Hello Raju When we do DSC, the software gives results in terms of mW/mg which is species energy input per unit time (energy flow). But if you are getting mv as signal output from the DSC instrument, typically corresponding to the voltage change as the sample is heated or cooled. To convert from mV to mW, you need to know the calibration factor of your DSC instrument, which relates voltage to power. And then calculate as follow: step - 1 Voltage mV power mW = ----------------------------------------- calibration factor mV mW Step - 2 After obtaining power in mW, divide by the sample mass in mg to get mW/mg
That explained so well...thank you for this informative piece.
Thank you dear .helped me in my master thesis
Incredibly helpful. Thank you!
Excellent explanation. It was very useful for my research.
Thank you, Dr. Mani. This is very helpful.
What can you infer about mechanical characteristics (modulus and UTS) as the material moves through Tg towards a more crystalline structure?
Very well explained mani! great
Thank you sir!
Great explanation. Can you share the information on how to do the conversion if we get the data in microvolts (uV) instead of mW/mg..?
Hello Raju
When we do DSC, the software gives results in terms of mW/mg which is species energy input per unit time (energy flow). But if you are getting mv as signal output from the DSC instrument, typically corresponding to the voltage change as the sample is heated or cooled.
To convert from mV to mW, you need to know the calibration factor of your DSC instrument, which relates voltage to power.
And then calculate as follow:
step - 1
Voltage mV
power mW = -----------------------------------------
calibration factor mV mW
Step - 2
After obtaining power in mW, divide by the sample mass in mg to get mW/mg
Wundervolle Arbeit
Thank you so much 🙇🏻♀️
Great content Dr. Mani 🔥. Hope to feature in your channel someday
Yes, sure brother ❤️
I need this PPT to share my team. Could you please help how can I download it.. or where I can get
Getting 😴