Feng Liu scite author profile

Nanocrystalline ceramics offer interesting and useful physical properties attributed to their inherent large volume fraction of grain boundaries. At the same time, these materials are highly unstable, being subjected to severe coarsening when exposed at moderate to high temperatures, limiting operating temperatures and disabling processing conditions. In this work, we designed highly stable nanocrystalline yttria stabilized zirconia (YSZ) by targeting a decrease of average grain boundary (GB) energy, affecting both driving force for growth and mobility of the boundaries. The design was based on fundamental equations governing thermodynamics of nanocrystals, and enabled the selection of lanthanum as an effective dopant which segregates to grain boundaries and lowers the average energy of YSZ boundaries to half. While this would be already responsible for significant coarsening reduction, we further experimentally demonstrate that the GB energy decreases continuously during grain growth caused by the enrichment of boundaries with dopant, enhancing further the stability of the boundaries. The designed composition showed impressive resistance to grain growth at 1100°C as compared to the undoped YSZ and opens the perspective for similar design in other ceramics.

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A new approach to quantitative analysis of bainitic transformation in a superbainite steel

Liu

Wang

et al. 2013

Scripta Materialia

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Mobile relay in LTE-advanced systems

et al. 2013

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Modeling the entire progressive failure process of rock slopes using a strength-based criterion

Yang

Liu

et al. 2020

Computers and Geotechnics

120

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Feng Liu

Stress-induced recrystallization mechanism for grain refinement in highly undercooled superalloy

Grain growth resistant nanocrystalline zirconia by targeting zero grain boundary energies

A new approach to quantitative analysis of bainitic transformation in a superbainite steel

Mobile relay in LTE-advanced systems

Modeling the entire progressive failure process of rock slopes using a strength-based criterion

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