J.A. Ball scite author profile

J.A. Ball

3Publications

9Citation Statements Received

63Citation Statements Given

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103

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EDF Energy (United Kingdom)

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Modelling the role of pellet crack motion in the ( r -θ) plane upon pellet-clad interaction in advanced gas reactor fuel

Haynes

Ball

Wenman

2017

Nuclear Engineering and Design

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A finite element model of pellet fragment relocation in the r-θ plane of advanced gas-cooled reactor (AGR) fuel is presented under conditions of both ‘hard’ and ‘soft’ pellet-clad interaction. The model was able to predict the additional radial displacement of fuel fragments towards the cladding as well as the stress concentration on the inner surface resulting from the azimuthal motion of pellet fragments. The model was subjected to a severe ramp in power from both full power and after a period of reduced power operation; in the former, the maximum hoop stress in the cladding was found to be increased by a factor of 1.6 as a result of modelling the pellet fragment motion. The pellet-clad interaction was found to be relatively insensitive to the number of radial pellet crack. However, it was very sensitive to both the coefficient of friction used between the clad and pellet fragments and power ramp duration

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Modelling pellet-clad mechanical interaction during extended reduced power operation in bonded nuclear fuel

Haynes

Ball

Shea

et al. 2015

Journal of Nuclear Materials

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Mechanical Properties of Advanced Gas-Cooled Reactor Stainless Steel Cladding After Irradiation

Degueldre

Fahy

Kolosov

et al. 2018

J. of Materi Eng and Perform

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The production of helium bubbles in advanced gas-cooled reactor (AGR) cladding could represent a significant hazard for both the mechanical stability and long-term storage of such materials. However, the high radioactivity of AGR cladding after operation presents a significant barrier to the scientific study of the mechanical properties of helium incorporation, said cladding typically being analyzed in industrial hot cells. An alternative non-active approach is to implant He 2+ into unused AGR cladding material via an accelerator. Here, a feasibility study of such a process, using sequential implantations of helium in AGR cladding steel with decreasing energy is carried out to mimic the buildup of He (e.g., 50 appm) that would occur for in-reactor AGR clad in layers of the order of 10 lm in depth, is described. The implanted sample is subsequently analyzed by scanning electron microscopy, nanoindentation, atomic force and ultrasonic force microscopies. As expected, the irradiated zones were affected by implantation damage (< 1 dpa). Nonetheless, such zones undergo only nanoscopic swelling and a small hardness increase ($ 10%), with no appreciable decrease in fracture strength. Thus, for this fluence and applied conditions, the integrity of the steel cladding is retained despite He 2+ implantation.

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J.A. Ball

Modelling the role of pellet crack motion in the ( r -θ) plane upon pellet-clad interaction in advanced gas reactor fuel

Modelling pellet-clad mechanical interaction during extended reduced power operation in bonded nuclear fuel

Mechanical Properties of Advanced Gas-Cooled Reactor Stainless Steel Cladding After Irradiation

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