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The ZnO particles could not move freely, and they were dispersed uniformly in the nano-network.
Large defects like primary intermetallic particles could not be found at the crack initiation sites.
The low mechanical strength of these particles could not help the particles to resist the stresses within the composites.
At this stage, martensite deforms plastically and η-carbide particles could not deform because of their complex crystalline structure (orthorhombic).
Size exclusion limited to the uncharged nano-sized particles could not explain such observed UPu/UT < 1.
The particles could not have reached the satellites unless there was a major magnetic gap, says space physicist Tai Phan of the University of California, Berkeley.
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Scientists had thought the highly porous, extremely fragile particles couldn't survive on Earth.
Whereas GMS15 particles couldn't be very helpful in this regard due to the weakness of their shell which may break earlier under stresses.
It should be noticed that the particle could not be toxic by itself.
This was a main reason that rubber particle could toughen thermoplastics effectively, whereas rigid particle could not.
When the shell finally collapsed due to severe oxidation, the original soot particle shape and nanostructure also disappeared and the resulting particle could not be considered as a soot anymore.
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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com