Hi, Love your videos, they've really helped me understand the basic science principles relevant to my field of interest! Just a query I hoped you might be able to help with... material hardness vs strength - are these essentially one in the same thing in terms of the underlying mechanism of material deformation? Just that surface scratches occur as a result of very focal stresses at the surface of a material, causing local deformation that doesn't dissipate through the entire crystal/material? Is hardness and strength of a material therefore generally proportionate, if the material hasn't been worked in such a way so as to change surface properties? Hope this makes some sense!? Much appreciated
Could you tell me any real-life applications of Deformation of a thin plate and/or Linear Elasticity, i already have a condenser microphone and thermoplastic thermoforming Thanks a lot
Thank you so much for the explanation. It's so helpful!
Hi,
Love your videos, they've really helped me understand the basic science principles relevant to my field of interest!
Just a query I hoped you might be able to help with... material hardness vs strength - are these essentially one in the same thing in terms of the underlying mechanism of material deformation? Just that surface scratches occur as a result of very focal stresses at the surface of a material, causing local deformation that doesn't dissipate through the entire crystal/material? Is hardness and strength of a material therefore generally proportionate, if the material hasn't been worked in such a way so as to change surface properties?
Hope this makes some sense!?
Much appreciated
Could you tell me any real-life applications of Deformation of a thin plate and/or Linear Elasticity, i already have a condenser microphone and thermoplastic thermoforming
Thanks a lot