Dipentylammonium dipentyldithiocarbamate

Administrative data

Description of key information

Appearance / physical state / colour

Key Study

According to the Certificate of Analysis (provided by the Sponsor), the test material has been determined to be a yellow liquid (Vanderbilt, 2018).

 

Melting / freezing point

Key Study

The freezing point of the test material was determined in a study performed to the standardised guideline EU Test Method A.1, under GLP conditions. The freezing point of the test material has been determined to be < -20 °C (Intertek, 2018).

 

Boiling point

Key Study

The boiling point of the test material was determined in a study performed to the standardised guideline EU Test Method A.2, under GLP conditions. Under the conditions of the study, the boiling point of the test material has been determined to be 145.4 °C (Intertek, 2018).

 

Density

Key study

The relative density of the test material was determined in a study performed to the standardised guideline EU Test Method A.3, under GLP conditions. Under the conditions of the study, the relative density of the test material has been determined to be 0.94 ± 0.01 (Intertek, 2018).

 

Particle size distribution (Granulometry)

Waiver

The study is technically not feasible; the study does not need tot be conducted because the substance is marketed or used in a non solid or granular form (the substance is a liquid).

 

Vapour pressure

Key Study

The vapour pressure of the test material was determined in a study performed to the standardised guideline EU Test Method A.4, under GLP conditions.  Under the conditions of the study, the vapour pressure of the test material has been determined to be 44.5 Pa at 20 °C (Intertek, 2018).

 

Partition coefficient

Key Study

Under the conditions of the study, the partition coefficient (LogPow) of the test material has been determined to be 2.4 via calculation method, using the octanol solubility assessment and 1.53 using the shake flask method.

The difference between the two LogP_owresults indicated that surface activity may have impacted the shake flask results to some extent and the estimated LogP_owhas been reported.

 

Water solubility

Key Study

The water solubility of the test material was determined in a study performed to the standardised guideline EU Test Method A.6, under GLP conditions.  Under the conditions of the study, the water solubility of the test material has been determined to be 902.4 mg/L (Intertek, 2018).

 

Surface tension

Key Study

The surface tension of the test material was determined in a study performed to the standardised guideline EU Test Method A.5, under GLP conditions.  Under the conditions of the study, the surface tension of the test material has been determined to be 46.3 ± 0.4 mN/m at 25.0 ± 0.5 °C.  The concentration of the test solutions measured was 552.9 mg/L at 90 % giving a total concentration of 614 mg/L (Intertek, 2018).

 

Flash point

Key Study

The flash point of the test material was determined in a study performed to the standardised guideline EU Test Method A.9, under GLP conditions.  Under the conditions of the study, the flash point of the test material has been determined to be 69.5 °C at an atmospheric pressure of 102.7 kPa (Intertek, 2018).

 

Auto flammability

Key Study

The auto flammability of the test material was determined in a study performed to the standardised guideline EU Test Method A.15, under GLP conditions.  Under the conditions of the study, the auto flammability of the test material has been determined to be 263 °C at an atmospheric pressure of 102.8 kPa (Intertek, 2018).

 

Flammability

Waiver

The study is technically not feasible; the study does not need to be conducted because the substance is a liquid.

 

Explosiveness

Key Study

The explosive properties of the test material were determined in a study performed to the standardised guideline EU Test Method A.14, under GLP conditions.  Under the conditions of the study, the explosive properties of the test material has been determined to be negative (Intertek, 2018).

 

Oxidising properties

Key Study

The oxidising properties of the test material were determined in a study performed to the standardised guideline EU Test Method A.21, under GLP conditions.  Under the conditions of the study, the test material is not an oxidising liquid (Intertek, 2018).

Additional information