FI86814C - Linear cutting charge - Google Patents

Description

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Linear shear charge

The present invention relates to a linear shear charge comprising an explosive mass shaped like a rod, in which a longitudinal groove is formed on one side of the rod, in which a liner is placed.

It is known that hollow charges consist of a mass of explosive with a recess on one surface, the shape of which can vary, the recess being lined with a metal liner. Blasting the charge strongly compresses the metal liner and turns it into an outwardly directed metal bullet whose shape depends on the shape of the recess. The bullet has effective penetration properties, which are exploited by detonating the charge so that its recess is adjacent to and opposite the surface to be penetrated, i.e. the work surface. The penetration of a bullet depends on the distance between the insert and the work surface, i.e. the aiming distance, the best possible value of which is usually determined on the basis of experience.

One particular example of a hollow charge for linear cutting applications consists of an elongated mass of explosive with a V-shaped groove in its lateral direction and surrounded by a thin-walled metal shield. Blasting produces a planar bullet in the lateral groove that can be used for linear cutting. In a known method for producing such linear cutting inserts, a lead tube is filled with explosive granules and then guided through a series of rollers arranged to convert the filled tube into an arrow-shaped rod, resulting in a lead-lined, V-shaped groove in the longitudinal direction of the rod. The thickness of the lead wall protecting the two outer brushes of the V-shaped groove is trusted to keep the insert separate from the work surface and thus defining the star distance. The wall thickness of the linear shear inserts thus produced is often non-uniform, and when these irregularities occur in the target area or groove liner, variations in shear efficiency and unevenness of performance result.

U.S. Pat. No. 3,185,089 discloses a linear shear charge comprising a rod-like explosive mass having a shaped cavity for a liner, which may be made, e.g., by extrusion from a mixture of an explosive and a rubbery polymeric binder. The liner is usually a rigid or semi-rigid material, such as various metal wires or fabrics. In order to make the shear charge flexible, the liner is formed of separate parts so that it is discontinuous. However, such discontinuity is detrimental to the operation of the input and complicates the fabrication and assembly of the input.

For example, when the shear charge of U.S. Pat. No. 3,185,089 is bent, the explosive mass bends at the bending point, respectively, and the parts of the liner move relative to each other at said point. It follows from the structure of the insert that gaps are created between the parts of the liner and that the shear capacity of the insert is greatly impaired in the absence of lining material at these points.

The object of the present invention is to provide a linear shear charge in which said drawbacks of the prior art are avoided and the structure of which allows the charge to be shaped accurately and uniformly to the desired dimensions.

The charge according to the invention is characterized in that the explosive mass shaped like a rod contains an explosive and a first flexible substance in combination, that the liner is combined with metal particles and a second flexible substance and that the liner is formed continuously.

It is desirable that both the bar and the liner be made by extrusion, but other methods may be used, e.g., die casting and rolling.

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The metal particles in the liner are preferably copper.

The first and second flexible materials are selected so that they are chemically compatible with the explosive and are preferably identical.

It is desirable that the groove have an outwardly expanding, triangular cross-section and that both the rod and the liner be arrow-shaped in cross-section, the liner being attached to the rod so as to cover the surfaces of the groove.

It is desirable that the linear shear insert further include a shield which may well be relatively rigid to prevent distortion of the rod and liner during processing and which may well have a abutment portion having a engagement surface for aiming at the work surface, said engagement surface being parallel to and separate from the outer edges of the liner. thus maintaining the best possible aiming distance. Alternatively, the cover may be flexible, making it possible to cut curved surfaces and lines.

When the flexible insert is intended for cutting planar curved lines, it is desirable to include stiffener portions which may consist of metal strips embedded in the shield perpendicular to the engaging surface and extending longitudinally on either side of the groove to limit lateral deflection to bend.

The presence of solid material in the groove is detrimental to shear efficiency, and therefore it is desirable for the cover to include a groove filler portion of low density material to prevent solid material from flowing, for example, when a linear shear charge is used underwater.

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It is desirable that the cover including the abutment portion and the groove infill portion be formed of a uniform, low density material such as expanded polyethylene.

We will now describe embodiments of the present invention by way of example and with reference only to the accompanying drawings, in which:

Figure 1 is a cross-section of a flexible, linear shear charge,

Figure 2 is an oblique view of the entire linear sectional charge of Figure 1 and

Figure 3 is a cross-sectional view of a flexible linear shear having stiffening members.

The linear cutting charge of Figures 1 and 2 has an explosive bar 1 with an arrow-shaped cross-section and a groove 2 defined by intersecting surfaces 3 and 4 which intersect at an angle of 120 degrees.

Bar 1 is formed by extruding a flexible blend of 88% by weight RDX (cyclotrimethylene trinitramine), 8.4% PIB (polyisobutylene), 2.4% DEHS (2-diethylhexyl sebacate) and 1.2% % PTFE (polytetrafluoroethylene).

The thickness of the rod, measured in a direction perpendicular to either surface 3 or 4, is 6.35 mm. V-shaped liner 5, 0.635 mm thick, formed by extrusion from a flexible mixture containing 85% by weight of 300 mesh copper powder, 5.6% PIB, 1.6% DEHS and 7.8 PTFE: is attached to surfaces 3 and 4 under pressure.

The flexible cover 6 made of expanded polyethylene surrounds the rod 1 except for the groove 2 and includes abutment portions 7 and 8 projecting outside the edges 9 of the liner 5 at a distance of 3.8 mm, which in this definition is the best possible targeting distance between which is aimed at the work surface 10. The cover 6 and the rod 1 are fixed to each other with a suitable adhesive.

The explosive bar 1 can well be detonated by an electric detonator (not shown) which can be attached to the outside of the cover at one end of the linear cutting charge.

Another embodiment of the invention is illustrated in Figure 3, in which the rod 1 and liner 5, in the description of which we refer to Figures 1 and 2, are completely surrounded by a cover 11 made of a low density material such as expanded polyethylene and having a connecting surface 12 in contact with the work surface 13. . The cover 11 consists of a first part 16 which is substantially the same as the cover 6 of Figure 1 and a groove filling part fixed to the surfaces 18 and 19 of the first part 16 with a suitable adhesive.

The stiffener parts consisting of the metal strips 14 and 15 are embedded in the cover 11 on each side of the groove 2 and towards the direct coupling surface 12, whereby the bending of the linear shear charge is limited to lateral bending in the plane of the coupling surface 12.

It will be apparent to those skilled in the art that various other arrangements may be made to the present invention. For example, the cover may be of a rigid material such as polystyrene, and the cover may include a groove filler or may be missing. Alternatively, the groove filling portion may consist of a thin-walled, air-filled housing, whereby the material is removed from the groove and the minimum possible resistance to the shear bullet created by detonating the cartridge is obtained.

Claims (16)

A linear cutting charge, comprising an explosive mass in the form of a rod (1) having a longitudinal guide (2) on one of its sides, a liner (5) being arranged in the rail, characterized in that in the explosive mass (1) ) comprises an explosive agent and a first flexible material, including metal particles and a second flexible material in the liner (5), and the liner has been designed as continuous. Charging according to claim 1, characterized in that the metal particles are of copper. Charging according to claims 1 and 2, characterized in that the first and second flexible materials have the same constituents. Charging according to claim 3, characterized in that the constituents are PIB (polyisobutylene), DEHS (2-diethylhexyl-sebacate) and PTFE (polytetrafluoroethylene). Charging according to any of the preceding claims, characterized in that either of the bar (1) and the liner (5) have been formed by injection molding. Charging according to any of the preceding claims, characterized in that it also includes a casing (6) open with the contact surface (12) at the edge of the vehicle, the contact surface being used against a working surface when used. Charging according to claim 6, characterized in that the housing (6) extends outside the vane (2) to form a spacer (7, 8), whereby the contact surface is separated from the outer edges of the liner with a predetermined pouring distance. Charging according to claims 6 and 7, characterized in that the casing (11) comprises one of the low-density material filling part (17) for the vehicle. 9 86814 Charging according to claim 8, characterized in that the loading part (17) for the ferry and the housing (11) are connected. Charging according to any of the preceding claims, characterized in that the hazard (2) has a protruding, triangular cross-section. Charging according to claim 10, characterized in that the bar (1) and the liner (5) have an oil-shaped cross section. Charging according to any of claims 6-11, characterized in that the housing is rigidly rigid. Charging according to any of claims 6-11, characterized in that the housing is flexible. A charge according to claim 13, characterized in that it comprises stiffening means (14, 15) which limit the bending of the bar to side bending substantially parallel to the contact surface. Charging according to Claim 14, characterized in that the stiffening members consist of metal strips (14, 15) which are embedded in the housing (11) perpendicular to the contact surface extending longitudinally on both sides of the hazard (2). Charging according to any of claims 13-15, characterized in that the housing (11) is of swollen polyethylene.