Damaging Effects of Weapons and Ammunition. Igor A. Balagansky
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Название: Damaging Effects of Weapons and Ammunition

Автор: Igor A. Balagansky

Издательство: John Wiley & Sons Limited

Жанр: Химия

Серия:

isbn: 9781119779551

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СКАЧАТЬ damaging effects of weapons and ammunition can be described by different parameters. For example, for fragmentation ammunition, such characteristics are sometimes used as the number of effective fragments, the distance at which a fragment is able to pierce a barrier of a given thickness. The effect of ammunition with shaped charges is assessed by the thickness of the pierced armor. To assess the effect of high‐explosive ammunition, the value of overpressure at the front of the shock wave is used, and so on. These vastly different parameters do not allow for sufficient characterization of the damaging effect and, thus, to compare various ammunition types with each other. This makes the task of selecting and justifying the design parameters of the newly developed munitions even more challenging.

      To solve these problems, the so‐called generalized characteristics of the damaging effect are used, which contain information about the design parameters of the ammunition, the particular indicators of their damaging effect, the vulnerability of the target, the conditions for the use of ammunition, and the degree of damage to the target.

      I.2.1 Degrees of Damage

      In the case of land‐based targets, the minimum time during which an affected object cannot function as a combat unit is used as a numerical value of the damage degree. Three main degrees of damage are used, depending on the time the object remains nonfunctioning:

       A – time sufficient to solve the operation's objectives;

       B – time sufficient to address the daily objectives;

       C – when the object is suppressed for the duration of a battle.

      Note that for different targets and different combat missions, the times corresponding to different degrees of damage may vary significantly and, in some cases, additional degrees of damage are introduced (e.g. for armored vehicles, an additional D degree may be used). Sometimes the A degree is associated with the total destruction of the target, B with its partial failure, and C with temporary suppression.

      Source: From Balagansky et al. [1].

Target Military equipment Personnel
Degree of damage А B C D A B C
Duration of disruption 7 days 12–24 hours 3 hours 30 minutes 2–3 months 1 month 7 days

      I.2.2 Contact and Remote Ammunition

      All ammunition can be divided into ammunition with an impact or contact effect that can only damage a target after a direct hit (shaped charges, armor‐piercing, concrete‐piercing) and those with a remote effect that can damage a target when exploded at some distance from it (fragmentation, high‐explosive ammunition).

      I.2.3 Generalized Characteristics of Contact Ammunition

      A convenient numerical characteristic of the conditional damage law is the average number of hits required for destroying a target:

      (I.1)

      Source: From Wentzel [2].

      I.2.4 The Accumulation of Damage

      The conditional damage law is particularly simple if there is no accumulation of damage. Accumulation of damage is the phenomenon where the projectiles “help each other” to damage the target, i.e. when the target can be damaged by the combined action of two or more projectiles (or other hitting elements), neither of which, used separately, would damage the target. For example, if an airplane target has fuel tanks with an inert filler, it often requires at least two projectiles to destroy such tanks, the first of which penetrates the tank and the second ignites the fuel spill. Strictly speaking, the accumulation of damage always takes place. However, in most cases, it is negligible and can be ignored.

      Suppose there is no accumulation of damage and the projectiles damage the target independently of each other. Let's denote r the probability of damaging the target if one projectile hits it. Then the law of damage G(m) – the probability of damaging the target when m projectiles hit it – is equal to the probability that at least one of the projectiles will damage the target:

      (I.2)

      Such a law of damage is called a degree law. So, if there is no accumulation of damage for some target, its law of damage is a degree law, where r is the probability of damaging the target in one hit.

      The СКАЧАТЬ