RU2272242C1 - Device for determination of impact sensitivity characteristics of explosives - Google Patents

Abstract

FIELD: devices for determination of impact sensitivity characteristics of explosives.

SUBSTANCE: the device has an anvil installed on a foundation and a load with vertical guides, the anvil is connected to the foundation by obliquely positioned plate springs.

EFFECT: enhanced accuracy of determination of sensitivity of explosives to a slanting impact, and, as a result, enhanced safety of handling of explosives.

2 cl, 1 dwg

Description

The invention relates to means for the study of explosives / BB / and can be used when testing explosives for safety in conditions of mechanical stress.

It is known that the occurrence of an explosion upon impact is caused by friction, which undergoes compressible and fluid explosive as a result of this. In practice, the impact acts at a certain angle (oblique or sliding impact), and the displacement of the explosive layers relative to each other and relative to the impactor is forced and is determined by tangential forces. Moreover, there is no qualitative line between the impact and friction, and the quantitative ratio is determined by the angle at which the impact was made; the ratio of tangential and normal forces depends on the value of this angle / in combination with the fluidity and the coefficient of external friction. To determine the sensitivity of explosives to a sliding shock, appropriate devices are used [1].

The fundamental disadvantage of the known devices is the uncertainty in the ratio of dynamic forces in the explosive in the normal and tangential directions, which leads to inconsistency of the results when the explosion is excited by a blow. This reduces the accuracy of determining the characteristics of the sensitivity of the explosive to shock.

Closest to the proposed invention is a pile driver containing installed on the base of the anvil and the load with vertical guides [2]. The degree of sensitivity of the explosive to shock is determined by the height of the dropping load at which the explosion occurs.

This device also does not provide accuracy in determining the sensitivity of explosives to shock due to the uncertainty in the ratio of tangential and normal dynamic forces.

The basis of the invention is the task to create a device for determining the characteristics of the sensitivity of explosives to shock, in which the blow is made at a given angle, which allows you to set a stable ratio of dynamic forces in the normal and tangential directions and thereby improve the accuracy of the results.

The technical effect obtained from the use of the invention consists in increasing the safety of operations with explosives due to the greater reliability of the results of impact tests of explosives.

The problem is solved due to the fact that in the device for determining the characteristics of the sensitivity of explosives to shock, containing installed on the base of the anvil and the load with vertical guides, the anvil is connected to the base of the inclined leaf springs.

This embodiment of the device allows you to form a directional elastic suspension of the anvil and due to this to strike at a given angle. As a result, a certain relationship is reached between normal and tangential dynamic forces in an explosive.

In specific forms of the device, the angle of inclination of the leaf springs to the load guides can be 40-50 °. Experiments have shown that industrial explosives are the most dangerous at such angles of impact.

The drawing shows a device for determining the characteristics of the sensitivity of the explosive to shock.

The device contains reinforced on the base 1 guides 2 days of cargo 3, a roller 4, placed along the landing in the sleeve 5, anvil 6, connected to the base 1 with inclined leaf springs 7, and a sample of the explosive 8, which is located between the roller 4 and the anvil 6 The angle α of inclination of the leaf springs 7 to the guides 2 is 45 °.

The device operates as follows.

When testing an explosive, the load 2 is dropped from a certain height onto the roller 4. The impact is transmitted to the explosive hinge BB 8 and the anvil 6. Due to the impact, the anvil / due to the directional elastic suspension / moves simultaneously in the vertical and horizontal directions. As a result, the explosive 8 is loaded with normal and tangential dynamic forces in the ratio determined by the angle α.

Gradually, the height of the dropping of the load 2 is increased and the height of the dropping of H, at which an explosion occurs, is fixed. The sensitivity characteristic of explosives can be both the drop height H and the frequency of explosions according to GOST 4545-88.

This technical solution allows to add greater certainty to the impact tests of explosives and thereby increase the accuracy of the results. In addition, it becomes possible to assess the impact angle of impact on the danger of an explosion and to develop appropriate measures to increase the safety of practical work with explosives.

Information sources

1. Andreev K.K. and Belyaev A.F. Theory of explosives. M .: Oborongiz, 1960, p. 320-324.

2. GOST 4545-88. Explosive substances are brisant. Methods for determining the characteristics of sensitivity to shock, p.11. Copra scheme.

Claims (2)

1. A device for determining the characteristics of the sensitivity of explosives to shock, containing installed on the base of the anvil and the load with vertical guides, characterized in that the anvil is connected to the base of the inclined plate springs. 2. The device according to claim 1, characterized in that the angle of inclination of the leaf springs to the load guides is 40-50 °.