RU2612229C1 - Method for delay of explosion products blow along projectile edges - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to the test equipment and it is intended for using in military equipment tests, particularly, in the methods of explosion products blows delays. Method of explosion products blows delays along the edges of the projectile, includes positioning at least a part of the projectile surface in contact with the surface of the explosion products cutter, made from the material with a greater acoustical stiffness, than the material of the projectile. The contacting end surface of the projectile and opposite to it the cutter surface is done in the form of chamfers of the wedge shape. The projectile surface area, facing to the explosive charge BB, is performed greater than the area of its opposite surface.

EFFECT: invention provides the absence of the projectile edges destruction and its tight contact with the adjacent cutter of the explosion products.

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Description

The invention relates to test equipment and is intended for use in testing military equipment that use explosive charges of explosives.

The known method [Yu.N. Deryugin, N.P. Kovalev et al. Acceleration methods of heavy large-sized plates with small distortions of a flat surface. - Collection of reports of the scientific conference of the Volga regional center RARAN "Modern methods of designing and testing missile and artillery weapons", Sarov, VNIIEF, 2000, p. 241], which provides for a certain period of time a delay in the breakthrough of explosion products (MF) at the edges of the missile plates. According to this method, in the explosive throwing device (VMU) "Escape" the edges of the throwable plate of aluminum alloy are buried in the installation grooves of a rectangular profile made in the side steel plates.

The disadvantage of this method is that in the process of gaining speed under the influence of shock waves, the material of the throwing plate located in the grooves practically does not flow in the direction of movement of its main part.

Also known is a method of delaying the breakthrough of the air defense, adopted as a prototype, used in the VMU "Plane" [see ibid., p. 238]. In this case, the method of delaying the breakthrough of the PV consists in placing the edges of the missile plate with an overlap with the edges of the PV cut-off plate of rectangular cross section, which is made of a material with greater acoustic rigidity than that of the material of the missile plate (in the given example, the missile plate is an aluminum alloy, the PV cutter is steel).

The disadvantage of this method is the placement of the plate-cutter in contact with the surface of the missile plate, the opposite surface in contact with the PV. This solution leads to the attachment of the cutter to the edges of the missile plate, the rapid braking of this zone and, due to the speed gradient that has arisen, the destruction and separation of the edges of the missile plate with the subsequent breakthrough of the air defense (similar to the previous case of VMU “Ustup”).

A common drawback of these methods is to ensure that the breakthrough of the shotgun is only delayed by the displacement of the missile plate from the initial position by a distance approximately equal to its thickness, which is not enough to gain speed in most cases.

The problem to be solved is to create a method for delaying the breakthrough of airflow along the edges of a missile plate for the time necessary for it to travel more than one intrinsic thickness.

The technical result obtained by the implementation of the method consists in ensuring both the absence of destruction of the edges of the missile plate and their tight contact with the adjoining cut-off of the explosion products for the maximum possible period of time.

This is achieved by the fact that in the method of delaying the breakthrough of explosion products along the edges of the plate being thrown, including placing at least a part of the surface of the plate being thrown in contact with the surface of the cut-off of the explosion products made of a material with greater acoustic rigidity than the material of the plate being thrown, new the fact that the contacting end surface of the missile plate and the response surface of the cutter is made in the form of chamfers of a wedge-shaped profile, while the surface area of the missile plate facing to the explosive charge, perform more than the area of its opposite surface.

The execution of the cutter from a material with greater acoustic rigidity than that of the throwing plate, as well as the contacting the end surface of the throwing plate and the response surface of the cutter in the form of bevels of a wedge-shaped profile, oriented in such a way that the surface area of the throwing plate facing the explosive charge is larger, than the area of its opposite surface, provides a joint flow of materials in the direction that prevents the breakthrough of PV, which increases the delay time of their breakthrough. This also allows to minimize the braking of the edges of the missile plate and, therefore, to maintain its integrity and shape for a long time. The invention is illustrated in the drawing.

The drawing shows a diagram of the method. Here 1 is an explosive plate; 2 - explosive charge; 3 - emphasis (possible presence in the general case); 4 - PV cutter adjacent to the edge of the missile plate; 5 - the place of contact of the chamfers of the wedge-shaped profile, made at the end of the missile plate and the cutter PV; 6 - anti-school clearance (possible presence in the general case). The value of the angle of the wedge-shaped facets a depends on many factors associated with the specific design of the VMU, its purpose: material of the missile plate and the PV cutter, thickness of the missile plate, the location of the edge of the explosive charge and stop relative to the contact point of the bevels. In most cases, it is inappropriate to take the value of the angle a outside the range of 5 ° ... 65 °

The method is as follows. To delay the breakthrough of explosion products of the explosive charge 2 at the junction of the plate 1 and the adjacent cutter PV 4 made of a material with greater acoustic rigidity than the material of the missile plate, the contacting end surface of the missile plate and the response surface of the cutter are made in the form of chamfers 5 of a wedge-shaped profile . The execution of the wedge-shaped profile is carried out in such a way that as a result, the surface of the plate 1 facing the charge of explosive 2 has an area larger than its opposite surface. As a result of undermining the explosive charge 2, the flow of the materials of the plate 1 and the cutter 4, with the joint plastic deformation of their contacting edges, ensures that the explosion products do not break through during the time required for the throwing plate 1 to travel more than one intrinsic thickness.

Achievement of the technical result is confirmed by research data, including both two-dimensional and 3D numerical modeling of ongoing processes using several methods.

Thus, the implementation of the method ensures the absence of destruction of the edges of the missile plate and their tight contact with the adjacent cut-off of the explosion products for a period of time sufficient for the plate to travel a distance many times greater than its own thickness.

Claims (1)

A method for delaying the breakthrough of explosion products at the edges of a missile plate, comprising placing at least part of the surface of the missile plate in contact with the surface of the cut-off of the explosion products made of a material with greater acoustic rigidity than the material of the missile plate, characterized in that the contact end surface of the missile plate and the reciprocal cutter surface is made in the form of chamfers of a wedge-shaped profile, while the surface area of the throwable plate facing the explosive charge is larger than the area of its opposite surface.

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