Registration Dossier

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Please be aware that this old REACH registration data factsheet is no longer maintained; it remains frozen as of 19th May 2023.

The new ECHA CHEM database has been released by ECHA, and it now contains all REACH registration data. There are more details on the transition of ECHA's published data to ECHA CHEM here.

Diss Factsheets

Physical & Chemical properties

Endpoint summary

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 tan-coloured paste to semi-solid substance (Vanderbilt, 2018).

 

Melting / freezing point

Key Study

In a study performed to the standardised guideline OECD 102, under GLP conditions, the melting point of the test material has been determined to be less than -50 °C (Springborn Laboratories, Inc., 1998).

 

Boiling point

Key Study

In a study performed to the standardised guideline EU Test Method A.2 under GLP conditions, the boiling point of the test material has been determined to be 289.7 °C (Intertek, 2018).

 

Density

Key study

In a study performed to the standardised guideline EU Test Method A.3 under GLP conditions, the relative density of the test substance has been determined to be 1.01 ± 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

Determination of the vapour pressure for the highly viscous test item was “not technically feasible” because the substance could not be loaded into the testing apparatus (Intertek, 2018).

 

Partition coefficient

Key Study

In a study performed to the standardised guidelines EU Test Method A.8 and A.23, under GLP conditions. The initial preparation of test solutions for determination of the partition coefficient was performed using the shake flask method, however subsequent surface tension analysis determined that the test item was surface active, and thus this method was not appropriate. The octanol solubility stirring test was used to prepare the test solutions for LC-MS analysis and the results were used in conjunction with the solubility results from the surface tension testing to estimate the partition coefficient. The partition coefficient of the test material has been determined to be 1.51 (Component 1), and 2.73 (Component 2) (Intertek, 2018).

 

Water solubility

Key Study

In a study performed to the standardised guideline OECD 105, under GLP conditions, the water solubility of the test material in distilled water has been determined to be 10.177 g/L (Springborn Laboratories, Inc., 2000).

 

Surface tension

Key Study

In a study performed to the standardised guideline EU Test Method A.5 under GLP conditions, the surface tension of the test material has been determined to be 40.14 ± 0.4 mM/m (Intertek, 2018).

 

Flash point

Key Study

In a study performed to the standardised guideline EU Test Method A.9 under GLP conditions, the flash point of the test material has been determined to be 106 °C (Intertek, 2018).

 

Auto flammability

Key Study

In a study performed to the standardised guideline EU Test Method A.15 under GLP conditions, the auto flammability of the test material has been determined to be 473 °C (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

In a study performed to the standardised guideline EU Test Method A.14 under GLP conditions, the explosiveness of the test material has been determined to be negative in both the BAM Fallhammer and Koenen Tube test (Intertek, 2018).

 

Oxidising properties

Key Study

In a study performed to the standardised guideline EU Test Method A.21 under GLP conditions, the oxidizing properties of the test material has been determined to be negative (Intertek, 2018).

Additional information