RU2256262C1 - Aerial fairing of missile - Google Patents

Abstract

FIELD: rocketry, mainly constructions of aerial fairings with a radar guidance system.

SUBSTANCE: the antenna fairing of the missile includes a radiotransparent shell of porous quartz ceramics consisting of an inner radiotransparent power element of porous ceramic with polymer inserted in the pores and an outer heat-shielding element of porous quartz ceramics connected by a layer of sealant to a frame of invar. The outer heat-shielding element additionally has an outer sealing layer of porous quartz ceramics with polymer introduced in the pores. The thickness of the layers of ceramics with polymer are equal in height of the fairing and make up 1-2 mm. Oligomer with a molecular weight of 2900 is used as polymer, and quartz ceramics with a porosity of 10-12%, bending strength not lower than 40 Mpa and a coefficient of heat conduction not higher than 1.0 W/m/K is used as porous quartz ceramics.

EFFECT: enhanced service life.

3 cl, 1 dwg

Description

The invention relates to rocket technology, and more specifically to the design of antenna fairings made of quartz ceramics, and can be used for the manufacture of antenna fairings for high-speed air-to-air and air-to-ground missiles, which have been used in difficult climatic conditions under a carrier for a long time.

Currently, there is the problem of creating antenna fairings for rockets fixed under the carrier, operating in difficult climatic conditions in the temperature range of -60 ° C - + 400 ° C and retaining their functions during sharp heating to 1000 ° C and higher during the autonomous flight of the rocket.

It is known that for radio-controlled missiles of these classes fiberglass fairings with a rather complex moisture protection system or fairings made of non-porous inorganic materials, such as high-alumina ceramics and glass metal (pyrokeram-USA) are used. However, the use of fiberglass fairings is limited in terms of heat resistance, uniformity of dielectric properties, which sharply worsens the tactical and technical characteristics of missiles. In addition, surface moisture-proof coatings are not reliable during long-term operation of rockets, they are easily destroyed by mechanical influences (dust, hail, etc.).

Fairings made of non-porous inorganic materials are highly resistant to climatic influences, do not require the application of organic moisture protection, but are limited in resistance to thermal shock, which significantly reduces the speed capabilities of missiles in autonomous flight.

Fairings made of quartz ceramics practically have no restrictions on thermal loads, they have good and stable radio technical characteristics, but they were not used for these classes of rockets because of their porosity and insufficient strength.

Known antenna fairing made of quartz ceramics, including a radiolucent ceramic shell and Invar frame, connected by a sealant layer (RF patent No. 2090956, H 01 Q 1/42, 1994). The absence of sealing and hardening elements in the design significantly reduces the operational characteristics of the fairing and does not allow its use for this type of missile.

The closest technical solution is an antenna fairing made of quartz ceramics according to the patent of the Russian Federation No. 2209494, H 01 Q 1/42, dated July 27, 2003 (prototype), "consisting of a radio-transparent internal power element made of porous quartz ceramics with a polymer introduced into the pores and an external heat-shielding element made of porous quartz ceramic, the thickness of the internal power element being 0.05-0.1 of the total wall thickness of the shell or uniformly increasing from the toe to the base to a value corresponding to 0.1-0.9 of the total wall thickness, and thicknesses and the external heat-shielding element changes inversely while maintaining the overall electrical thickness of the shell wall, while a moisture-proof coating is applied to the outer surface of the heat-shielding element. " The coating is applied by spraying and hot curing from fluoroplastic or organosilicon enamel.

The disadvantage of the proposed design are the following factors:

1. A moisture-proof coating applied to the outer surface of a quartz ceramic fairing by spraying known organic enamels has the same drawbacks as coatings applied to fiberglass fairings:

- they are easily destroyed by mechanical action of solid objects and particles (dust, hail, etc.);

- the coefficient of linear thermal expansion (CTE) of the coating is very different from the CTE of quartz ceramics, which during thermal cycling causes peeling of the coating and loss of integrity;

- are strongly exposed to moisture, light radiation with loss of moisture protective properties and require updating.

2. The introduction into the pores of quartz ceramic ceramics to a depth of 0.9 of the total wall thickness worsens the high-temperature properties of the material. Pyrolysis of an organic polymer inside the shell wall without oxygen during high-speed heating (thermal degradation) not only affects the dielectric characteristics of the fairing material, but also destroys it.

3. As experimental studies show, hardening of quartz ceramics with an organopolymer does not always take place. For quartz ceramics with porosities below 10%, the hardening effect is negligible. There is also no direct dependence of the increase in the strength of the material with an increase in the depth of impregnation.

4. The disadvantages of the prototype include the complexity of the manufacture of a layered shell while maintaining electrical thickness with a variable depth of impregnation of up to 0.9 and different values of the dielectric constant of the layers, since the electric wall thickness is determined not only by the thickness of the layers, but is also connected by a quadratic dependence with the dielectric constant of the layers .

The design of the antenna fairing made of quartz ceramic proposed in the prototype is intended for single-use missiles, for example, for air-to-air missiles that are not exposed to prolonged climatic effects.

The aim of the present invention is to provide an antenna fairing made of quartz ceramics for high-speed rockets, for a long time operated under carriers in the temperature range of -60 ° C - + 400 ° C and at a temperature of the fairing in an autonomous flight of a rocket up to 1000 ° C and higher while maintaining radio engineering, strength and other characteristics of the fairing.

This goal is achieved in that the antenna cowl, comprising a radiolucent quartz ceramic shell, consisting of an internal radiolucent power element made of porous quartz ceramics with a polymer incorporated into the pores and an external heat-shielding element made of porous quartz ceramics, further comprises an outer layer of porous quartz ceramics with an inserted into the pores by the polymer, and the thicknesses of the layers of ceramics with the polymer are equal in height to the fairing and are 1-2 mm. The polymer used was MFSS-8 oligomer with a molecular weight of 2900, and quartz ceramic with a porosity of 10-12%, bending strength not lower than 40 MPa and thermal conductivity not higher than 1.0 W / m was used as porous quartz ceramic for the fairing. ·TO.

Distinctive features of the proposed technical solution are the following features:

1. The radiolucent casing of a porous quartz ceramic fairing, comprising an internal force element of porous quartz ceramic with a polymer introduced into the pores, further comprises an outer porous quartz ceramic sealing layer with a polymer introduced into the pores, while the thickness of the ceramic and polymer layers is height fairings are equal and make 1-2 mm.

The outer layer of porous quartz ceramics with a 1-2 mm thick polymer introduced into the pores provides moisture protection for the fairing during storage, rocket flight under the carrier, and increases the resistance of the ceramic fairing to rain and field erosion.

Thus, the erosion resistance of porous quartz ceramics impregnated with polymer to a depth of 1 mm, when exposed to rain with an intensity of 25 mm / hour at a drop speed of 800 km / hour, is 10-20 times higher than that of non-impregnated. The thickness of the impregnated layers is the same and limited to 1.0-2.0 mm for the following reasons:

- it is sufficient to provide hardening, sealing and moisture protection of the shell while maintaining the PTX of the ceramic shell;

- creates a wall symmetrical in electric thickness, which positively affects PTX;

- simplified manufacturing technology of the fairing at the stages of hardening, sealing and moisture protection of the porous shell.

2. As the polymer, the oligomer MFSS-8 with a molecular weight of 2900 was chosen, which stably, without destruction, works in the temperature range -60 ° С - + 400 ° С, and thermo-oxidative degradation, possible during autonomous flight (temperature over 1000 ° С) , is non-explosive and does not impair the radio performance of the fairing.

Acetone solutions MFSS-8 with a density of 0.95-0.96 g / cm ^{3 are} well absorbed into quartz ceramics with a porosity of 10-12% without filtration due to the capillary properties of porous ceramics.

3. Quartz ceramics with a porosity of 10-12%, which has good suction ability of helical molecules of the MFSS-8 oligomer, was chosen as the shell material. Such ceramics are characterized by maximum hardening after impregnation and polymerization (1.5-2.0 times).

It has relatively high strength characteristics in the initial state, has optimal heat-shielding and dielectric properties.

In addition, the technology for the production of ceramic shells with such porosity is simpler; soft firing modes with lower sintering temperatures are used.

4. Eliminates the need to apply paintwork for moisture protection of the porous ceramic shell.

The proposed design of the antenna cowl is shown in the drawing.

It consists of a radiolucent shell made of quartz ceramic 1, Invar frame 2, connected to the ceramic shell with a layer of sealant 3.

The radiolucent sheath includes an internal power element made of porous quartz ceramics with polymer 4 inserted into the pores, a heat-protective element made of porous quartz ceramics 5 and an outer sealing layer of porous quartz ceramics with polymer introduced into the pores 6. The thickness of the power element and the sealing layer of the sheath are the same in height and is 1-2 mm. The ceramic shell is made of quartz ceramics with a porosity of 10-12%, a bending strength of at least 40 MPa and a thermal conductivity of not more than 1.0 W / m · K. As the polymer used oligomer MFSS-8 with a molecular weight of 2900.

The manufacturing technology of the proposed design of the antenna fairing made of quartz ceramic includes the following main steps:

- the manufacture of a ceramic shell by water slip casting in plaster molds, followed by drying and firing to obtain a porosity of quartz ceramics of 10-12% and a bending strength of at least 40 MPa, thermal conductivity of not more than 1.0 W / m · K;

- mechanical processing of the casing on a screw-cutting lathe with a diamond tool according to copiers to a given wall thickness and product profile, depending on the dielectric constant of the material in the casing;

- impregnation of the inner and outer surfaces of the shell with an acetone solution of the MFSS-8 oligomer with a density of 0.950-0.960 g / cm ³ to a depth of 1.0-2.0 mm, followed by polymerization at a temperature of 325 ° C;

- assembly of the shell with Invar frame through a layer of sealant.

For the first time, the proposed design of an antenna fairing made of quartz ceramics allows us to solve the problem of creating an antenna fairing for high-speed rockets operating in difficult climatic conditions under a carrier in the temperature range of -60 ° С - + 400 ° С and under thermal loads in autonomous flight up to temperatures of 1000 ° С and higher.

To ensure moisture protection of the fairing made of porous quartz ceramics, instead of the CDW from organic soils and enamels, fairing sealing was applied by impregnating the porous shell on the outer surface with an organopolymer, which simultaneously increases its strength and erosion resistance. Such a solution to the problem can also be used for rocket fairings of other classes.

The technological processes of hardening the ceramic shell - the creation of a power element on the inner surface and a moisture-proof outer layer of porous ceramics with polymer are combined, which greatly simplifies the manufacturing technology of fairings, reduces labor costs and cost.

Claims (3)

1. Antenna rocket fairing, comprising a radiolucent shell of porous quartz ceramics, consisting of an internal radiolucent power element of porous quartz ceramics with a polymer introduced into the pores and an external heat-shielding element of porous quartz ceramics and connected by a sealant layer with Invar frame, characterized in that the external heat-shielding element further comprises an external sealing layer of porous quartz ceramics with a polymer introduced into the pores, and the thickness of the ceramics layers polymer equal height and fairing is 1-2 mm. 2. Antenna fairing according to claim 1, characterized in that the polymer used is an oligomer MFSS-8 with a molecular weight of 2900. 3. The antenna fairing according to claim 1, characterized in that quartz ceramics with a porosity of 10-12%, bending strength of at least 40 MPa and a thermal conductivity of not higher than 1.0 W / m · are used as porous quartz ceramics for the manufacture of the fairing. TO.