Reaction mass of hexadecyl dihydrogen phosphate and cetyl alcohol (mono- C16 PSE and C16-OH)

A study was conducted to determine the vapour pressure of the test substance using static method, according to EU Method A.4, in compliance with GLP. During the study pressure equilibration was not achieved over 7 h therefore experimental determination of the vapour pressure was terminated. Based on available information (SDS), the vapour pressure of the individual components was estimated as less than 1 Pa. However there was suspicion that some impurities may be causing the increase in vapour observed in the experimental determination. Under the study conditions, the estimated vapour pressure of the test substance based on the individual components is determined to be <1 Pa at 20.4˚C (Chilworth, 2017).

The physical state and appearance of the test substance were visually observed during testing of other endpoint testing. The purified form of the test substance is an off white solid (Chilworth, 2017).

A study was conducted to determine the particle size distribution of the test substance, using microscopic examination and manual sieve analysis, in compliance with GLP. In the microscopic visual examination, the test substance was observed to be an amorphous non-dusting off-white solid. While using 3.2 objective lens, the particles appeared to be irregular shaped particles, in which all particles were > 2000 μm. Observation using 40 objective lens, the sample was observed to be a solid block with some broken bits, with all particles were > 2000 μm. During the sieve analysis, only 3.3 g of the sample poured into the sieve. The remaining portion of the sample remained as a solid block. All the particles that went into the sieve were > 2000 μm. Because these particles were greater than the upper limit of detection for the distribution analysis, no further testing was performed. Under the study conditions, the test substance particles were determined to be > 2000 μm (Chilworth, 2017).