BUCHI Melting Point M-565 User Manual

6 Operation

36

Melting Point M-565 Operation Manual, Version D

6 .2 .7 .3 Melting point thermodynamic

• In the settings, change the

melting result to

Melting

point thermodynamic
and press

Save.

Experimental measurements
have shown that in most cas-
es a good approximation to
the factor for thermodynamic
correction of the BUCHI Melt-
ing Point M-565 is a value of
~1.5.

Empirical calculation for
thermodynamic correction is
recommended when more ac-
curate results are required for
specific substances.

In order to obtain a thermodynamic melting point result within the accuracy of the unit, the following
steps are advised:
• Perform complete automatic pharmacopoeia melting point determinations on your sample at three

different temperature ramping rates: 0.2, 0.5, 1.0 °C/min.

• Plot the resulting melting points versus the square root of their corresponding temperature ramping

rate (mp pharmacopoeia vs. gradient )–a linear dependence should be observed.

• The slope is the thermodynamic correction factor. Enter this value in the setting 6.6 “Thermody-

namic correction.”

An example of this calculation procedure is shown below:

Gradient, r [°C/min]

Melting Point [°C]

0.2

236.1

0.5

236.6

1.0

236.9

236.9
236.8
236.7
236.6
236.5
236.4
236.3
236.2
236.1
236.0

0

0.2

0.4

0.6

0.8

1

1.2

gradient

mp pharmacopoeia vs. gradient

y = 1.2684 x + 235.52

“Melting point temperature vs. gradient”
for a caffeine sample melted at 0.2, 0.5,
and 1.0 °C/min. The slope of the straight
line, factor for thermodynamic correction
= 1.3, is programmed into the setting of
instrument for this compound.

Fig. 6.2: “Melting point temperature vs.

gradient

”