Tetralithium 5,5'-[vinylenebis[(3-sulphonato-4,1-phenylene)azo]]bis[3-methylsalicylate]

Administrative data

Link to relevant study record(s)

Reference

Endpoint:

explosive properties of explosives

Type of information:

experimental study

Adequacy of study:

key study

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

guideline study

Qualifier:

according to guideline

Guideline:

other: DIN 51007

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

Deviations:

yes

Remarks:

Instead of the UN gap test the BAM Trauzl Test was carried out according to 11.3.5 respectively 12.3.4. of the UN-MTC

Principles of method if other than guideline:

A screening OTA (based on DIN 51007) was made in order to rule out a decomposition of the test substance. A sample of the test item in a melted glass container was heated up in a OTA oven with a linear rate of 3 K/min up to 500 °C. A sample of aluminum oxide was heated in the same oven as comparison. The temperature differences of both samples were recorded electronically. From these differences the heat flow of transformation of the test item was calculated electronically. The result was plotted as time/heat-flow diagram. Integration gives the heat release of the transformation. The test was made twice.
The test was performed according to Test Series 1 and 2 of UN-MTC. The test of explosive properties consists of three tests.

UN gap test / BAM Trauzl test
Instead of the UN gap test the BAM Trauzl Test was carried according to 11.3.5 respectively 12.3.4. of the UN-MTC. The test was performed as described in the test procedure F.3 of UN-MTC. The test item was filled in the hole of a massive lead-block and after plugging with sand ignited with a standard detonator Nr. 8. The increase of the hole was assessed by filling with water. The increase was referred to 10 g of substance. The test was performed twice.

Koenen-Test (determining the effect of heating under confinement)
This test is used to determine whether the sample shows an explosive decomposition behavior under the influence of intense heat and under high confinement. The test was performed as described in the test procedure Test 1 (b) respectively Test 2 (b) of UN-MTC.

Time pressure test (determining the effect of ignition under confinement)
The test was performed as described in the test 1 (c) respectively test 2 (c) of UN-MTC. The test was performed 3 times.

GLP compliance:

yes

Specific details on test material used for the study:

Storage: Room temperature
Expiration date: 2017-10-10

Test series:

UN Test series 1

Remarks:

BAM Trauzl Test instead of UN gap test

Method:

UN Test 1 (a): UN gap test

Parameter:

other: Increase of volume ml / 10g

Value:

1.2

Result:

negative, no explosion

Remarks on result:

no ignition, explosion, self-heating or visible decomposition

Test series:

UN Test series 1

Remarks:

BAM Trauzl Test instead of UN gap test

Method:

UN Test 1 (a): UN gap test

Parameter:

other: Increase of volume ml / 10g

Value:

2.2

Result:

negative, no explosion

Remarks on result:

no ignition, explosion, self-heating or visible decomposition

Test series:

UN Test series 1

Method:

UN Test 1 (b): Koenen test

Parameter:

limiting diameter (mm)

Value:

1

Result:

negative, no violent effect on heating under confinement

Remarks on result:

no ignition, explosion, self-heating or visible decomposition

Test series:

UN Test series 1

Method:

UN Test 1 (c) (i): Time/pressure test

Parameter:

other: Max. pressure in kPa

Value:

938

Result:

negative, no ability to deflagrate

Remarks on result:

p = 2070 kPa: no

Remarks:

Not explosive

Test series:

UN Test series 1

Method:

UN Test 1 (c) (i): Time/pressure test

Parameter:

other: Max. pressure in kPa

Value:

1 094

Result:

positive, ability to deflagrate

Remarks on result:

p = 2070 kPa: no

Remarks:

Not explosive

Test series:

UN Test series 1

Method:

UN Test 1 (c) (i): Time/pressure test

Parameter:

other: Max pressure in kPa

Value:

906

Result:

negative, no ability to deflagrate

Remarks on result:

p = 2070 kPa: no

Remarks:

Not explosive

A screening OTA (based on DIN 51007) was made in order to rule out a decomposition of the test substance. A sample of the test item in a melted glass container was heated up in a OTA oven with a linear rate of 3 K/min up to 500 °C. A sample of aluminum oxide was heated in the same oven as comparison. The temperature differences of both samples were recorded electronically. From these differences the heat flow of transformation of the test item was calculated electronically. The result was plotted as time/heat-flow diagram. Integration gives the heat release of the transformation. The test was made twice.

	Weight [mg]	Temperature range [°C]	Type of effect	Energy [J/g]
1	27.0	157 to 180 183 to > 180	endothermic exothermic	> 850
2	31.9	157 to 180 191 to > 500	endothermic exothermic	> 880

Because of the high and sharp exothermic decomposition reaction testing according to UN-MTC procedure is necessary.

UN gap test / BAM Trauzl test

Instead of the UN gap test the BAM Trauzl Test was carried according to 11.3.5 respectively 12.3.4. of the UN-MTC. The test was performed as described in the test procedure F.3 of UN-MTC. The test item was filled in the hole of a massive lead-block and after plugging with sand ignited with a standard detonator Nr. 8. The increase of the hole was assessed by filling with water. The increase was referred to 10 g of substance. The test was performed twice.

Test run	Mass	Volume before test	Volume after test	Increase of volume	Increase of volume ml / 10 g
1	10.0 g	62.1 ml	63.3 ml	1.2 ml	1.2
2	10.0 g	62.5 ml	64.7 ml	2.2 ml	2.2
Test result "no"

Koenen-Test (determining the effect of heating under confinement)

This test is used to determine whether the sample shows an explosive decomposition behavior under the influence of intense heat and under high confinement. The test was performed as described in the test procedure Test 1 (b) respectively Test 2 (b) of UN-MTC.

Nozzle Diameter	Sample Mass	Reaction Initiation after	Results
1 mm	24.2	23 s	No fragments, cartridge unchanged
1 mm	24.3	23 s	No fragments, cartridge unchanged
1 mm	24.1	21 s	No fragments, cartridge unchanged

Result: "-", no effect on heating under confinement with a limiting diameter less than 1 mm.

Time pressure test (determining the effect of ignition under confinement)

The test was performed as described in the test 1 (c) respectively test 2 (c) of UN-MTC. The test was performed 3 times.

Test run	Sample Mass	Max. pressure	Time from 690 kPa to 2070 kPa
1	5 g	938 kPa	-
2	5 g	1094 kPa	-
3	5 g	906 kPa	-

Interpretation of results:

Division 1.4 (substances, mixtures and articles which present no significant hazard) based on GHS criteria

Conclusions:

Bayscript Gelbkomponente is not explosive according to test series 1 (c) UN-MTC.

Executive summary:

Appendix 6, point 3 'Screening procedures for substances which may have explosive properties' of UN-MTC refers to the decomposition energy.

A screening OTA (based on DIN 51007) was made in order to rule out a decomposition of Bayscript Gelbkomponente. A sample of the test item in a melted glass container was heated up in a OTA oven with a linear rate of 3 K/min up to 500 °C. A sample of aluminum oxide was heated in the same oven as comparison. The temperature differences of both samples were recorded electronically. From these differences the heat flow of transformation of the test item was calculated electronically. The result was plotted as time/heat-flow diagram. Integration gives the heat release of the transformation. The test was made twice.

No.	Weight [mg]	Temperature range [°C]	Type of effect	Energy [J/g]
1	27.0	157 to 180 183 to > 180	endothermic exothermic	> 850
2	31.9	157 to 180 191 to > 500	endothermic exothermic	> 880

Because of the high and sharp exothermic decomposition reaction testing according to UN-MTC procedure is necessary.

The test was performed according to Test Series 1 and 2 of UN-MTC. The test of explosive properties consists of three tests.

UN gap test / BAM Trauzl test

Instead of the UN gap test the BAM Trauzl Test was carried according to 11.3.5 respectively 12.3.4. of the UN-MTC. The test was performed as described in the test procedure F.3 of UN-MTC. The test item was filled in the hole of a massive lead-block and after plugging with sand ignited with a standard detonator Nr. 8. The increase of the hole was assessed by filling with water. The increase was referred to 10 g of substance. The test was performed twice.

Test run	Mass	Volume before test	Volume after test	Increase of volume	Increase of volume ml / 10 g
1	10.0 g	62.1 ml	63.3 ml	1.2 ml	1.2
2	10.0 g	62.5 ml	64.7 ml	2.2 ml	2.2
Test result "no"

Koenen-Test (determining the effect of heating under confinement)

This test is used to determine whether the sample shows an explosive decomposition behavior under the influence of intense heat and under high confinement. The test was performed as described in the test procedure Test 1 (b) respectively Test 2 (b) of UN-MTC.

Nozzle Diameter	Sample Mass	Reaction Initiation after	Results
1 mm	24.2	23 s	No fragments, cartridge unchanged
1 mm	24.3	23 s	No fragments, cartridge unchanged
1 mm	24.1	21 s	No fragments, cartridge unchanged

Time pressure test (determining the effect of ignition under confinement)

The test was performed as described in the test 1 (c) respectively test 2 (c) of UN-MTC. The test was performed 3 times.

Test run	Sample Mass	Max. pressure	Time from 690 kPa to 2070 kPa
1	5 g	938 kPa	-
2	5 g	1094 kPa	-
3	5 g	906 kPa	-

In all test runs, the pressure was much lower than 2070 kPa.

Bayscript Gelbkomponente is not explosive according to test series 1 (c) UN-MTC.

Description of key information

Appendix 6, point 3 'Screening procedures for substances which may have explosive properties' of UN-MTC refers to the decomposition energy.

A screening OTA (based on DIN 51007) was made in order to rule out a decomposition of Bayscript Gelbkomponente. A sample of the test item in a melted glass container was heated up in a OTA oven with a linear rate of 3 K/min up to 500 °C. A sample of aluminum oxide was heated in the same oven as comparison. The temperature differences of both samples were recorded electronically. From these differences the heat flow of transformation of the test item was calculated electronically. The result was plotted as time/heat-flow diagram. Integration gives the heat release of the transformation. The test was made twice.

No.	Weight [mg]	Temperature range [°C]	Type of effect	Energy [J/g]
1	27.0	157 to 180 183 to > 180	endothermic exothermic	> 850
2	31.9	157 to 180 191 to > 500	endothermic exothermic	> 880

Because of the high and sharp exothermic decomposition reaction testing according to UN-MTC procedure is necessary.

The test was performed according to Test Series 1 and 2 of UN-MTC. The test of explosive properties consists of three tests.

UN gap test / BAM Trauzl test

Instead of the UN gap test the BAM Trauzl Test was carried according to 11.3.5 respectively 12.3.4. of the UN-MTC. The test was performed as described in the test procedure F.3 of UN-MTC. The test item was filled in the hole of a massive lead-block and after plugging with sand ignited with a standard detonator Nr. 8. The increase of the hole was assessed by filling with water. The increase was referred to 10 g of substance. The test was performed twice.

Test run	Mass	Volume before test	Volume after test	Increase of volume	Increase of volume ml / 10 g
1	10.0 g	62.1 ml	63.3 ml	1.2 ml	1.2
2	10.0 g	62.5 ml	64.7 ml	2.2 ml	2.2
Test result "no"

Koenen-Test (determining the effect of heating under confinement)

This test is used to determine whether the sample shows an explosive decomposition behavior under the influence of intense heat and under high confinement. The test was performed as described in the test procedure Test 1 (b) respectively Test 2 (b) of UN-MTC.

Nozzle Diameter	Sample Mass	Reaction Initiation after	Results
1 mm	24.2	23 s	No fragments, cartridge unchanged
1 mm	24.3	23 s	No fragments, cartridge unchanged
1 mm	24.1	21 s	No fragments, cartridge unchanged

Time pressure test (determining the effect of ignition under confinement)

The test was performed as described in the test 1 (c) respectively test 2 (c) of UN-MTC. The test was performed 3 times.

Test run	Sample Mass	Max. pressure	Time from 690 kPa to 2070 kPa
1	5 g	938 kPa	-
2	5 g	1094 kPa	-
3	5 g	906 kPa	-

In all test runs, the pressure was much lower than 2070 kPa.

Bayscript Gelbkomponente is not explosive according to test series 1 (c) UN-MTC.

Key value for chemical safety assessment

Explosiveness:

non explosive

Additional information

Justification for classification or non-classification