Propylidynetrimethanol, propoxylated, reaction products with ammonia

Administrative data

Link to relevant study record(s)

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Reference 1

Endpoint:

explosive properties of explosives

Type of information:

experimental study

Adequacy of study:

key study

Study period:

2009-11-11 to 2010-07-12

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

guideline study

Qualifier:

according to guideline

Guideline:

EU Method A.14 (Explosive properties)

Deviations:

no

Principles of method if other than guideline:

The test is designed to measure the sensitiveness of solid (including paste-like and geltype) substances to impact.
The BAM fallhammer apparatus (as manufactured by Chilworth Technology Ltd) consists of a cast steel block with base, anvil, column, guides, drop weights, release device and a sample holder. The steel anvil (100 mm diameter by 70 mm height) is screwed to the top of a steel block (230 mm length by 250 mm width by 200 mm height) with a cast base (450 mm length by 450 mm width by 60 mm height). A column, made from seamless drawn steel tube, is secured in a holder screwed on to the back of the steel block. Four screws anchor the apparatus to a solid concrete block (60 cm x 60 cm x 60 cm) such that the guide rails are absolutely vertical and the drop weight falls freely. 5 and 10 kg weights made from solid steel are available for use. The striking head of each weight is of hardened steel and has a minimum diameter of 25 mm.

The sample under test is enclosed in a shock device consisting of two coaxial solid steel cylinders, one above the other, in a hollow cylindrical steel guide ring. The solid steel cylinders are 10 mm diameter by 10 mm height with polished surfaces and rounded edges. The hollow cylinder must have an external diameter of 16 mm, a polished bore of 10 mm and a height of 13 mm. The shock device is assembled on an intermediate anvil (26 mm diameter and 26 mm height) made of steel and centred by a ring with perforations to allow escape of fumes.

Powdered substances are sieved and the sieve fraction < 0.5 mm is used for testing. Pressed, cast or otherwise condensed substances are broken into small pieces and sieved; the sieve fraction from 0.5 mm to 1 mm diameter is used for testing and should be representative of the original substance. Substances normally supplied as pastes should be tested in the dry state where possible or, in any case, following the removal of the maximum possible amount of diluent. Liquid substances are tested with a 1 mm gap between the upper and lower steel cylinders.

A sample is taken with a scoop of 40 mm³ volume. The substance is then placed in the open impact device, which is already in the locating ring on the intermediate anvil. The upper steel cylinder is then placed in position (using an O-ring if necessary). In the interpretation of results of the trial, distinction is made between "no reaction", "decomposition" (change of colour) and "explosion" (crackling, sparking or inflammation). A series of six tests are performed dropping the 10 kg mass from 0.40 m (40 J). If an explosion is obtained during the six tests at 40 J, a further series of 6 tests, dropping a 5 kg mass from 0.15 m (7.5 J), must be performed.

GLP compliance:

yes

Specific details on test material used for the study:

Polyoxypropylene triamine
(39423-51-3) 60-100%

Key result

Parameter:

sensitiveness to impact: impact energy (J)

Value:

40

Remarks on result:

not sensitive to impact using an impact energy of 40 J

The substance was observed to exhibit no reaction at 40 J. The test result is therefore considered negative (-) (according to the EC Classification, Packaging & Labelling of Dangerous Substances in the European Union Part 2, Testing Methods, Jan 97).

Interpretation of results:

GHS criteria not met

Conclusions:

The substance was observed to exhibit no reaction at 40 J. The test result is therefore considered negative (-)