TEM Examinations of the Metal-Oxide Interface of Zirconium Based Alloys Irradiated in a Pressurized Water Reactor

Abolhassani, S.; Restani, Renato; Rebac, Tomislav; Groeschel, F.; Hoffelner, Wolfgang; Bart, G.; Goll, W.; Aeschbach, F

doi:10.1520/stp37521s

Cited by 13 publications

(6 citation statements)

References 28 publications

(14 reference statements)

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“…As it can be clearly seen from Figure 4 the minimum thickness of oxide is not constant below each electrode over the whole area of Pt, since the oxide interface is undulated. This undulation has been reported many times and is a well known phenomenon [25]- [27] with the area of an average protrusion calculated to be approximately 0.9 μm x 0.9 μm. Hence, the path of the current beneath each of the electrodes cannot be totally known.…”

Section: Calculation Of Results and Assumptionssupporting

confidence: 61%

“…Many authors have suggested that the oxide in fact consists of two different regions, an outer heavily cracked porous layer and an inner dense impermeable layer [6], [21], [25], [29], [30]. It is claimed that coolant can penetrate into these outer cracks and hence only the inner dense layer, predominantly acts as a barrier to the penetration of oxidizing species [6], [21], [25], [29], [30]. For this condition to satisfy, an oxygen vacancy gradient formed across this region, following a parabolic trend could be expected with the highest vacancy concentration being at the metal/oxide interface [31], [32].…”

Section: Discussion Of Resultsmentioning

confidence: 99%

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Characterization of the conductivity of metal-oxide interface of zirconium based fuel cladding at low and high burnups

Hawes

Baris

Chiu

et al. 2020

Journal of Nuclear Materials

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Section: Calculation Of Results and Assumptionssupporting

confidence: 61%

Section: Discussion Of Resultsmentioning

confidence: 99%

Characterization of the conductivity of metal-oxide interface of zirconium based fuel cladding at low and high burnups

Hawes

Baris

Chiu

et al. 2020

Journal of Nuclear Materials

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“…In previous microstructural studies, both h-ZrO and ZrO2 grains formed during aqueous corrosion have been reported to be very small (20-100 nm) [36][37][38], and it is challenging to carry out micro-texture analysis on such small grains using normal electron backscatter diffraction (EBSD) due to its limited spatial resolution [39]. XRD has been widely used in the study of texture in bulk m-ZrO2, as discussed above, but the crystallography of the h-ZrO suboxide using XRD has rarely been reported due to weak peak intensity from the thin suboxide, and overlapping diffraction peaks originating from multiphase samples [4,40].…”

Section: Introductionmentioning

confidence: 92%

Mechanism of the α-Zr to hexagonal-ZrO transformation and its impact on the corrosion performance of nuclear Zr alloys

Liu

Karamched

et al. 2019

Acta Materialia

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Displacive transformations have been widely reported in metals, alloys and ceramics, but rarely reported to be important in the aqueous corrosion of alloys. We report here our analysis of the formation of the hexagonal-ZrO suboxide during the aqueous corrosion of α-Zr alloys and propose this to be a paraequilibrium displacive transformation with the rate controlled by oxygen diffusion. Two orientation relationships were identified between α-Zr and hexagonal-ZrO, ( 0002, with the first one more commonly observed. No specific orientation relationships between either hexagonal-ZrO and monoclinic-ZrO2 or α-Zr and monoclinic-ZrO2 were identified, which suggests that the formation of often-reported bulk oxide texture during aqueous corrosion is not related directly to the texture of the metallic substrate. These results provide a guideline for understanding the mechanisms of crystallographic evolution during oxide growth on commercial zirconium alloys, and also demonstrate the capability of transmission Kikuchi diffraction to investigate orientation relationships in nano-scale materials.

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“…In this study, the zirconium oxides grown by autoclave corrosion were observed to have a high resistance to irradiation-induced amorphisation up to a fluence of 1.9 × 10 16 ions.cm -2 at 10 12 ions.cm -2 .s -1 , but a gradual evolution of microstructure in the bulk oxide can be seen in long term in-situ irradiation experiments as shown in Figure 3. Strong diffraction contrast can be seen in the pre-irradiation sample, Figure 3 (a), arising from the characteristic nanocrystalline grain structure in a corrosion scale grown under simulated reactor conditions, and the complex SAD patterns are also characteristic of the textured zirconium oxide layer [69,70]. The diffraction contrast in the bright-field micrographs gradually changed under irradiation and we observed fewer but brighter spots in the diffraction patterns.…”

Section: In-situ Observation Of Irradiation-induced Phase Transformationmentioning

confidence: 76%

In-situ TEM study of irradiation-induced damage mechanisms in monoclinic-ZrO2

Liu

Mir

et al. 2020

Acta Materialia

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We have investigated the microstructural and crystallographic evolution of nanocrystalline zirconia under heavy ion irradiation using in-situ transmission electron microscopy (TEM) and have studied the atomic configurations of defect clusters using aberration-corrected scanning transmission electron microscopy (STEM). Under heavy ion irradiation the monoclinic-ZrO2 is observed to transform into cubic phase, stabilised by the strain induced by irradiationinduced defect clusters. We suggest that the monoclinic-to-cubic transformation is martensitic in nature with an orientation relationship identified to be (100)m∥(100)c and [001]m∥[001]c. By increasing the damage dose, both the formation of voids and irradiationinduced grain growth were observed. A model for the formation of voids is proposed, taking defect interactions into consideration. The study has also demonstrated that high resolution orientation mapping by transmission Kikuchi diffraction (TKD) combined with in-situ irradiation in a TEM is a powerful method to probe the mechanisms controlling irradiationinduced processes, including grain boundary migration, phase transformations and texture evolution.

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TEM Examinations of the Metal-Oxide Interface of Zirconium Based Alloys Irradiated in a Pressurized Water Reactor

Cited by 13 publications

References 28 publications

Characterization of the conductivity of metal-oxide interface of zirconium based fuel cladding at low and high burnups

Characterization of the conductivity of metal-oxide interface of zirconium based fuel cladding at low and high burnups

Mechanism of the α-Zr to hexagonal-ZrO transformation and its impact on the corrosion performance of nuclear Zr alloys

In-situ TEM study of irradiation-induced damage mechanisms in monoclinic-ZrO2

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