I'd like to use the Williams-Landel-Ferry equation to create a mastercurve.
I'd like to have a frequency range of 1 to 1000Hz at 23 degrees. The DMA machine has a frequency range of 1 to 200Hz. Therefore, I did a temperature sweep from 23 to 140 degrees Celsius. I think I made an error here. I think I should have decreased the temperature (-50 degrees Celsius to 40 degrees or so). Could anyone explain this?
I've got a second question about the WLF equation: How do I calculate C1 and C2?
log at = - C1 (T-T0) / (C2 + T - T0).
Is in this equation T0 the temperature I want to make the master curve for (so in my case 23 degrees)?
And is the shift factor at a time, so I can simply use a fast fourier transform to go to the frequency domain?
Thank you for your response
I'd like to have a frequency range of 1 to 1000Hz at 23 degrees. The DMA machine has a frequency range of 1 to 200Hz. Therefore, I did a temperature sweep from 23 to 140 degrees Celsius. I think I made an error here. I think I should have decreased the temperature (-50 degrees Celsius to 40 degrees or so). Could anyone explain this?
I've got a second question about the WLF equation: How do I calculate C1 and C2?
log at = - C1 (T-T0) / (C2 + T - T0).
Is in this equation T0 the temperature I want to make the master curve for (so in my case 23 degrees)?
And is the shift factor at a time, so I can simply use a fast fourier transform to go to the frequency domain?
Thank you for your response