DE1296059B - Pop-ignition cord with a core made of powdered pentaerythritol granitrate of selected grain size, enclosed by a textile cover - Google Patents

Description

The invention relates to a detonating fuse with one of a textile Shell-enclosed core made of powdered pentaerythritol tetranitrate from selected Grain size.

A distinction is made in blasting technology with pop or detonation fuses and safety fuses. A detonating fuse must be able to pass through a usual primer to be ignited, in dry and wet weather the ignition safe to propagate, through a simple fold or knot connection the ignition on another piece of the same fuse or a standard fuse Transfer and detonate all explosives that are on detonators or detonators speak to. In contrast to this, a safety fuse is used if the high explosiveness and noise development of the detonating fuse is undesirable, so z. B. when the ignition by higher lying layers of an explosive charge should be directed to the bottom charge in order to ignite it first. A safety fuse is not able to immediately place an explosive charge or another piece of fuse to ignite, rather there is always an initial fuse at the end of a safety fuse required to ignite the explosive charge.

They are safety fuses with a core made of pentaerythritol tetranitrate (PETN) known with core weights per length of 0.425 to 3.2 g / m; it is further known, this core weight by using an explosive with high specific Surface, d. H. smaller grain size down to about 0.32 g / m 2. For fuses on the other hand, core weights of more than 10 g / m have been common up to now. It's already tried in the manner known from safety fuses by a reduction the grain size of the explosive to lower core weights, even with detonating fuses to get. These attempts have failed: detonating fuses, their core weight were significantly below the previously usual values, were no longer sufficient Security will be able to apply the ignition to other pieces of the same fuse transferred, d. that is, they were no longer pop fuses, even when in use of so-called super-fine PTEN with an extremely small grain size.

It has now been found, surprisingly, that a substantial reduction in the core weight of detonating fuses is still possible while maintaining all properties essential for detonating fuses if a very specific particle size distribution of the explosive is used. Accordingly, a detonating fuse of the type mentioned is characterized according to the invention in that the core has a line weight of at least 4.25 g / m and a grain size distribution such that 350 /, (IL 10) of the grains a smaller and 65 »/ o (± 10%) have a diameter greater than 45 t. In contrast to the relatively coarse-grained explosive usually used and the superfine explosive that has already been used unsuccessfully, the particle size distribution of the explosive according to the invention enables the previously common core weight to be more than halved, while still achieving reliable ignition properties.

Preferably, of the particles, the diameter of which is greater than 45 #L is, a small proportion has a diameter greater than 150 V ,. In particular a particle size distribution is preferred according to the invention in which 0% of the particles greater than 590 p ,, not more than 5 ° / o greater than 300 #t, 25 ° / o (± 10 ° / o) greater than 150 #t, 40% larger than 45 #t and the rest smaller than 45 #t.

The preferred range of core weight according to the invention is between 4.25 and 5.3.

An embodiment of the invention is described below with reference to the drawing explained in more detail, which is a view of the fuse with partially wound layers represents.

The detonating cord has a woven or braided textile cover 1 around the explosive core 2. Depending on the environmental conditions in which the detonating cord is to be used, the textile cover can optionally be covered by a plastic cover, e.g. B. a polyethylene sheath 3, over which in turn a textile yarn can be wound in layers in alternating directions. A wax skin 5 or the like. Can form the conclusion to the outside. It is pointed out, however, that the fuse according to the invention works perfectly even when a textile cover is used on its own, so that additional upper covers or the like only need to be used optionally.

The core consists of pentaerythritol tetranitrate, which is commonly used under the abbreviation PETN is known. It has been shown that the effect according to the invention - Reduction of the core weight while maintaining all essential properties The fuse only works when using PETN, but not when using other common highly explosive substances, such as B. cyclotrimethylene trinitramine (RDX), lead azide or lead typhnate, nitromannite, picryl sulfone or bis (trinitroethyl) urea, can be achieved.

The grain size of the core is selected according to the invention. As already mentioned, the mere reduction in grain size brings up to so-called superfine PETN in no way results in the desired reduction in core weight, or rather a such a reduction would reduce the reliability of the ignition transmission to others. Fuses or affect all detonators occurring. Accordingly, is according to the invention the following grain size distribution of the PETN is provided: 0% with a diameter greater than 590 #t »at most 5% 300 250/0 (± 100 /,)« -150 according to.

400 /,: L100 / 0 «45 #t 35% Q10 ° / o« less than 45 #t. Such a one PETN blend consists of a white crystalline powder that is essentially is free of visible mechanical impurities and has a density of 0.8 to 0.9 g / cms.

Fuses with a PETN core of the stated composition were made compared to fuses with a core of superfine PETN, which according to the USA: U.S. Patent 2,992,087. Manufacture and construction of the cords was identical in all cases. The cords had a polyethylene sheath and one outer cover made of cotton and wax. The detonation propagation speed was compared and the reliability of the ignition transmission.

Three measurements were carried out on each sample average value the detonation propagation velocity is determined.

To measure ignition transmission reliability, the ability to ignite a standard "prima cord" detonating cord was determined. Here, the sample was overlapped with the prima cord fuse to a length of 5 cm, with a number of normal playing cards in between. The distance between the two detonating cords, measured in card thicknesses, at which a successful ignition occurred in 50% of the cases, was used as the measurement variable. The table shows the measurement results. sample ABC super fine super fine invention Core weight / length (g / m). . . . . . . . . . . . . . . . . . . . . . . . 7.1 6.45 5.38 Core diameter (mm). . . . . . . . . . . . . . . . . . . . . . . . . . 3.76 3.86 3.02 Outer diameter . ... .... . . . . . . . . . . . . . . . . . . . .. 5.08 5.2 4.06 Ignition propagation speed (m / sec) (mean) 5490 ........................................ 5490 5270 6140 Ignition transmission probability. . . . . . . . . . . . . . 500/0 at 1.2 10 errors at 500/0 at 2.5 Card thicknesses 10 attempts without card thicknesses intermediate map The results clearly show that superfine PETN leads to worse results than the grain size composition according to the invention, even with larger core weights.

With regard to the core weight, it has been found that a weight of 4.25 g / m is the minimum at which in the grain size distribution according to the invention all the desired ignition properties were reliably present, although possibly difficulties in transferring ignition to extremely difficult to ignite Detonators or detonators occurred.

Claims (4)

Claims: 1. Detonating fuse with one of a textile cover Enclosed core made of powdered pentaerythritol tetranitrate of selected Grain size, characterized in that the core has a line weight of at least 4.25 g / m and a grain size distribution such that 350/0 (± 100/0) of the grains smaller and 650/0 (± 100 /,) larger than 45 #t. 2. detonating fuse according to claim 1, characterized in that of the particles, whose diameter is greater than 45 #t, a small proportion a larger diameter than 150. 3. Pop fuse according to claim 2, characterized in that the core has the following grain size distribution of the particles 0 0/0 with a diameter greater than 590 #t »At most 5 0/0 300 250/0 (4-100 / 0) «150 400/0 ± 100 /, « 45 p. Remainder smaller than 45 #t 4. detonating fuse according to one of claims 1 to 3, characterized in that the line weight of the core is between 4.25 and 5.3 g / m.