Polyepitaxial grain matching to study the oxidation of uranium dioxide

Although the principal physical behaviour of a material is inherently connected to its fundamental crystal structure, the behaviours observed in the real-world are often driven by the microstructure, which for many polycrystalline materials, equates to the size and shape of the constituent crystal g...

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Published in	Npj Materials degradation Vol. 8; no. 1; pp. 68 - 6
Main Authors	Wasik, Jacek, Sutcliffe, Joseph, Podor, Renaud, Lewis, Jarrod, Darnbrough, James Edward, Rennie, Sophie, Akbar Hussain, Syed, Bell, Christopher, Chaney, Daniel Alexander, Griffiths, Gareth, Harding, Lottie Mae, Legg, Florence, Lawrence Bright, Eleanor, Nicholls, Rebecca, Sasikumar, Yadukrishnan, Siberry, Angus, Smith, Philip, Springell, Ross
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 11.07.2024 Nature Publishing Group Nature Portfolio
Subjects	639/301/119/544 639/301/299/892 639/925/357/1018 639/925/357/551 Chemistry and Materials Science Corrosion and Coatings Crystal structure Electrochemistry Grain size High temperature Investigations Laboratories Materials Science Nuclear fission Nuclear fuels Oxidation Phase transitions Structural Materials Synthesis Thin films Tribology Uranium Uranium dioxide
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Abstract	Although the principal physical behaviour of a material is inherently connected to its fundamental crystal structure, the behaviours observed in the real-world are often driven by the microstructure, which for many polycrystalline materials, equates to the size and shape of the constituent crystal grains. Here we highlight a cutting edge synthesis route to the controlled engineering of grain structures in thin films and the simplification of associated 3-dimensional problems to less complex 2D ones. This has been applied to the actinide ceramic, uranium dioxide, to replicate structures typical in nuclear fission fuel pellets, in order to investigate the oxidation and subsequent transformation of cubic UO 2 to orthorhombic U 3 O 8 . This article shows how this synthesis approach could be utilised to investigate a range of phenomena, affected by grain morphology, and highlights some unusual results in the oxidation behaviour of UO 2 , regarding the phase transition to U 3 O 8 .
AbstractList	Although the principal physical behaviour of a material is inherently connected to its fundamental crystal structure, the behaviours observed in the real-world are often driven by the microstructure, which for many polycrystalline materials, equates to the size and shape of the constituent crystal grains. Here we highlight a cutting edge synthesis route to the controlled engineering of grain structures in thin films and the simplification of associated 3-dimensional problems to less complex 2D ones. This has been applied to the actinide ceramic, uranium dioxide, to replicate structures typical in nuclear fission fuel pellets, in order to investigate the oxidation and subsequent transformation of cubic UO 2 to orthorhombic U 3 O 8 . This article shows how this synthesis approach could be utilised to investigate a range of phenomena, affected by grain morphology, and highlights some unusual results in the oxidation behaviour of UO 2 , regarding the phase transition to U 3 O 8 . Abstract Although the principal physical behaviour of a material is inherently connected to its fundamental crystal structure, the behaviours observed in the real-world are often driven by the microstructure, which for many polycrystalline materials, equates to the size and shape of the constituent crystal grains. Here we highlight a cutting edge synthesis route to the controlled engineering of grain structures in thin films and the simplification of associated 3-dimensional problems to less complex 2D ones. This has been applied to the actinide ceramic, uranium dioxide, to replicate structures typical in nuclear fission fuel pellets, in order to investigate the oxidation and subsequent transformation of cubic UO 2 to orthorhombic U 3 O 8 . This article shows how this synthesis approach could be utilised to investigate a range of phenomena, affected by grain morphology, and highlights some unusual results in the oxidation behaviour of UO 2 , regarding the phase transition to U 3 O 8 . Although the principal physical behaviour of a material is inherently connected to its fundamental crystal structure, the behaviours observed in the real-world are often driven by the microstructure, which for many polycrystalline materials, equates to the size and shape of the constituent crystal grains. Here we highlight a cutting edge synthesis route to the controlled engineering of grain structures in thin films and the simplification of associated 3-dimensional problems to less complex 2D ones. This has been applied to the actinide ceramic, uranium dioxide, to replicate structures typical in nuclear fission fuel pellets, in order to investigate the oxidation and subsequent transformation of cubic UO2 to orthorhombic U3O8. This article shows how this synthesis approach could be utilised to investigate a range of phenomena, affected by grain morphology, and highlights some unusual results in the oxidation behaviour of UO2, regarding the phase transition to U3O8. Abstract Although the principal physical behaviour of a material is inherently connected to its fundamental crystal structure, the behaviours observed in the real-world are often driven by the microstructure, which for many polycrystalline materials, equates to the size and shape of the constituent crystal grains. Here we highlight a cutting edge synthesis route to the controlled engineering of grain structures in thin films and the simplification of associated 3-dimensional problems to less complex 2D ones. This has been applied to the actinide ceramic, uranium dioxide, to replicate structures typical in nuclear fission fuel pellets, in order to investigate the oxidation and subsequent transformation of cubic UO2 to orthorhombic U3O8. This article shows how this synthesis approach could be utilised to investigate a range of phenomena, affected by grain morphology, and highlights some unusual results in the oxidation behaviour of UO2, regarding the phase transition to U3O8.
ArticleNumber	68
Author	Lawrence Bright, Eleanor Legg, Florence Bell, Christopher Akbar Hussain, Syed Darnbrough, James Edward Griffiths, Gareth Nicholls, Rebecca Chaney, Daniel Alexander Harding, Lottie Mae Rennie, Sophie Smith, Philip Wasik, Jacek Siberry, Angus Springell, Ross Podor, Renaud Sutcliffe, Joseph Lewis, Jarrod Sasikumar, Yadukrishnan
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Snippet	Although the principal physical behaviour of a material is inherently connected to its fundamental crystal structure, the behaviours observed in the real-world... Abstract Although the principal physical behaviour of a material is inherently connected to its fundamental crystal structure, the behaviours observed in the...
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SubjectTerms	639/301/119/544 639/301/299/892 639/925/357/1018 639/925/357/551 Chemistry and Materials Science Corrosion and Coatings Crystal structure Electrochemistry Grain size High temperature Investigations Laboratories Materials Science Nuclear fission Nuclear fuels Oxidation Phase transitions Structural Materials Synthesis Thin films Tribology Uranium Uranium dioxide
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Title	Polyepitaxial grain matching to study the oxidation of uranium dioxide
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