BE383982A - - Google Patents

Description

       

  "Process for preparing initiating masses based on heavy metal azides or

  
 <EMI ID = 1.1>

  
We know that the azides of heavy metals which are

  
 <EMI ID = 2.1>

  
as the primary charge of detonators mainly because of their extreme sensitivity when the crystals are relatively large, namely the size of those of mercury fulminate.

  
The sensitivity of azides and in general of fulminating explosives is all the greater as the cries * "rate are large It is known, for example, that crystals

  
 <EMI ID = 3.1>

  
burst under the slightest shock. Even weak heating

  
 <EMI ID = 4.1>

  
this case to determine the departure of the explosive "

  
On the other hand, the sensitivity decreases more and more with the size of the crystals and becomes practically negligible when the fineness is pushed to an extreme limit which "moreover, is much easier and less expensive to obtain than crystals.

  
For example the "Bureau of Mines" of the United States of America found that colloidal silver azide burst without failure under a ram falling from 775 mm. while if it is in crystals of about 0.1 mm. just a fall of
285 mm.

  
 <EMI ID = 5.1>

  
at 230 mm.

  
The same is true for silver fulminate, the use of which as a primary initiator in detonators is prevented by its sensitivity to shock when its crystallization reaches the size suitable for loading.

  
It is also known that it is essential, for the loading on an industrial scale of detonators * towers * to use explosives in the form of small grains or crystals so as to have a mass which slides and can flow easily and surely through the small dosing holes of the hoppers and in the tubes of the detonators. This

  
 <EMI ID = 6.1> is not the case for a fine, compact, sticky material, such as azides of heavy metals as obtained by

  
ordinary precipitation

  
The efforts made to obtain the azides of metals

  
 <EMI ID = 7.1>

  
azides thus crystallized is much too dangerous because of their sensitivity to shock and ultimately we did not dare to use them on a large scale in this form for the manufacture of detonators because of the accidents which occurred as well as the frequent departures on the compression press

  
Another drawback of azides precipitated in directly chargeable crystalline form is the lack of coherence which they have even in the compressed state in detonators; crystals come out easily through the operculum hole and the fulminating material is lost with easy to understand handling danger

  
An attempt has been made to obviate these drawbacks by mixing the azides precipitated in fine form with another explosive.

  
 <EMI ID = 8.1>
- shock and friction, even when wet, and several serious accidents have occurred while handling it.

  
The drawbacks recalled above are on the other hand avoided by the present invention The object of the latter is to put in a form suitable for the loading of detonates the azides of heavy metals and silver fulminate precipitated in very fine form, that is, that is to say of minimal sensitivity as we have just said, and it consists for this purpose in making the very fine crystals of azide very slippery and flowable in the tubes of the detonators by mixing them

  
 <EMI ID = 9.1>

  
talcum powder, aluminum powder, extremely subdivided

  
The proportion of this addition is variable with the fineness of the explosive and the degree of fluidity that it is necessary to obtain with regard to the tooling for loading the detonators as well as the diameter of the latter.

  
Thanks to the thin shape very insensitive to ohoo under

  
 <EMI ID = 10.1>

  
Another important advantage of using azides in fine form thus treated is the consistency it.


    

Claims (1)

have once compressed. Thanks to the present invention it is therefore possible, in practice, to apply these explosives Very important starting without risking accidents and without difficulties <EMI ID = 11.1> In order to increase the breakage, it is possible to add to the aforementioned mixture, mercury fulminate which is not too sensitive and which does not prevent the sliding of the initial mass with which it is mixed, and which increases the priming power especially when it is very strongly compressed, The mixtures according to the present invention <EMI ID = 12.1> or sticky solution to possibly allow graining of the mass The initiating masses thus prepared are poured and compressed in the usual manner in detonator tubes, thus constituting powerful and safe detonators. 1). Process for preparing initiating masses based on heavy metal azides or silver fulminate precipitated in fine crystalline or colloidal form so as to give them the fluidity necessary for the serial charging of the detonators, characterized in that one - dry or wet mix with these azides or fulminate non-explosive lubricating materials such as graphite, talc, aluminum, in excessively fine powder; <EMI ID = 13.1> this fact that mercury fulminate is added to the mixture; <EMI ID = 14.1> non-explosive lubricating tances such as graphite, talc, aluminum, in excessively fine powder <EMI ID = 15.1> which mercury fulminate is added to the mixture 5). Detonators, capsules and similar devices charged with a mixture based on heavy metal azides or <EMI ID = 16.1> various lubricating substances in the state of fine division, such as graphite, talc, aluminum ABSTRACT The subject of the invention is an initiating mass, a process for preparing this mass and its application to the manufacture of detonators, capsules and other similar devices, this mass being composed of heavy metal azides or of silver fulminate under crystallized form <EMI ID = 17.1> phite, talc, aluminum, etc ,,,