Reaction products of stearic acid with 2-aminoethanol, maleic anhydride and sodium sulphite

Preliminary Test

Starting at 275°C, the weight of the sample decreased significantly. At 333°C, the sample weight had decreased by 25%. After the experiment, a black molten residue remained in the sample container (original colour: off-white). The change of the colour indicated reaction and/or decomposition of the test item.

Main Study

An endothermic peak was observed between 50°C and 125°C in Experiment 1. Based on the weight loss observed during the preliminary test between 50°C and 125°C the endothermic effect was most likely due to evaporation of volatile components. An endothermic peak was observed between 225°C and 300°C. The endothermic effect was most likely obtained due to melting or reaction and/or decomposition of the test item. After the experiment, a black/brown molten residue remained in the sample container.

To investigate the endothermic peak between 50°C and 125°C, a repeated heating cycle was applied in Experiment 2. With the first heating no changes were observed compared with Experiment 1. During cooling, exothermic peaks between 50°C and 80°C were found (results are archived in the raw data). Based on the results found in the preliminary test, the reason for these effects is unknown. With the second heating, an endothermic peak was observed between 50°C and 100°C. The reason for this effect was unknown. The reason for the exothermic effect observed between 150°C and 175°C is unknown. After the experiment, a dark brown molten residue remained in the sample container.

In order to investigate endothermic peaks between 50°C and 125°C and between 225°C and 300°C, Experiment 3 was stopped directly after the first endothermic peak and Experiment 4 was stopped before the second endothermic peak. After Experiment 3, the sample appeared to have been unchanged, i.e. no melting of the test item was observed. This endothermic peak is most likely due to evaporation of volatile components. After Experiment 4, a brownish coagulated residue remained in the sample container, indicating that the test item reacted and/or decomposed before melting.

Preliminary Test

Starting at 275°C, the weight of the sample decreased significantly. At 333°C, the sample weight had decreased by 25%. After the experiment, a black molten residue remained in the sample container (original colour: off-white). The change of the colour indicated reaction and/or decomposition of the test item.

Main Study

An endothermic peak was observed between 50°C and 125°C in Experiment 1. Based on the weight loss observed during the preliminary test between 50°C and 125°C the endothermic effect was most likely due to evaporation of volatile components. An endothermic peak was observed between 225°C and 300°C. The endothermic effect was most likely obtained due to melting or reaction and/or decomposition of the test item. After the experiment, a black/brown molten residue remained in the sample container.

To investigate the endothermic peak between 50°C and 125°C, a repeated heating cycle was applied in Experiment 2. With the first heating no changes were observed compared with Experiment 1. During cooling, exothermic peaks between 50°C and 80°C were found (results are archived in the raw data). Based on the results found in the preliminary test, the reason for these effects is unknown. With the second heating, an endothermic peak was observed between 50°C and 100°C. The reason for this effect was unknown. The reason for the exothermic effect observed between 150°C and 175°C is unknown. After the experiment, a dark brown molten residue remained in the sample container.

In order to investigate endothermic peaks between 50°C and 125°C and between 225°C and 300°C, Experiment 3 was stopped directly after the first endothermic peak and Experiment 4 was stopped before the second endothermic peak. After Experiment 3, the sample appeared to have been unchanged, i.e. no melting of the test item was observed. This endothermic peak is most likely due to evaporation of volatile components. After Experiment 4, a brownish coagulated residue remained in the sample container, indicating that the test item reacted and/or decomposed before melting.

The individual measurements were obtained with an accuracy of < 0.02 g/cm3. According to the guideline, the density of the test item is given as the mean value.

The results of the isothermal TGA analysis for the test item and the vapour pressure at 20°C and 25°C are given in the tables below. The vapour pressure regression curve of the log P_T of the test item as function of the reciprocal temperatures was: log P_T = -3340 × 1/T + 9.01 (r = 0.994, n = 8).

Results of the Vapour pressure Isothermal TGA Analysis

Vapour Pressure of the Test Item

The flame of the gas burner did ignite the test item pile. The test item burned with an orange flame and turned into a black residue. White smoke was observed. After removal of the ignition source, the flame extinguished after 50 seconds and no propagation of combustion was observed.

A test item is considered an oxidizing substance when the burning time of a mixture of the substance and cellulose in a 4:1 or 1:1 sample-to-cellulose ratio (by mass) is less than or equal to the mean burning time of a 3:7 reference mixture (by mass) of potassium bromate and cellulose. None of the components of the test item does contain groups that act as an oxidizing agent. The oxygen atoms that are present in the molecular structure of the test item are chemically bonded to carbon or hydrogen. The test item contains a SO3 group. The group is relatively small compared to the molecular structure of the test item. Based on this the test item is considered to pose no function as oxidizing agent. In conclusion, the test item has no oxidizing properties.

No endothermic or exothermic effect of the test item was observed between 20°C and 400°C. It demonstrated that the test item is not self-ignitable. After the experiment, the test item had turned into a charred residue. It indicated that the test item had decomposed and/or reacted during the experiment.

The results of the test on the determination of the surface tension of the test solution are given in the table below.