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Unguided aircraft rockets The S-13 unguided aircraft rockets employed from aircraft and helicopters. The S-13 unguided aircraft rockets are classified as air-to-ground rockets. -
Unguided aircraft rockets The S-13 unguided aircraft rockets employed from aircraft and helicopters. The S-13 unguided aircraft rockets are classified as air-to-ground rockets. -
Unguided aircraft rockets The S-8 unguided aircraft rockets designed to destroy any ground targets and are used on almost all Russian-made military helicopters and aircraft. The rockets are powered by a versatile solid fuel rocket motor. Their construction has incorporated progressive methods for body forming from ready-made rolled aluminum, original design (locking of folding fins) and process solutions aimed at reducing manufacturing man-hours, costs and increasing operational reliability.
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Unguided aircraft rockets The S-8 unguided aircraft rockets designed to destroy any ground targets and are used on almost all Russian-made military helicopters and aircraft. The rockets are powered by a versatile solid fuel rocket motor. Their construction has incorporated progressive methods for body forming from ready-made rolled aluminum, original design (locking of folding fins) and process solutions aimed at reducing manufacturing man-hours, costs and increasing operational reliability.
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Unguided aircraft rockets The S-8 unguided aircraft rockets designed to destroy any ground targets and are used on almost all Russian-made military helicopters and aircraft. The rockets are powered by a versatile solid fuel rocket motor. Their construction has incorporated progressive methods for body forming from ready-made rolled aluminum, original design (locking of folding fins) and process solutions aimed at reducing manufacturing man-hours, costs and increasing operational reliability. -
Unguided aircraft rockets The S-8 unguided aircraft rockets designed to destroy any ground targets and are used on almost all Russian-made military helicopters and aircraft. The rockets are powered by a versatile solid fuel rocket motor. Their construction has incorporated progressive methods for body forming from ready-made rolled aluminum, original design (locking of folding fins) and process solutions aimed at reducing manufacturing man-hours, costs and increasing operational reliability.
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Unguided aircraft rockets The S-8 unguided aircraft rockets designed to destroy any ground targets and are used on almost all Russian-made military helicopters and aircraft. The rockets are powered by a versatile solid fuel rocket motor. Their construction has incorporated progressive methods for body forming from ready-made rolled aluminum, original design (locking of folding fins) and process solutions aimed at reducing manufacturing man-hours, costs and increasing operational reliability.
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Unguided aircraft rockets The S-8 unguided aircraft rockets designed to destroy any ground targets and are used on almost all Russian-made military helicopters and aircraft. The rockets are powered by a versatile solid fuel rocket motor. Their construction has incorporated progressive methods for body forming from ready-made rolled aluminum, original design (locking of folding fins) and process solutions aimed at reducing manufacturing man-hours, costs and increasing operational reliability.
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Unguided aircraft rockets The S-8 unguided aircraft rockets designed to destroy any ground targets and are used on almost all Russian-made military helicopters and aircraft. The rockets are powered by a versatile solid fuel rocket motor. Their construction has incorporated progressive methods for body forming from ready-made rolled aluminum, original design (locking of folding fins) and process solutions aimed at reducing manufacturing man-hours, costs and increasing operational reliability.
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21B2 remote-sensing data receiving and processing station based on mobile receiving post The Skorpion remote-sensing (RS) data receiving and processing station can be based on mobile or stationary receiving post. The Skorpion-4S remote-sensing data receiving and processing station is designed to receive and process information from a Resurs-P type remote-sensing spacecraft (S/C) and provide two-way service communications with a Russian remote-sensing data processing and S/C control center (hereinafter Center).
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Launch vehicle The Soyuz-FG middle-class launch vehicle (LV) is intended for injection of automatic spacecraft for national economy, scientific research and spacecraft for special purposes as well as manned and cargo spaceships according to the program of the International Space Station. The three-stage Soyuz-FG LV designed on the base of the Soyuz-U LV. It can liftoff from launch pads currently operational at the Plesetsk and Baikonur Cosmodromes. The Soyuz-FG LV is designed as a system with parallel separation of the lateral rocket engine assemblies upon the first stage burnout, and transverse separation of the second stage engine assembly after burnout. Each LV assembly has its own propulsion unit using non-toxic propellants (oxygen and kerosene). In contrast to Soyuz-U launch vehicle modernized engines with heightened specific thrust on units of the 1-st and the 2-nd stages, developed for Soyuz-2 LV, are used for Soyuz-FG LV for increasing load-carrying capacity. Soyuz-FG LV can be equipped with nose fairing of the following diameters: 2.7 m; 3.0 m; 3.3 m; 3.715 m. Fregat kick stage is designed for payload transfer from open intermediate orbit of a launch vehicle to scheduled orbit of spacecraft injection.
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Parachute systems for recovery and landing of manned and unmanned space vehicles The Parachute systems for recovery and landing of manned space vehicles type Vostok, Voschod, Soyuz, for recovery of boosters of rocket launchers Energia, Arian-5 and other space systems provide compactness, high reliability and possibility of limiting of maximum overload.
