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Diss Factsheets

Physical & Chemical properties

Additional physico-chemical information

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Administrative data

Link to relevant study record(s)

Reference
Endpoint:
other: Self-reactivity
Type of information:
experimental study
Adequacy of study:
supporting study
Study period:
10 November 2010 - 11 November 2010
Reliability:
4 (not assignable)
Rationale for reliability incl. deficiencies:
other: Study conducted in accordance with generally accepted scientific principles, with incomplete reporting or methodological deficiencies. There is not enough information contained within the summary report to accurately assign reliability.
Qualifier:
according to guideline
Guideline:
other: Japanese Fire Defence Law’s Screening Test for Self-reactivity
GLP compliance:
not specified
Results:
Not hazardous

Study with Standard Substance

Substance Name

DNT

BPO

Purity (%)

> 99 %

 

Temp. at the Start of Heating (°C)

Heat Value (J/g)

Temp. at the Start of Heating (°C)

Heat Value (J/g)

1st

323.4

3853

106.1

1159

2nd

324.0

3705

105.3

1202

3rd

323.4

3745

106.3

1209

4th

323.9

3790

107.4

1507

5th

323.6

3806

106.1

1408

Average

323.7

3780

106.2

1297

 

Study with test article

 

Temp. at the Start of Heating (°C)

Heat Value (J/g)

1st

148.8

155

2nd

144.4

202

3rd

155.1

162

4th

153.0

138

5th

145.3

130

Average

149.3

157.4

Conclusions:
It was concluded under the conditions of this study that the material is not hazardous.
Executive summary:

The substance was subjected to a Thermal Analysis Test in accordance with the Japanese Fire Defence Law’s Screening Test for Self-reactivity.

The properties of the test material were investigated using a differential scanning calorimeter and comparison with the standard substances DNT and BPO. Under the conditions of the study, the test substance was determined to be devoid of self-reactive properties.

Description of key information

The test substance was determined to be devoid of self-reactive properties.

Additional information

In a study submitted as supporting information, the substance was subjected to a Thermal Analysis Test in accordance with the Japanese Fire Defence Law’s Screening Test for Self-reactivity.

The properties of the test material were investigated using a differential scanning calorimeter and comparison with the standard substances DNT and BPO. Under the conditions of the study, the test substance was determined to be devoid of self-reactive properties.