Deformation and fracture of soda-lime-silica glass under tension by molecular dynamics simulation(<Feature>Fracture and Related Phenomena of Glasses)

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概要

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• The deformation and fracture of a soda-lime-silica glass were investigated under tension by molecular dynamics simulation. The process of the deformation consisted of elastic deformation, flow, and expansion accompanied with flow in the order before the glass fractured. The main structural change on each deformation was the expansion of Si-O-(Al, Si) angle, change of network rings, and growth of cavity. The cavities were generated in the region where non-bridging oxygen ions clustered and grew up in the region where Ca ions clustered in addition to the clustered non-bridging oxygen ions. The fracture time became shorter and the fracture strain and volume decreased with increasing tension.

• 社団法人日本セラミックス協会の論文
• 2008-08-01

著者

• ITO Setsuro

  Research Center, Asahi Glass Co., Ltd.

• Ito Setsuro

  Research Center Asahi Glass Co. Ltd.

• Taniguchi Taketoshi

  Research Center Asahi Glass Co. Ltd.

関連論文

• Fabrication of Optically Active Er^-Doped Bi_2O_3-SiO_2 Glass Thin Films by Pulsed Laser Deposition
• Deformation and fracture of soda-lime-silica glass under tension by molecular dynamics simulation(Fracture and Related Phenomena of Glasses)

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