 33-38.
Crossref
Johsei Nagakawa, N. Yamamoto & H. Shiraishi. (1991) Computer simulation of early-stage irradiation creep. Journal of Nuclear Materials 179-181, pages 986-989.
Crossref
H. Saka, K. Kawamura, Y. Morozumi & H. Teshima. (1991) Effect of external tensile stress on the growth of interstitial loops. Journal of Nuclear Materials 179-181, pages 966-969.
Crossref
M.L. Grossbeck & L.K. Mansur. (1991) Low-temperature irradiation creep of fusion reactor structural materials. Journal of Nuclear Materials 179-181, pages 130-134.
Crossref
M. Suzuki & A. Sato. (1990) Stress-assisted nucleation of interstitial loops in an electron-irradiated Fe-18Cr-14Ni alloy. Journal of Nuclear Materials 172:1, pages 97-105.
Crossref
A. D. Brailsford. (1989) Reaction rate theory perspectives on some problems in materials science. Metallurgical Transactions A 20:12, pages 2583-2598.
Crossref
J.R. Matthews & M.W. Finnis. (1988) Irradiation creep models — an overview. Journal of Nuclear Materials 159, pages 257-285.
Crossref
C.H. Woo. (1988) Theory of irradiation deformation in non-cubic metals: Effects of anisotropic diffusion. Journal of Nuclear Materials 159, pages 237-256.
Crossref
G.J. Ackland. (1988) Theoretical study of the effect of point defects on the elastic constants of copper. Journal of Nuclear Materials 152:1, pages 53-63.
Crossref
N. Smetniansk y-De Grande, E. J. Savino & C. N. Tomé. (1987) Stress Induced Anisotropic Diffusion of Intrinsic Point Defects towards Dislocations in H.C.P. Crystals. physica status solidi (b) 144:1, pages 271-286.
Crossref
E. J. Savino & N. SmetnianskyDe Grande. (1987) Point-defect anisotropic diffusion in strained hcp metals. Physical Review B 35:12, pages 6064-6073.
Crossref
V.V. Kirsanov & T.E. Turkebaev. (1986) Zones of spontaneous absorption of point defects by the edge dislocation. Journal of Nuclear Materials 140:3, pages 264-273.
Crossref
M.P. Puls & C.H. Woo. (1986) Diaelastic polarizabilities due to vacancies and interstitials in metals. Journal of Nuclear Materials 139:1, pages 48-59.
Crossref
V.V. SLYOZOV & P.A. BEREZNYAK. 1986. Physics of Radiation Effects in Crystals. Physics of Radiation Effects in Crystals
575
620
.
R. BULLOUGH & M.H. WOOD. 1986. Physics of Radiation Effects in Crystals. Physics of Radiation Effects in Crystals
189
224
.
Eduardo J. SavinoSantiago Harriague. 1985. Effects of Radiation on Materials: 12th International Symposium Volume II. Effects of Radiation on Materials: 12th International Symposium Volume II
667
689
.
V. A. Borodin & A. I. Ryazanov. (1985) Contribution of dislocation creep to the radiational creep of materials. Soviet Atomic Energy 59:5, pages 912-917.
Crossref
V.A. Borodin & A.I. Ryazanov. (1985) Temperature dependence of irradiation creep due to dislocation climb. Journal of Nuclear Materials 135:1, pages 46-62.
Crossref
. (1997) The stress-driven migration of point defects to a crack. Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences 397:1812, pages 121-141.
Crossref
H.R. Schober. (1984) Polarizabilities of point defects in metals. Journal of Nuclear Materials 126:3, pages 220-225.
Crossref
V. A. Pavlov, V. I. Shalev & V. M. Alyabiev. (1984) Effect of Dislocation Structure on Creep and Fracture of Metals and Alloys. II. Irradiation. Physica Status Solidi (a) 85:2, pages 315-333.
Crossref
B. C. Skinner & C. H. Woo. (1984) Shape effect in the drift diffusion of point defects into straight dislocations. Physical Review B 30:6, pages 3084-3097.
Crossref
I.-W. Chen. (1984) Anisotropic diffusion of point defects to edge dislocations. Journal of Nuclear Materials 125:1, pages 52-63.
Crossref
Eiichi Kuramoto. (1984) Interaction between an edge dislocation and an interstitial atom under stress — fundamental process in SIPA-creep —. Journal of Nuclear Materials 122:1-3, pages 422-426.
Crossref
C.H. Woo. (1984) Irradiation creep due to elastodiffusion. Journal of Nuclear Materials 120:1, pages 55-64.
Crossref
K.C Russell. (1984) Phase stability under irradiation. Progress in Materials Science 28:3-4, pages 229-434.
Crossref
V. G. Chudinov & V. I. Protasov. (1983) Radiation Diffusion–Dislocation Creep in the Presence of Weertman Mechanism of Dislocation Multiplication. Physica Status Solidi (a) 79:2, pages 433-443.
Crossref
I-Wei Chen. (1983) Irradiation-induced segregation in multi-component alloys. Journal of Nuclear Materials 116:2-3, pages 249-259.
Crossref
C.H. Woo & E.J. Savino. (1983) Stress-induced preferred absorption due to saddle-point anisotropy: The case of an infinitesimal dislocation loop. Journal of Nuclear Materials 116:1, pages 17-28.
Crossref
G. Knuyt, L. M. Stals, L. de Schepper & H. van Swygenhoven. (1983) The inhomogeneity effect in the vacancy-dislocation interaction for α-iron. Physica Status Solidi (a) 76:2, pages K175-K178.
Crossref
Louis K. Mansur & Everett E. Bloom. (2013) Radiation Effects in Reactor Structural Alloys. JOM 34:10, pages 23-31.
Crossref
F.R.N. Nabarro, R. Bullough & J.R. Matthews. (1982) The enhancement of creep by irradiation. Acta Metallurgica 30:9, pages 1761-1768.
Crossref
E.J. Savino & C.N. Tomé. (1982) Irradiation creep by stress-induced preferential attraction due to anisotropic diffusion (SIPA-AD). Journal of Nuclear Materials 108-109, pages 405-416.
Crossref
C. N. Tomé, H. A. Cecatto & E. J. Savino. (1982) Point-defect diffusion in a strained crystal. Physical Review B 25:12, pages 7428-7440.
Crossref
Karl Ehrlich. (1981) Irradiation creep and interrelation with swelling in austenitic stainless steels. Journal of Nuclear Materials 100:1-3, pages 149-166.
Crossref
F.A. Nichols. 1981. Dislocation Modelling of Physical Systems. Dislocation Modelling of Physical Systems
147
151
.
R. Bullough, M.H. Wood, D.W. Wells & J.R. Willis. 1981. Dislocation Modelling of Physical Systems. Dislocation Modelling of Physical Systems
116
141
.
F.A. Nichols. (1981) Radiation damage in non-fissile metallic alloys. Progress in Nuclear Energy 7:1, pages 11-45.
Crossref
R. Bullough, M.W. Finnis & M.H. Wood. (1981) A theory of irradiation and thermal creep by dislocation climb. Journal of Nuclear Materials 104, pages 1263-1267.
Crossref
D. Caillard, J.L. Martin & B. Jouffrey. (1980) Creep under irradiation of 316 steel in the high voltage electron microscope. Acta Metallurgica 28:8, pages 1059-1067.
Crossref
Chr. Schwaiger, P. Jung & H. Ullmaier. (1980) Irradiation creep in deuteron bombarded stainless steel. Journal of Nuclear Materials 90:1-3, pages 268-270.
Crossref
A.R. Causey, G.J.C. Carpenter & S.R. MacEwen. (1980) In-reactor stress relaxation of selected metals and alloys at low temperatures. Journal of Nuclear Materials 90:1-3, pages 216-223.
Crossref
W.G. Wolfer. (1980) Correlation of radiation creep theory with experimental evidence. Journal of Nuclear Materials 90:1-3, pages 175-192.
Crossref
H. Wiedersich & S.R. MacEwen. (1980) Solute effects on radiation-induced creep and growth. Journal of Nuclear Materials 90:1-3, pages 157-168.
Crossref
E.J. Savino & C.E. Laciana. (1980) Radiation induced creep and growth of zirconium alloys. Journal of Nuclear Materials 90:1-3, pages 89-107.
Crossref
F.A. Nichols. (1980) Bias factors for radiation creep, growth and swelling. Journal of Nuclear Materials 90:1-3, pages 29-43.
Crossref
R. Bullough & M.H. Wood. (1980) Mechanisms of radiation induced creep and growth. Journal of Nuclear Materials 90:1-3, pages 1-21.
Crossref
D.J. Bacon, D.M. Barnett & R.O. Scattergood. (1980) Anisotropic continuum theory of lattice defects. Progress in Materials Science 23, pages 51-262.
Crossref
J. Leteurtre. 1980. Site Characterization and Aggregation of Implanted Atoms in Materials. Site Characterization and Aggregation of Implanted Atoms in Materials
265
294
.
F.A. Nichols. (1979) On the sipa contribution to radiation creep. Journal of Nuclear Materials 84:1-2, pages 207-221.
Crossref
F.A. Nichols. (1979) On the bias factor for irradiation-induced swelling in metals. Scripta Metallurgica 13:8, pages 717-721.
Crossref
F.V. NolfiJr.Jr., R.O. Scattergood & A.P.L. Turner. (1979) Stress and irradiation induced mass transport. Scripta Metallurgica 13:4, pages 231-236.
Crossref
C.H. Woo. (1979) Effects of an anisotropic dislocation structure on irradiation creep due to stress induced preferred absorption of point defects. Journal of Nuclear Materials 80:1, pages 132-143.
Crossref
G.W. Lewthwaite. (1979) SIPA irradiation creep in a material with a preferred direction for dislocation Burgers vectors. Journal of Nuclear Materials 79:1, pages 180-183.
Crossref
J. A. A. Khan & J. Leteurtre. (1978) An experimental investigation of the stress oriented dislocation loop nucleation in whiskers. Physica Status Solidi (a) 50:2, pages K161-K164.
Crossref
P.T. Heald. (1978) The irradiation-creep strain produced by vacancy loops. Journal of Nuclear Materials 74:2, pages 221-227.
Crossref
P. H. Dederichs & K. Schroeder. (1978) Anisotropic diffusion in stress fields. Physical Review B 17:6, pages 2524-2536.
Crossref
A.D. Braislford & R. Bullough. (1978) Void growth and its relation to intrinsic point defect properties. Journal of Nuclear Materials 69-70, pages 434-450.
Crossref
P.H. Dederichs, C. Lehmann, H.R. Schober, A. Scholz & R. Zeller. (1978) Lattice theory of point defects. Journal of Nuclear Materials 69-70, pages 176-199.
Crossref
P.T. Heald & J.E. Harbottle. (1977) Irradiation creep due to dislocation climb and glide. Journal of Nuclear Materials 67:1-2, pages 229-233.
Crossref
R.A. Weiner & A. Boltax. (1977) Microstructural modeling of irradiation creep and swelling. Journal of Nuclear Materials 66:1-2, pages 1-16.
Crossref
S.N. Buckley & S.A. Manthorpe. (1977) Electron induced irradiation creep and direct observation of the underlying dislocation processes involved. Journal of Nuclear Materials 65, pages 295-301.
Crossref
S.R. MacEwen & V. Fidleris. (1977) Irradiation creep in Zr single crystals. Journal of Nuclear Materials 65, pages 250-257.
Crossref
R. Bullough & M.R. Hayns. (1977) The temperature dependence of irradiation creep. Journal of Nuclear Materials 65, pages 184-191.
Crossref
A. Boltax, J.P. Foster, R.A. Weiner & A. Biancheria. (1977) Void swelling and irradiation creep relationships. Journal of Nuclear Materials 65, pages 174-183.
Crossref
D.R. Harries. (1977) Irradiation creep in non-fissile metals and alloys. Journal of Nuclear Materials 65, pages 157-173.
Crossref
W. Dienst. (1977) Irradiation induced creep of ceramic nuclear fuels. Journal of Nuclear Materials 65, pages 1-8.
Crossref
S.N. BUCKLEY & S.A. MANTHORPE. 1977. Measurement of Irradiation-enhanced Creep in Nuclear Materials. Measurement of Irradiation-enhanced Creep in Nuclear Materials
295
301
.
S.R. MacEWEN & V. FIDLERIS. 1977. Measurement of Irradiation-enhanced Creep in Nuclear Materials. Measurement of Irradiation-enhanced Creep in Nuclear Materials
250
257
.
R. BULLOUGH & M.R. HAYNS. 1977. Measurement of Irradiation-enhanced Creep in Nuclear Materials. Measurement of Irradiation-enhanced Creep in Nuclear Materials
184
191
.
A. BOLTAX, J.P. FOSTER, R.A. WEINER & A. BIANCHERIA. 1977. Measurement of Irradiation-enhanced Creep in Nuclear Materials. Measurement of Irradiation-enhanced Creep in Nuclear Materials
174
183
.
D.R. HARRIES. 1977. Measurement of Irradiation-enhanced Creep in Nuclear Materials. Measurement of Irradiation-enhanced Creep in Nuclear Materials
157
173
.
W. DIENST. 1977. Measurement of Irradiation-enhanced Creep in Nuclear Materials. Measurement of Irradiation-enhanced Creep in Nuclear Materials
1
8
.
R. Bullough. 1977. Surface Effects in Crystal Plasticity. Surface Effects in Crystal Plasticity
321
381
.
C.N Tome & E.J Savino. (1976) Interaction between point defects and straight dislocations in hexagonal crystals. Materials Science and Engineering 24:1, pages 109-122.
Crossref
R. J. Dimelfi, W. D. Nix, D. M. Barnett, J. H. Holbrook & G. M. Pound. (2006) An Analysis of the Entropy of Thermally Activated Dislocation Motion Based on the Theory of Thermoelasticity. physica status solidi (b) 75:2, pages 573-582.
Crossref
. (1997) Dirac’s Large Numbers theory and a theoretical upper limit to the viscosity of crystalline materials. Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences 348:1652, pages 95-99.
Crossref
P.T Heald & M.V Speight. (1975) Point defect behaviour in irradiated materials. Acta Metallurgica 23:11, pages 1389-1399.
Crossref
R. Bullough & M.R. Hayns. (1975) Irradiation-creep due to point defect absorption. Journal of Nuclear Materials 57:3, pages 348-352.
Crossref