RU98238U1 - TRAP FOR A HIGH SPEED AEROBALLISTIC MODEL WITH TEST MATERIAL - Google Patents

Abstract

 The trap for the high-speed aeroballistic model with the test material is made in the form of a barrier installed in the transverse direction relative to the flight path of the model, characterized in that the barrier is made in the form of three successively installed sections, the first of which is a set of screens made of plastic film oriented transverse to the direction of movement models and installed with air gaps in the longitudinal direction, the second is filled with fluffy tow, and the third is with polyethylene gras zeros, the distance between the film screens and the density of tow are determined depending on the speed and weight and size characteristics of the model.

Description

The utility model "Trap for a high-speed aeroballistic model with test material" refers to bench equipment for ground-based aeroballistic testing of aircraft materials and structures and can be used to capture models prepared by the studied material and used in high-speed erosion testing of samples in interaction with atmospheric formations.

The well-known "Camera for trapping shells (bullets)" (UK patent No. 1078590, F41j), made in the form of a tank filled with water and blocked by a layer of steel plates, inclined relative to the direction of movement of the projectile.

The disadvantage of this device is its destructive effect on the captured object, because after the shot the projectile hits the stove and ricochets into the water tank. When struck against a rigid barrier, the projectile is deformed, while it may be destroyed with a corresponding loss of mass. This drawback does not allow the use of this device in aeroballistic erosion tests, where it is necessary to preserve the model with the test sample after erosion from particles of atmospheric formations.

The purpose of the proposed utility model is to ensure reliable, non-destructive trapping of the aeroballistic model during high-speed aeroballistic erosion tests, after its passage through a simulator of atmospheric formations.

This goal is achieved by the fact that in the proposed utility model "Trap for a high-speed aeroballistic model with the test material", in contrast to the analogue, an obstacle of three sections is used that is installed across the direction of movement of the model, the first of which is equipped with polyethylene film screens with air gaps in longitudinal direction, the second is filled with fluffy tow, and the third is filled with polyethylene granules. The transverse dimensions of the obstacles, the number of screens, the width of the air gaps, the density and distribution of the tow over the thickness are determined depending on the dynamic and mass-dimensional characteristics of the model.

Figure 1 presents a trap diagram for a high-speed aeroballistic model as part of a test aeroballistic installation.

The trap is carried out in three sections, the first section 1 includes a frame holder containing a set of screens 2 made of plastic film oriented transversely to the direction of movement of the model and installed with air gaps in the longitudinal direction, the holders are removable.

The second section 3 is made in the form of a container (for example, a plastic bag) filled with fluffy tow. The third section 4 of the trap is made in the form of a container filled with plastic granules. Trap sections are arranged sequentially along the firing line 5 of the throwing unit 6 after the zone of the simulator of atmospheric formations 7.

The trap for the aeroballistic model works as follows:

- an aeroballistic model with the test material is thrown by an aeroballistic installation 6 and flies through a simulator of atmospheric formations 7, subjected to erosion;

- an aeroballistic model with the test material having traces of erosion, falls into the first section of the barrier 1 and is softly braked by plastic screens 2, breaking them along the contour of the model.

In this case, the model is covered with a layer from the melting of polyethylene screens, which protects it during subsequent movement in the trap;

- in the future, a phased interaction of the model with tow and polyethylene granules located in the second and third sections of the trap occurs, where the model is finally braked;

- after extracting the aeroballistic model from the trap, the model is separated from the adhered polyethylene mass and transmitted for analysis of erosion effects.

The design of the proposed trap is easily transformable, simple and cheap in execution and provides reliable and non-destructive braking of the aeroballistic model prepared by the test material.

Claims (1)

The trap for the high-speed aeroballistic model with the test material is made in the form of a barrier installed in the transverse direction relative to the flight path of the model, characterized in that the barrier is made in the form of three successively installed sections, the first of which is a set of screens made of plastic film oriented transverse to the direction of movement models and installed with air gaps in the longitudinal direction, the second is filled with fluffy tow, and the third is with polyethylene gras zeros, the distance between the film screens and the density of tow are determined depending on the speed and weight and size characteristics of the model.