Fatty acids, C18 unsatd., mono- and diesters with triethanolamine, di-Me sulfate quaternized

Administrative data

Link to relevant study record(s)

Referenceopen allclose all

Reference 1

Endpoint:

oxidising solids

Type of information:

read-across from supporting substance (structural analogue or surrogate)

Adequacy of study:

supporting study

Reason / purpose for cross-reference:

read-across source

Reason / purpose for cross-reference:

read-across: supporting information

Sample tested:

other: modelling

Parameter:

other: heat of decomposition

Remarks on result:

other: see "Any other information on results"

Structural aspects: Initially, it can be stated that partially unsaturated TEA-Esterquat does not contain any typically reactive structural groups that would indicate an exothermal reaction with combustible material. Partially unsaturated TEA-Esterquat is a mixture of mono-, di- and triesters with chain lengths of C16, C18 and C18 (unsaturated). In this context, it is explicity noted that the components of partially unsaturated TEA-Esterquat contain an identical subset of structural increments (Benson groups), which is why in this statement, no further differentiation is made between the different ester chains and the C18 -chain length is used as the chemical lead. The unsaturated chain is an exemption, with the Benson groups (CH2 -(C, =C) and =C-(2C)) which however can be considered not to be reactive structural groups.

Maximum heat of decomposition

Partially unsaturated TEA-Esterquat*: -411 cal/g (interploated value)

Dimethylsulfuric acid**: -786 cal/g (interploated value)

Monoester: -363 cal/g

Diester: -352 cal/g

Triester: -309 cal/g

*calculation performed for the product partially unsaturated TEA-Esterquat as a mixture of the key identified individual components

**calculation performed for each key identified individual components of the product partially unsaturated TEA-Esterquat

This is a measure of the energy to be released from the material itself, and has been shown to be highly correlated with the tendency of a material to deflagrate or detonate. A high rating is assigned by CHETAH if the calculated maximum enthalpy of decomposition is more exothermic than 700 cal/g (2929 J/g).

Difference between heat of combustion and heat of decomposition

Partially unsaturated TEA-Esterquat*: -7181 cal/g (interploated value)

Dimethylsulfuric acid**: -1681 cal/g (interploated value)

Monoester: -7841 cal/g

Diester: -8406 cal/g

Triester: -8654 cal/g

The heat of combustion forpartially unsaturated TEA-Esterquat was calculated as -7592 cal/g (interploated value). Since the heat of decomposition is much lower, this can be seen as an indication of a low tendency to be plosive.

Oxygen Balance

Partially unsaturated TEA-Esterquat*: -243%

Dimethylsulfuric acid**: -63%

Monoester: -264%

Diester: -283%

Triester: -291%

A compound with exactly the amount of oxygen required for total combustion has an oxygen balance of 100%. Thus a compound with a negative oxygen balance is oxygen deficient. Experience has shown that this value is primarily of relevance for compounds consisting of C, H, N, and O.

Interpretation of results:

GHS criteria not met

Conclusions:

Structural aspects and estimated thermodynamic properties indicate that the substance must not be considered to have oxidising properties.