Jouko Hintikka scite author profile

Oxide glasses are an integral part of the modern world, but their usefulness can be limited by their characteristic brittleness at room temperature. We show that amorphous aluminum oxide can permanently deform without fracture at room temperature and high strain rate by a viscous creep mechanism. These thin-films can reach flow stress at room temperature and can flow plastically up to a total elongation of 100%, provided that the material is dense and free of geometrical flaws. Our study demonstrates a much higher ductility for an amorphous oxide at low temperature than previous observations. This discovery may facilitate the realization of damage-tolerant glass materials that contribute in new ways, with the potential to improve the mechanical resistance and reliability of applications such as electronic devices and batteries.

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Fretting-induced friction and wear in large flat-on-flat contact with quenched and tempered steel

Hintikka¹,

Lehtovaara²,

Mäntylä

2015

Tribology International

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Stable and unstable friction in fretting contacts

Hintikka

Mäntylä

Vaara

et al. 2019

Tribology International

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Normal displacements in non-Coulomb friction conditions during fretting

Hintikka

Lehtovaara

Mäntylä

2016

Tribology International

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Jouko Hintikka

Highly ductile amorphous oxide at room temperature and high strain rate

Fretting-induced friction and wear in large flat-on-flat contact with quenched and tempered steel

Stable and unstable friction in fretting contacts

Normal displacements in non-Coulomb friction conditions during fretting

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