Radiation effects in crystalline ceramics for the immobilization of high-level nuclear waste and plutonium
暂无分享,去创建一个
Steven J. Zinkle | C. R. A. Catlow | William J. Weber | Arthur T. Motta | Ekhard K. H. Salje | Linn W. Hobbs | Rodney C. Ewing | Eric R. Vance | Michael Nastasi | W. J. Weber | M. Nastasi | S. Zinkle | C. Catlow | T. D. Rubia | W. Weber | R. Ewing | L. Hobbs | C. Kinoshita | H. Matzke | A. Motta | E. Salje | E. Vance | T. D. de la Rubia | Hj. Matzke | T. Diaz de la Rubia | C. Kinoshita | R. C. Ewing | E. K. H. Salje | E. R. Vance | S. J. Zinkle | R. Ewing | W. J. Weber | T. Diaz de la Rubia | A. T. Motta
[1] W. J. Weber,et al. A Review of Radiation Effects in Solid Nuclear Waste Forms , 1983 .
[2] Mark T. Robinson,et al. Computer simulation of collision cascades in monazite , 1983 .
[3] J. McCallum,et al. The effect of annealing environments on the epitaxial recrystallization of ion-beam-amorphized SrTiO_3 , 1992 .
[4] D. Joy. Energy loss spectroscopy in materials science , 1983 .
[5] Linn W. Hobbs,et al. Network topology in aperiodic networks , 1995 .
[6] Thermal recrystallization of alpha-recoil damaged minerals of the pyrochlore structure type , 1986 .
[7] R. Ewing,et al. Energetics of radiation damage in natural zircon (ZrSiO4) , 1994 .
[8] W. J. Weber,et al. Self-radiation damage and recovery in Pu-doped zircon , 1991 .
[9] D. Thompson,et al. Rutherford backscattering investigation of radiation damage effects on the leaching of sphene and sphene-based glass-ceramics , 1989 .
[10] P. Gaskell,et al. Seeing order in ‘amorphous’ materials , 1976, Nature.
[11] Mark T. Robinson,et al. Computer simulation of atomic-displacement cascades in solids in the binary-collision approximation , 1974 .
[12] R. Johnson,et al. Physics of Radiation Effects in Crystals , 1986 .
[13] Rodney C. Ewing,et al. Radioactive Waste Forms for the Future , 1988 .
[14] William J. Weber,et al. Radiation effects on materials in high-radiation environments: A workshop summary , 1991 .
[15] R. Ewing,et al. X-ray powder diffraction study of annealed uraninite , 1991 .
[16] R. Ewing,et al. Alpha-Decay—Induced Fracturing in Zircon: The Transition from the Crystalline to the Metamict State , 1987, Science.
[17] W. Lutze,et al. Surface layers on a borosilicate nuclear waste glass corroded in MgCl2 solution , 1997 .
[18] Deborah Illman. Researchers take up environmental challenge at Hanford , 1993 .
[19] W. Weber,et al. Accumulation of structural defects in ion-irradiated Ca_2Nd_8(SiO_4)_6O_2 , 1991 .
[20] H. Ozkan. Effect of nuclear radiation on the elastic moduli of zircon , 1976 .
[21] L. Hobbs,et al. Alpha decay self-irradiation damage in 238Pu-substituted zirconolite☆ , 1982 .
[22] R. Ewing,et al. Amorphization of zirconolite: alpha-decay event damage versus krypton ion irradiation , 1992 .
[23] C. Catlow,et al. Irradiation-induced defects in alkali halide crystals , 1980 .
[24] W. Lutze,et al. Radiation Damage in Nuclear Waste Ceramics , 1982 .
[25] A. Stoneham. Theory of defects in solids , 1979 .
[26] T. Soules. Molecular dynamic calculations of glass structure and diffusion in glass , 1982 .
[27] J. Huisman. The Netherlands , 1996, The Lancet.
[28] C. Kinoshita,et al. Why is magnesia spinel a radiation-resistant material? , 1995 .
[29] E. Vance,et al. Electron irradiation-induced amorphism of some silicates , 1986 .
[30] L. Cartz,et al. Differential scanning calorimetry of heavy ion bombarded synthetic monazite , 1983 .
[31] R. Ewing,et al. Amorphous structure of metamict minerals observed by TEM , 1981, Nature.
[32] Y. Eyal,et al. Preferential leaching and natural annealing of alpha-recoil tracks in metamict betaflte and samarskite , 1988 .
[33] R. Ewing,et al. Electron-irradiation-induced nucleation and growth in amorphous LaPO_4, ScPO_4, and zircon , 1997 .
[34] A. E. Ringwood,et al. Solid solution limits in SYNROC zirconolite , 1983 .
[35] R. Trivedi,et al. Phase transformations and systems driven far from equilibrium , 1998 .
[36] M. Nastasi,et al. First observation of' amorphization in single-crystal MgA12O4 spinel , 1994 .
[37] G. Rossman,et al. Alpha-decay damage in titanite , 1991 .
[38] D. J. Bradley,et al. Nuclear Contamination from Weapons Complexes in the Former Soviet Union and the United States , 1996 .
[39] L. Hobbs,et al. Self-irradiation effects in 238Pu-substituted zirconolite: I. Temperature dependence of damage , 1984 .
[40] T. White,et al. Self‐Irradiation Damage of a Curium‐Doped Titanate Ceramic Containing Sodium‐Rich High‐Level Nuclear Waste , 1990 .
[41] A. E. Ringwood,et al. The SYNROC process: A geochemical approach to nuclear waste immobilization. , 1979 .
[42] R. Ewing,et al. Ion beam induced amorphization of monazite , 1996 .
[43] R. Pabalan,et al. Scientific basis for nuclear waste management XVI , 1993 .
[44] W. J. Weber,et al. The kinetics of alpha-decay-induced amorphization in zircon and apatite containing weapons-grade plutonium or other actinides , 1997 .
[45] G. Petot-ervas,et al. Transport phenomena in undoped and chromium or yttrium doped-alumina , 1983 .
[46] Roger Kelly,et al. Criteria for bombardment-induced structural changes in non-metallic solids , 1975 .
[47] George W. Arnold,et al. Radiation Effects in Glasses Used for Immobilization of High-level Waste and Plutonium Disposition , 1997 .
[48] W. Weber,et al. Radiation-induced amorphization in complex silicates , 1992 .
[49] E. Simonen. Theory of amorphization kinetics in intermetallics , 1986 .
[50] H. Matzke. Radiation damage in crystalline insulators, oxides and ceramic nuclear fuels , 1982 .
[51] R. Ewing,et al. Irradiation-induced amorphization of AlPO4 , 1996 .
[52] William J. Weber,et al. Alpha-decay-induced amorphization in complex silicate structures , 1993 .
[53] W. J. Weber,et al. Radiation effects in nuclear waste forms for high-level radioactive waste , 1995 .
[54] A. Rohl. MARVIN: a new computer code for studying surfaces and interfaces and its application to calculating the crystal morphologies of corundum and zircon , 1995 .
[55] R. Ewing,et al. Alpha-recoil damage in zirconolite (CaZrTi_2O_7) , 1986 .
[56] C. J. Ball,et al. α-Decay damage effects in curium-doped titanate ceramic containing sodium-free high-level nuclear waste , 1994 .
[57] R. Cooper,et al. A temperature effect in the luminescence emission from electron‐irradiated MgO , 1990 .
[58] D. M. Chapman,et al. Synthesis, characterization and crystal chemistry of microporous titanium-silicate materials , 1990 .
[59] F. Morehead,et al. A model for the formation of amorphous Si by ion bombardment , 1970 .
[60] V. Nagarajan,et al. A molecular dynamics study of ZrO2SiO2 system , 1990 .
[61] J. F. Gibbons,et al. Ion implantation in semiconductors—Part II: Damage production and annealing , 1972 .
[62] R. Freer. Diffusion in silicate minerals and glasses: A data digest and guide to the literature , 1981 .
[63] R. Taylor,et al. The immobilization of high level radioactive wastes using ceramics and glasses , 1997 .
[64] L. Mansur,et al. The effect of point defects on the amorphization of metallic alloys during ion implantation , 1986 .
[65] Catchen,et al. High-temperature phase transitions and low-temperature magnetic ordering in SrRuO3 and CaRuO3 ceramics studied using perturbed-angular-correlation spectroscopy. , 1994, Physical review. B, Condensed matter.
[66] C. Brooks. Computer simulation of liquids , 1989 .
[67] Lutze. Scientific basis for nuclear waste management V , 1982 .
[68] R. Ewing,et al. Image simulation of partially amorphous materials , 1993 .
[69] Y. Eyal,et al. Alpha-recoil damage in monazite: preferential dissolution of the radiogenic actinide isotopes , 1982 .
[70] R. Roy,et al. [NZP], a new radiophase for ceramic nuclear waste forms , 1982 .
[71] R. Haire,et al. Novel Plutonium Titanate Compounds and Solid Solutions Pu2Ti2O7‐Ln2Ti2O7: Relevance to Nuclear Waste Disposal , 1996 .
[72] L. Gladden,et al. A neutron diffraction and MAS-NMR study of the structure of fast neutron irradiated vitreous silica , 1992 .
[73] A. Nakano,et al. Molecular dynamics simulations of covalent amorphous insulators on parallel computers , 1995 .
[74] R. Huggins. Solid State Ionics , 1989 .
[75] L. Wang,et al. Effect of temperature and recoil-energy spectra on irradiation-induced amorphization in Ca2La8(SiO4)6O2 , 1994 .
[76] N. Itoh,et al. Radiation effects in ionic solids , 1986 .
[77] H. Matzke,et al. Thermophysical property measurements and ion-implantation studies on CePO4 , 1998 .
[78] Robert S Averback,et al. Ion-irradiation studies of the damage function of copper and silver , 1978 .
[79] Y. Eyal,et al. Preferential leaching and the age of radiation damage from alpha decay in minerals , 1985 .
[80] M. Robinson,et al. A proposed method of calculating displacement dose rates , 1975 .
[81] G. Martin. Phase stability under irradiation: Ballistic effects , 1984 .
[82] William J. Weber,et al. The irradiation-induced crystalline-to-amorphous phase transition in α-SiC , 1996 .
[83] William J. Weber,et al. Effects of self-radiation damage in Cm-doped Gd2Ti2O7 and CaZrTi2O7 , 1986 .
[84] Paolo Mazzoldi,et al. Ion beam modification of insulators , 1987 .
[85] Werner Lutze,et al. Scientific basis for nuclear waste management , 1979 .
[86] F. Clinard. Review of self-irradiation effects in Pu-substituted zirconolite , 1985 .
[87] D. Holmes. The Effects of Radiation on Materials. , 1958 .
[88] J. M. Meese,et al. Displacement Thresholds in ZnO , 1972 .
[89] W. Ebert,et al. The hydration of borosilicate waste glass in liquid water and steam at 200 °C☆ , 1991 .
[90] P. Agnew. Displacement thresholds in sapphire , 1992 .
[91] L. Hobbs. Topology and geometry in the irradiation-induced amorphization of insulators , 1994 .
[92] W. Weber,et al. The effect of radiation on nuclear waste forms , 1991 .
[93] A M Russell,et al. Science and technology. , 1972, Science.
[94] L. Hobbs. Application of Transmission Electron Microscopy to Radiation Damage in Ceramics , 1979 .
[95] R. Bros,et al. Occurrence of Pu and Fissiogenic REE in Hydrothermal Apatites from the Fossil Nuclear Reactor 16 at Oklo (Gabon) , 1996 .
[96] F. Farges. Fivefold-coordinated Ti4+ in metamict zirconolite and titanite: A new occurrence shown by Ti K-edge XANES spectroscopy , 1997 .
[97] R. Ewing,et al. Ion irradiation-induced amorphization in the Al2O3-SiO2 system: A comparison with glass formation , 1997 .
[98] K. C. Russell. Phase stability under irradiation , 1984 .
[99] A. Chintapalli. NUCLEAR WASTE MANAGEMENT , 2008 .
[100] J. A. Stone,et al. Scientific basis for Nuclear Waste Management VIII , 1984 .
[101] R. Cooper,et al. Point Defects in Electron‐Irradiated Oxide Single Crystals , 1995 .
[102] Robert S Averback,et al. Displacement Cascades. Dynamics and Atomic Structure , 1987 .
[103] R. Ewing,et al. Metamict minerals: Natural analogues for radiation damage effects in ceramic nuclear waste forms , 1988 .
[104] W. Weber,et al. Ion beam modification of Gd2Ti2O7 , 1993 .
[105] C. McHargue,et al. The structure of ion implanted ceramics , 1990 .
[106] Qingzhen Huang,et al. Neutron and X-Ray Diffraction Study of the Crystal Structure of CsTiSi2O6.5 , 1997 .
[107] Frank von Hippel,et al. Fissile material security in the post-cold-war world , 1995 .
[108] W. J. Weber. Radiation-induced swelling and amorphization in Ca2Nd8(SiO4)6O2 , 1983 .
[109] Adams,et al. Combined magnetic-dipole and electric-quadrupole hyperfine interactions in rare-earth orthoferrite ceramics. , 1993, Physical review. B, Condensed matter.
[110] R. Cooper,et al. Threshold for displacement defect production in electron-irradiated alumina , 1991 .
[111] H. Matzke,et al. Effects of radiation on microstructure and fracture properties in Ca2Nd8(SiO4)6)2 , 1986 .
[112] N. Q. Lam,et al. A Unified Approach to Solid-State Amorphization and Melting , 1994 .
[113] W. J. Weber,et al. Radiation-induced defects and amorphization in zircon , 1990 .
[114] J. Rusín,et al. Multibarrier waste forms. Part II. Characterization and evaluation. , 1979 .
[115] R. Ewing,et al. Alpha-recoil damage in natural zirconolite (CaZrTi2O7)☆ , 1983 .
[116] A. E. Ringwood,et al. Immobilization of high-level nuclear reactor wastes in SYNROC: a current appraisal , 1981 .
[117] W. J. Weber,et al. Alpha-decay event damage in zircon , 1991 .
[118] G. Mccarthy. High-Level Waste Ceramics: Materials Considerations, Process Simulation, and Product Characterization , 1977 .
[119] W. J. Weber,et al. Radiation effects in actinide host phases , 1985 .
[120] W. J. Weber,et al. Zircon: A host-phase for the disposal of weapons plutonium , 1995 .
[121] M. Rappaz,et al. Monazite and other lanthanide orthophosphates as alternate actinide waste forms , 1980 .
[122] W. J. Weber,et al. Thermal recovery of lattice defects in alpha-irradiated UO2 crystals☆ , 1983 .
[123] R. Ewing,et al. Alpha-decay damage in minerals of the pyrochlore group , 1988 .
[124] Lynn F. Gladden,et al. Medium-range order in v-SiO2 , 1990 .
[125] M. Nastasi,et al. MIXING OF FE2O3 MARKERS INTO AMORPHOUS AND CRYSTALLINE ALUMINA , 1994 .
[126] S. Pennycook,et al. Incoherent imaging of thin specimens using coherently scattered electrons , 1993, Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences.
[127] G. Vineyard,et al. THE DYNAMICS OF RADIATION DAMAGE , 1960 .
[128] L. Bursill,et al. Heavy-ion irradiation tracks in zircon , 1990 .
[129] W. Weber,et al. The temperature dependence of ion-beam-induced amorphization in β-SiC , 1995 .
[130] M. Kiritani. Microstructure evolution during irradiation , 1994 .
[131] M. Nastasi,et al. Ion‐Beam Mixing of Iron Oxide Marker Layers in Doped and Undoped Alumina Thin Films , 1994 .
[132] M. Nastasi,et al. Radiation-induced phase transformations in MgAl 2 O 4 spinel , 1997 .
[133] E. Salje. A novel 7-circle diffractometer for the rapid analysis of extended defects in thin films, single crystals and ceramics , 1995 .
[134] L. M. MacLean,et al. Fissile material disposition program final immobilization form assessment and recommendation , 1997 .
[135] J. S. Rowlinson,et al. PHASE TRANSITIONS , 2021, Topics in Statistical Mechanics.
[136] R. Ewing. The crystal chemistry of complex niobium and tantalum oxides. IV. The metamict state: Discussion , 1975 .
[137] R. Tye,et al. thermal conductivity , 2019 .
[138] Brent Constantz,et al. Hydroxyapatite and Related Materials , 1994 .
[139] R. Ewing,et al. Displacive radiation effects in the monazite- and zircon-structure orthophosphates , 1997 .
[140] B. Sheldon,et al. The measurement and analysis of epitaxial recrystallization kinetics in ion-beam-amorphized SrTiO_3 , 1994 .
[141] R. Devine,et al. Macroscopic and microscopic effects of radiation in amorphous SiO2 , 1994 .
[142] V. F. Chkuaseli,et al. Fission gas bubble behaviour in uranium dioxide , 1993 .
[143] C. White,et al. An in situ annealing study of lead implanted single crystal calcium titanate , 1987 .
[144] E. Vance,et al. Radiation damage in natural titanites , 1985 .
[145] T. Headley,et al. Crystalline Titanate Ceramic Nuclear Waste Forms: Processing and Microstructure , 1984 .
[146] Evenson,et al. Structural phase transition and Tc distribution in Hf-doped LaMnO3 investigated using perturbed-angular-correlation spectroscopy. , 1996, Physical review. B, Condensed matter.
[147] S. Zinkle,et al. Microstructure of irradiated materials , 1995 .
[148] Matthew G. Bunn,et al. Management and disposition of excess weapons plutonium , 1994 .
[149] A. E. Ringwood,et al. Alpha-recoil damage in natural zirconolite and perovskite. , 1981 .
[150] L. Hobbs,et al. Local structure of silica glasses , 1990 .
[151] John M. Cowley,et al. Auto-correlation analysis of high resolution electron micrographs of near-amorphous thin films , 1985 .
[152] Hirotaro Mori,et al. High-resolution electron microscopy study of electron-irradiation-induced crystalline-to-amorphous transition in α-SiC single crystals , 1992 .
[153] H. Fujita,et al. Electron-irradiation-induced crystalline to amorphous transition in α-Sic single crystals , 1990 .
[154] H. Matzke. Diffusion in Carbides and Nitrides: Unsolved Problems , 1992 .
[155] W. J. Weber,et al. Damage ingrowth and recovery in alpha-irradiated CaF2, SrF2, and BaF2 , 1983 .
[156] C. Woo. Theory of irradiation deformation in non-cubic metals: Effects of anisotropic diffusion , 1988 .
[157] N. Hess,et al. Amorphization in Gd2Ti2O7 and CaZrTi2O7 irradiated with 3 MeV argon ions , 1992 .
[158] R. A. Van Konynenburg,et al. Scientific basis for nuclear waste management XVII , 1994 .
[159] T. Tong. Thermal Conductivity 22 , 1994 .
[160] H. Matzke. Ion beam analyses of ceramics and glasses in nuclear energy , 1994 .
[161] Richard B. Firestone,et al. Table of Isotopes , 1978 .
[162] P. H. Abelson. Waste management. , 1985, Science.
[163] William J. Weber,et al. Self-radiation damage in Gd2Ti2O7 , 1985 .
[164] W. J. Nellis. The effect of self-radiation on crystal volume , 1977 .
[165] J. Howell,et al. Diffusion in Solids , 1984, Materials Science Forum.
[166] F. Farges,et al. The structure of aperiodic, metamict (Ca, Th)ZrTi_2O_7 (zirconolite): An EXAFS study of the Zr, Th, and U sites , 1993 .
[167] L. Hobbs,et al. CHAPTER 7 - Radiation Effects in Non-Metals* , 1986 .
[168] R. Dosch,et al. Selective adsorption and ion exchange of metal cations and anions with silico-titanates and layered titanates , 1993 .
[169] M. Nastasi,et al. Ion-Solid Interactions: Fundamentals and Applications , 1996 .
[170] C. Allen,et al. In situ ion irradiation /implantation studies in the HVEM-tandem facility at argonne national laboratory , 1988 .
[171] L. Colombo,et al. CRYSTALLIZATION AND RELATED PHENOMENA IN AMORPHOUS MATERIALS , 1994 .
[172] R. Greegor,et al. X-ray spectroscopic investigation of Pu-substituted zirconolite , 1988 .
[173] Steven J. Zinkle,et al. Defect production in ceramics , 1997 .
[174] In-situ capability of ion beam modification and characterization of materials at Los Alamos National Laboratory☆ , 1995 .
[175] W. J. Weber. Radiation Damage in a Rare-Earth Silicate With the Apatite Structure , 1982 .
[176] A. E. Ringwood,et al. The Effects of Radiation Damage on Synroc , 1980 .
[177] S. Nasu,et al. Irradiation induced volume change in UN2 , 1978 .
[178] S. C. Parker,et al. The lattice dynamics of forsterite , 1987, Mineralogical Magazine.
[179] D. Cassidy,et al. Accelerated irradiation testing of SYNROC and its constituent minerals using fast neutrons , 1982 .
[180] B. Burakov,et al. The Crystalline Host-phases for Immobilization of Weapons Plutonium and Waste Actinides , 1996 .
[181] S. Matsumoto,et al. Aging Effects on Curium‐Doped Titanate Ceramic Containing Sodium‐Bearing High‐Level Nuclear Waste , 1992 .
[182] A. D. Whapham,et al. Radiation damage in uranium dioxide , 1965 .
[183] H. Matzke. Radiation enhanced diffusion in UO2 and (U, Pu)O2 , 1983 .
[184] J. Lacout,et al. Synthesis of phosphate-silicate apatites at atmospheric pressure , 1997 .
[185] T. D. Chikalla,et al. Annealing of self-radiation damage in238 puO2 , 1973 .
[186] W. J. Weber,et al. Total displacement functions for SiC , 1997 .
[187] Hans-Peter Schertl,et al. Geochim. cosmochim. acta , 1989 .
[188] J. Gale,et al. Self-consistent interatomic potentials for the simulation of binary and ternary oxides , 1994 .
[189] J. Bruley. Spatially resolved electron energy-loss near-edge structure analysis of a near Σ = 11 tilt boundary in sapphire , 1993 .
[190] C. Catlow. COMPUTER SIMULATION STUDIES OF TRANSPORT IN SOLIDS , 1986 .
[191] B. Berger,et al. Structural freedom, topological disorder, and the irradiation-induced amorphization of ceramic structures , 1996 .
[192] T. Krogh. Improved accuracy of U-Pb zircon ages by the creation of more concordant systems using an air abrasion technique , 1982 .
[193] P. Klemens,et al. Reduction of stored energy in a heavily irradiated ceramic , 1987 .
[194] T. Matsui,et al. EXAFS study of (La1−xMx)2Zr2O7 (MNd and Ce) , 1996 .
[195] L. Hobbs,et al. The metamict transformation in alpha-quartz , 1983 .
[196] Wang,et al. Electron-irradiation- and ion-beam-induced amorphization of coesite. , 1996, Physical Review B (Condensed Matter).
[197] D. Gottfried,et al. The effect of nuclear radiation on the structure of zircon , 1955 .
[198] T. D. Rubia,et al. Microstructure evolution during irradiation , 1997 .
[199] J. Bourgoin,et al. Enhanced diffusion mechanisms , 1978 .
[200] William Primak,et al. Fast-Neutron-Induced Changes in Quartz and Vitreous Silica , 1958 .
[201] J. Delaye,et al. Molecular dynamics simulation of low-energy atomic displacement cascades in a simplified nuclear glass , 1997 .
[202] R. Ewing,et al. Amorphization of Al2SiO5 polymorphs under ion beam irradiation , 1997 .
[203] J. McCallum,et al. Structural differences between the glass state and ion-beam-amorphized states of lead pyrophosphate , 1990 .
[204] H. S. Virk. Single-activation-energy model of radiation damage in solid-state nuclear-track detectors , 1995 .
[205] Katherine L. Smith,et al. Application of analytical electron microscopy to the study of radiation damage in the complex oxide mineral zirconolite , 1997 .
[206] R. Ewing,et al. Hardness and elastic modulus of zircon as a function of heavy-particle irradiation dose : I. In situ α-decay event damage , 1991 .
[207] L. Hobbs. The role of topology and geometry in the irradiation-induced amorphization of network structures , 1995 .
[208] H. Matzke,et al. Radiation defects in the oxygen sublattice of UO2 single crystals , 1993 .
[209] Bryan C. Chakoumakos,et al. Systematics of the pyrochlore structure type, ideal A2B2X6Y , 1984 .
[210] Steven J. Zinkle,et al. Effect of irradiation spectrum on the microstructural evolution in ceramic insulators , 1995 .
[211] A. Motta,et al. Theory of electron-irradiation-induced amorphization , 1990 .
[212] M. Nastasi,et al. Ion beam mixing of marker layers into amorphous aluminum oxide , 1994 .
[213] Ε. B. Anderson,et al. High-Uranium Zircon from "Chernobyl Lavas" , 1993 .
[214] Disposal,et al. Radioactive waste management and disposal , 1991 .
[215] M. Tole. The kinetics of dissolution of zircon (ZrSiO4) , 1985 .
[216] J. Gale,et al. Computer modelling as a technique in materials chemistry , 1994 .
[217] M. Treacy,et al. Variable Coherence Microscopy: a Rich Source of Structural Information from Disordered Materials , 1996 .
[218] R. Rebak,et al. Scientific Basis for Nuclear Waste Management XXIII , 1999 .
[219] D. Langmuir,et al. Uranium solution-mineral equilibria at low temperatures with applications to sedimentary ore deposits , 1978 .
[220] C. Degueldre,et al. Control of civilian plutonium inventories using burning in a non-fertile fuel , 1997 .
[221] M. Iseki,et al. Fusion neutron irradiation of TiC , 1985 .
[222] B. Appleton,et al. Amorphization of ceramics by ion beams , 1985 .
[223] G. T. Seaborg,et al. Table of the Isotopes , 1948 .
[224] A. Harada,et al. Irradiation induced lattice defects in UO2 , 1978 .
[225] J. E. Mendel. Ceramics in nuclear waste management , 1976 .
[226] H. Matzke,et al. ION-BOMBARDMENT-INDUCED RADIATION DAMAGE IN SOME CERAMICS AND IONIC CRYSTALS: DETERMINED BY ELECTRON DIFFRACTION AND GAS RELEASE MEASUREMENTS , 1966 .
[227] W. J. Weber,et al. Ingrowth of lattice defects in alpha irradiated UO2 single crystals , 1981 .
[228] A. Hughes. Radiation damage ininsulators at high doses , 1986 .
[229] J. Ziegler,et al. stopping and range of ions in solids , 1985 .
[230] T. D. Chikalla,et al. Self-radiation damage ingrowth in 238PuO2 , 1973 .
[231] J. R. O'neil,et al. Uranium and Lead Isotopic Stability in a Metamict Zircon under Experimental Hydrothermal Conditions , 1966, Science.
[232] B. W. Anderson,et al. Study of metamict Ceylon zircons , 1972, Mineralogical Magazine.
[233] R. Fleischer. Isotopic Disequilibrium of Uranium: Alpha-Recoil Damage and Preferential Solution Effects , 1980, Science.
[234] J. S. Perrin,et al. Effects of radiation on materials , 1981 .
[235] D. Wayne,et al. The hydrothermal stability of zircon: Preliminary experimental and isotopic studies , 1992 .
[236] E. Salje,et al. X -ray analysis of mesoscopic twin structures , 1996, Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.
[237] H. Matzke,et al. Damage recovery in the U-sublattice of ion implanted UO2 between 5 K and 2000 K , 1991 .
[238] M. Nastasi,et al. Cation disorder in high-dose, neutron-irradiated spinel , 1995 .
[239] C. Catlow. 2 – Defect Clustering in Nonstoichiometric Oxides , 1981 .
[240] R. Ewing,et al. The metamict state: Implications for radiation damage in crystalline waste forms☆☆☆ , 1980 .
[241] H. Matzke,et al. Polygonization and high burnup structure in nuclear fuels , 1997 .
[242] B. Sales,et al. A comparison of the corrosion characteristics of synthetic monazite and borosilicate glass containing simulated nuclear defense waste , 1983 .
[243] S. R. Elliott,et al. Medium-range structural order in covalent amorphous solids , 1991, Nature.
[244] Steven J. Zinkle,et al. Radiation effects in ceramics , 1994 .
[245] Steven J. Zinkle,et al. Microstructure of ion irradiated ceramic insulators , 1994 .
[246] R. Ewing,et al. Geochemical alteration of pyrochlore group minerals: Pyrochlore subgroup , 1995 .
[247] W. J. Weber,et al. Alpha-irradiation damage in CeO2, UO2 and PuO2 , 1984 .
[248] F. Clinard,et al. Structural damage in a self-irradiated zirconolite-based ceramic , 1984 .
[249] J. R. Dennis,et al. Crystalline to amorphous transformation in ion‐implanted silicon: a composite model , 1978 .
[250] F. Audubert,et al. Elaboration of an iodine-bearing apatite Iodine diffusion into a Pb3(VO4)2 matrix , 1997 .
[251] S. Zinkle,et al. Influence of irradiation spectrum and implanted ions on the amorphization of ceramics , 1995 .
[252] H. Matzke,et al. Formation of the rim structure in high burnup fuel , 1997 .
[253] William J. Weber,et al. The radiation-induced crystalline-to-amorphous transition in zircon , 1994 .
[254] J. Harding. Computer simulation of defects in ionic solids , 1990 .
[255] R. C. Ramola,et al. Annealing kinetics of heavy ion radiation damage in crystalline minerals , 1990 .
[256] M. Nastasi,et al. Thermodynamics and kinetics of phase transformations induced by ion irradiation , 1991 .
[257] G. P. Pells. The temperature dependence of the threshold displacement energy in MgO , 1982 .
[258] J. F. Flintoff,et al. Crystalline-phase formation in hot isostatic pressing of nuclear waste ceramics with high zirconia content , 1985 .
[259] A. D. Romig,et al. Microbeam Analysis 1984 , 1984 .
[260] A. B. Lidiard,et al. THE GROWTH OF COLLOIDAL CENTRES IN IRRADIATED ALKALI HALIDES , 1976 .
[261] L. Yaffe. Radiochemistry. , 2020, Nucleonics.
[262] A. Hughes. Colloid formation in irradiated insulators , 1983 .
[263] P. Price,et al. FISSION-TRACK AGES OF ZIRCONS , 1964 .
[264] K. A. Jackson. A defect model for ion-induced crystallization and amorphization , 1988 .
[265] J. L. Brimhall,et al. The amorphous phase transition in irradiated NiTi alloy , 1985 .
[266] J. A. Gardner,et al. Zirconia dynamics studied by PAC spectroscopy , 1988 .
[267] G. Moan. Management of radioactive wastes from the nuclear fuel cycle, International Atomic Energy Agency. ed. (1976) , 1977 .
[268] C. Kinoshita,et al. Radiation-induced amorphization and swelling in ceramics☆ , 1991 .
[269] R. Ewing,et al. Electron-irradiation-induced phase segregation in crystalline and amorphous apatite: A TEM study , 1997 .
[270] R. Simon,et al. Radioactive waste management and disposal , 1980 .
[271] F. W. Clinard,et al. Neutron irradiation damage in MgO, Al2O3 and MgAl2O4 ceramics☆ , 1982 .
[272] J. McCallum,et al. Hardness and elastic modulus of zircon as a function of heavy-particle irradiation dose:: II. Pb-ion implantation damage , 1994 .
[273] R. Bullough,et al. The rate theory of swelling due to void growth in irradiated metals , 1972 .
[274] William J. Weber,et al. Computer simulation of displacement energies for several ceramic materials , 1998 .
[275] L. Hobbs,et al. Energy-filtered electron diffraction study of vitreous and amorphized silicas , 1995 .
[276] M. Islam,et al. Oxygen Ion Migration in Perovskite-Type Oxides , 1995 .
[277] A. L. Greer,et al. Thermodynamics and kinetics of phase transformations , 1996 .
[278] A. Motta,et al. A ballistic mixing model for the amorphization of precipitates in Zircaloy under neutron irradiation , 1992 .
[279] J. McCallum,et al. Annealing‐environment effects in the epitaxial regrowth of ion‐beam‐amorphized layers on CaTiO3 , 1995 .
[280] D. Peterson,et al. Self-irradiation effects in 238Pu-substituted zirconolite: II. Effect of damage microstructure on recovery , 1985 .
[281] A. Motta. Amorphization of intermetallic compounds under irradiation - A review , 1997 .
[282] Y. Iwata,et al. Thermal recovery of defects in neutron irradiated UO2 , 1979 .
[283] I. R. Triay,et al. Scientific basis for nuclear waste management XX , 1997 .
[284] H. Matzke. Radiation damage-enhanced dissolution of UO2 in water , 1992 .
[285] Kazuhiro Suzuki. Discordant distribution of U and Pb in zircon of Naegi granite : a possible indication of Rn migration through radiation damage , 1987 .
[286] J. B. Adams,et al. Atomic-level computer simulation , 1994 .