Large increase in fracture resistance of stishovite with crack extension less than one micrometer

نویسندگان

  • Kimiko Yoshida
  • Fumihiro Wakai
  • Norimasa Nishiyama
  • Risako Sekine
  • Yutaka Shinoda
  • Takashi Akatsu
  • Takashi Nagoshi
  • Masato Sone
چکیده

The development of strong, tough, and damage-tolerant ceramics requires nano/microstructure design to utilize toughening mechanisms operating at different length scales. The toughening mechanisms so far known are effective in micro-scale, then, they require the crack extension of more than a few micrometers to increase the fracture resistance. Here, we developed a micro-mechanical test method using micro-cantilever beam specimens to determine the very early part of resistance-curve of nanocrystalline SiO2 stishovite, which exhibited fracture-induced amorphization. We revealed that this novel toughening mechanism was effective even at length scale of nanometer due to narrow transformation zone width of a few tens of nanometers and large dilatational strain (from 60 to 95%) associated with the transition of crystal to amorphous state. This testing method will be a powerful tool to search for toughening mechanisms that may operate at nanoscale for attaining both reliability and strength of structural materials.

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عنوان ژورنال:

دوره 5  شماره 

صفحات  -

تاریخ انتشار 2015