DE10350514B4 - Method for producing training ammunition - Google Patents

Abstract

Method for producing training ammunition, the projectile is filled with an inert mass, characterized in that the inert mass is a ceramic casting material and to reduce the density of the inert filling, the casting mass with
- Phenolharzkohlkörper with a particle size between 0.005 to 0.127 mm (microballons) or
- Glass bubbles with a grain size between 0.011 to 0.1 mm or
- Ceramic or hollow metal balls with a grain size between 0.01 to 1 mm
is mixed.

Description

The The invention relates to a method for producing training ammunition, whose projectile with an inert mass filled becomes.

For exercise purposes of the military, ballistic examinations and models, projectiles are filled with an inert material. From the DE 2 059 188 A Already a number of different materials are known which are useful as inert mass. The production of projectiles with known inert masses is relatively time-consuming and cost-intensive. This applies in particular to the filling of the projectiles with magnesia cement, which is still used relatively frequently today. Because apart from the long curing times result in the solidification of such fillings by shrinkage of the mass cavities again and again, which no longer guarantees a bombardment of the inert projectile body.

From the US 4,109,579 For example, a practice bullet is known which has a cementitious ballast material mounted around a steel pipe.

The AT 25 888 B describes a plastic training floor. The plastic is interspersed with uniformly distributed particles of a metal or an alloy. The particles are ductile in nature, consisting of bronze, copper and lead. The bronze balls have a diameter between 0.04 to 0.1 mm.

Of the Invention is based on the object, a process for the preparation of training ammunition indicate which is easy and inexpensive is and whose projectiles each have an inert mass, the void and cavity free.

These The object is achieved by the features of the characterizing part of the claim 1 solved. Further advantageous embodiments of the invention disclose the dependent claims.

in the Essentially, the invention is based on the idea, as inert Mass out a casting mass Special gypsum to use, as for example for the production Relief images and the like. Is commercially available.

The Use of such casting compounds has the big one Advantage on that the milk-like, low viscous casting compound fills each cavity and any trapped air bubbles are released immediately. The hardening mass fits all surfaces and thus gives an excellent wall adhesion to the casing material.

Further Details and advantages of the invention will become apparent in the following an embodiment explained.

to Production of the ceramic casting material is for example, the casting powder "Ceramofix" the company. Eberhard Faber, used which is non-toxic and very easy to process is. The casting powder is e.g. with the help of a stirrer by simply stirring with water in proportion Mixed 3: 1. The processing time is about 15-30 minutes and the very liquid Mixture is then placed in the appropriate cavity of the respective one Bullet filled. Under slight warming cures the mixture within about 1-2 hours (depending on the volume of the Mixture).

The cured Ceramic mass has a density of about 1.85 g / cm. This density lets itself through Mixing with so-called microbaloons (hollow phenolic resin with a particle size between 0.005 to 0.127 mm or hollow glass spheres with a grain size of 0.011 to 0.1 mm or ceramic or hollow metal balls with a grain size between 0.01 to 1 mm) Lowering to about 1.1 g / cm, without the product loses its homogeneity.

The cured Ceramic material can be ground, saw and drill, with the accumulated machining dust sucked without problems can be.

Claims (4)

A process for the production of training ammunition, the projectile is filled with an inert mass, characterized in that the inert mass is a ceramic casting material and to reduce the density of the inert filling the casting mass with - phenolic resin hollow bodies having a particle size between 0.005 to 0.127 mm (microballons) or - glass bubbles with a grain size between 0.011 to 0.1 mm or - ceramic or hollow metal balls is mixed with a grain size between 0.01 to 1 mm. Method according to claim 1, characterized in that that the ceramic casting material made of special gypsum. Method according to claim 2, characterized in that that the special plaster of a casting powder with water in the ratio 3: 1 is mixed. A method according to claim 3, characterized in that the mixture with slight heating hardened within 1-2 hours.