Thank you so much! That image showing the deformation of the sample according to the rotation of the plate, expressed as a sinusoidal graph, made me understand very easily the strain/amplitude
Nice presentation! @31:44 Glass doesn't really flow to that extent at room temperature and it's a common myth. Ref: E.D. Zanotto, ‘Do cathedral glasses flow?’, American Journal of Physics, 66, 392-395 (1998).
Question: Once I find the LVER, which value do I use for the frequency sweep? The lower, middle or higher value from the strain range? Or it doesn't matter once is inside the range
About glass windows that flow... It is a myth when you talk about old cathedrals. There are even articles talking about it. Those windows have a wider base (compare to the top) because of the fabrication techniques.
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Thank you so much! That image showing the deformation of the sample according to the rotation of the plate, expressed as a sinusoidal graph, made me understand very easily the strain/amplitude
Nice presentation! @31:44 Glass doesn't really flow to that extent at room temperature and it's a common myth. Ref: E.D. Zanotto, ‘Do cathedral glasses flow?’, American Journal of Physics, 66, 392-395 (1998).
Great video!
Question: Once I find the LVER, which value do I use for the frequency sweep? The lower, middle or higher value from the strain range? Or it doesn't matter once is inside the range
How do you get the gel strength from the amplitude sweep data?
Thank you
About glass windows that flow... It is a myth when you talk about old cathedrals. There are even articles talking about it. Those windows have a wider base (compare to the top) because of the fabrication techniques.
Yes, I just posted the link to the paper above.
Thank you..
coprehensive, super presentation