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Explosiveness

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Endpoint:
explosiveness, other
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
Key result
Parameter:
other: heat of decomposition
Remarks on result:
negative (not further specified)
Remarks:
for details 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 a tendency of violent decomposition. 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-EQ

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 for partially 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 is not considered to have explosive properties.
Endpoint:
explosive properties of explosives
Data waiving:
study scientifically not necessary / other information available
Justification for data waiving:
the study does not need to be conducted because there are no chemical groups present in the molecule which are associated with explosive properties

Description of key information

There is no indication for explosive properties of Fatty acids, C18 unsatd., mono and diester with triethanolamine , di-Me sulfate-quaternized as the substance does not contain any structural groups associated with explosive properties.

Key value for chemical safety assessment

Explosiveness:
non explosive

Additional information

According to column 2 of REACH Annex VII, testing of explosive properties does not need to be conducted. The substance does not contain any structural groups known to be correlated with a particular explosion hazard. In addition, the thermodynamic calculations for the read-across substance partially unsaturated TEA-Esterquat indicate that the heat of decomposition and the comparison with the heat of combustion does not necessitate explosivity to be expected. Finally, the overall oxygen balance is negative. In conclusion, the substance is not considered to have explosive properties.

Justification for classification or non-classification

There is no indication for explosive properties of Fatty acids, C18 unsatd., mono and diester with triethanolamine , di-Me sulfate-quaternized as the substance does not contain any structural groups associated with explosive properties.