Absolute of Cistus ladaniferus (Cistaceae) obtained from cistus concrete by heat treatment and ethanol extraction.

Administrative data

Link to relevant study record(s)

Reference

Endpoint:

explosive properties of explosives

Type of information:

experimental study

Adequacy of study:

key study

Study period:

March 20 to 24, 2014

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

guideline study

Justification for type of information:

The study was conducted according to an internationally recognised method, and under GLP. The substance is considered to be adequately characterised. Therefore full validation applies.

Qualifier:

according to guideline

Guideline:

EU Method A.14 (Explosive properties)

Version / remarks:

2008

Deviations:

no

Qualifier:

according to guideline

Guideline:

other: OECD Test Guideline No. 113 (1981) Screening test for Thermal Stability and Stability in Air

Version / remarks:

1981

Deviations:

no

Qualifier:

according to guideline

Guideline:

UN Manual of Tests and Criteria: Part I: Classification procedures, test methods and criteria relating to explosives of Class 1

Version / remarks:

5th edition, 2009

Deviations:

no

Principles of method if other than guideline:

Not applicable

GLP compliance:

yes (incl. QA statement)

Remarks:

inspected on 22 and 23 January 2013 / signed on 22 March 2013

Parameter:

other: Thermal stability (DSC)

Remarks on result:

negative (not further specified)

Thermal stability (DSC)

In the temperature range at 40 - 70°C an endothermic effect can be observed. At 160 - 230°C a second endothermic effect was detected. The temperature signal at high ranges could be caused by a gas formation. In such ranges a vapor or gas formation (within the crucible) followed by a rapid condensation when the test item reaches physically the walls of the crucible could be a reason why the temperature signal increases and decreases so rapidly at high ranges. However, the pressure measurement is not possible using the DSC. After the measurement the crucible was tight otherwise it would be reflected in the results as well as observing the crucible itself. The test item was decomposed.

 

Table 4.14/1: Results of the DSC-measurements

 

No.	Sample weight / mm	Onset /°C	Energy /J/g.
PN6405	9.97	40 180	10 (endothermic) 20 (endothermic)
PN6423	13.37	40 160	10 (endothermic) 20 (endothermic)

 

The DSC analysis shows no decomposition of the test item from room temperature to 500°C. Due to the decomposition energy being < 500 J/g, it can be stated that the test item CISTUS ABSOLUTE SIS has ni explosive properties according to EC 440/2008, Part A, A 14.

Interpretation of results:

non explosive

Remarks:

Migrated information

Conclusions:

LOW potential for explosive properties.

Executive summary:

A DSC-screening test was conducted under GLP according to standard EU/UN/OECD methods to determine the thermal stability of the test item.

Under the test conditions, the analysis shows no decomposition of the test item from room temperature to 500 °C. The decomposition energy being < 500 J/g, it can be stated that the test item has LOW potential for explosive properties.

Description of key information

LOW potential for explosive properties

Key value for chemical safety assessment

Explosiveness:

non explosive

Additional information

A DSC-screening test was conducted under GLP according to standard EU/UN/OECD methods to determine the thermal stability of the test item.

Under the test conditions, the analysis shows no decomposition of the test item from room temperature to 500 °C. The decomposition energy being < 500 J/g, it can be stated that the test item has LOW potential for explosive properties.

Justification for classification or non-classification

In accordance with column 2 of REACh Annex VII, an explosive properties study does not need to be conducted if an organic substance or a homogenous mixture of organic substances contains chemical groups associated with explosive properties, but the exothermic decomposition energy is less than 500 J/g and the onset of exothermic decomposition is below 500 °C.

In addition, according to the screening procedure listed in appendix 6 to the UN Recommendations on the Transport of Dangerous Goods - Manual of Tests and Criteria, 6th revised edition, 2015), the exothermic decomposition energy may be determined using a suitable calorimetric technique and DSC is strongly recommended to identify potential hazards connected with the substance (see the ECHA endpoint specific guidance on information requirements, R.7a, v6.0, July 2017, §R.7.1.11)

Considering the poor knowledge on the composition of the registered substance, a DSC screening test has been conducted on the substance and the results showed that no explosive properties are anticipated.

Therefore, explosive properties are not anticipated for the registered substance and the acceptance procedure for Class 1 explosives shall not apply. No further testing was considered.