13-05-2003, 19:24
[you cannot sell or product them without our permission!]
the cost is: 1.5 million.
http://mig.lathwood.co.uk/upload/0/0201s.jpg
in joint effort of Klamathian and Taraskovyan scientitst The Yakhont-3 antiship missile was developed, it is designed to combat naval surface-ship groupings/carriers and single ships under heavy fire and electronic counteraction.
http://mig.lathwood.co.uk/upload/y/yakhont.jpg
An air-launched version of the missile with the take-off weight of 2,500 kg (5,507 lb.)
http://mig.lathwood.co.uk/upload/s/su32f.jpg
The missile is noted for:
- over-the-horizon range;
- true "fire-and-forget" performance;
- flexible flight path ("low", "high - low");
- supersonic speed at all flight phases;
- multi-platform capability permitting their use by surface ships of all major classes, submarines and ground-based launchers.
Capabilities of the Yakhont antiship missile
http://mig.lathwood.co.uk/upload/0/0204.jpg
1. Preliminary targeting
2. Launch phase
3. Acceleration and ascent
4. High-altitude cruise phase
5. Diving phase
6. Seeker head activation and acquisition of target
7. Descent and low-altitude flight
8. Seeker head repeated activation
and missile homing
The parameters and performance characteristics given in Table 1 have become technically feasible due to the application of an array of unique design solutions and technology-intensive components and, above all, a supersonic ramjet sustainer motor, capable of operating in a broad range of speeds and altitudes, a noise-adaptive radar homing head, and a powerful onboard computer.
In the development of the missile, the Taraskovyan and klmathian designers made use of a system approach, where different components, producing different output parameters, were integrated into a complex, well-tuned system capable of accomplishing its dedicated purpose with maximum efficiency. For the missile's capabilities, refer to the Figure.
Due to the Yakhont-3 short flying time (its speed is 3.5 times greater than the speed of sound) and the long effective range of its seeker head.
The ability to observe the entire target area from a high altitude, augmented by the enhanced capabilities of the antiship missile control system, make it possible to cue missiles to hostile ships in a group and discriminate false targets.
After launch, Yakhont-3 early descent to a low altitude, combined with its supersonic speed and seaskimming flight mode in the homing phase, make it possible to avoid detection and tracking of the missile by even the target's most sophisticated air defense systems.
The missiles's compactness and maintainability on board its platform are not the least important factors determining its appearance. First of all it can be explained by the missiles's unique construction unrivaled in terms of the degree of integration of components. Basically, the entire missile - from the nose air intake to the nozzle exit section - is a propulsion plant arranged in an airframe. Except for the intake bullet, where the control system and warhead are arranged, all of the missile's internal spaces, including the ramjet motor air duct, are filled with sustainer motor propellant and accommodate the built-in solid-propellant booster stage. The missile is enclosed in a sealed launch-container. The fact that there is almost no clearance between the missile's fuselage and internal surfaces of the launch-container indicates that the degree of integration of components is very high. The missile size provides for a two- or three-fold increase in the number of the missiles carried on board a platform.
The launch-container is an integral part of the missile system. The missile is dispatched from the manufacturing plant, shipped, stored and delivered to the user in its launch-container ready for use at all times. The missile's systems check-out is made without removing the weapon from its launch-container.
The launch-container, with the missile in it, is very simple to operate and maintain. It requires neither any liquid or gas for maintenance nor specific microclimate for storage and on board its carrier. All this simplifies operation and maintenance procedures and enhances the weapon's reliability.
As the missile's basic features encompass the use of a launch-container, a wide range of launch angles and an advanced firing method which does not require flame deflectors, the missile can easily be blended into the architecture of various platforms. It should be noted here that launchers of different designs can be used: very simple rack launchers intended for installation on low-tonnage vessels of the "guided-missile boat - corvette" class or vertical-launch modular systems designed for installation on large-displacement surface ships, i.e. frigates, destroyers and cruisers.
In addition to the well-known inclined and vertical installation methods applied to submarine- and ground-based antiship missiles, some innovative basing and launching methods have emerged for which Yakhont is quite suitable.
We can say with confidence that no one antiship missile system currently in service elsewhere in the world possesses such an array of unique technical and operational characteristics as Yakhont-3. Taking into account current trends in the development of the navies in the world, this fact is of paramount importance.
even light warships armed with it will be able to perform missions that before could only be handled by large combatants.
Thus, we have good undertakings for the future and all reason to believe that the Yakhont-3 antiship missile system will appear on the foreign market. Operators can rely on this system as it will ensure high operational effectiveness of their warships and security of sea borders.
Basic Characteristics of the Yakhont Antiship Missile System
Firing range, km: 800 km
Speed, Mach 3 to 3.5
Flight altitude, final phase, m 5 to 15
Weight of warhead, kg 250
Guidance active-passive,
radar seeker head
Minimum target detection range
in active mode, km 50
Maximum seeker head search angle, deg. ±45+
Propulsion plant solid propellant
booster stage;
liquid-propellant
ramjet motor
Launcher type underwater,
surface, ground,air
Launch method from closed
bottom
launch-container
Launch angle range, deg 15 to 90
Weight, kg:
launch about 3,000
in launch-container about 3,900
Launch-container dimensions, m: |
length
diameter 8.9
0.7
the cost is: 1.5 million.
http://mig.lathwood.co.uk/upload/0/0201s.jpg
in joint effort of Klamathian and Taraskovyan scientitst The Yakhont-3 antiship missile was developed, it is designed to combat naval surface-ship groupings/carriers and single ships under heavy fire and electronic counteraction.
http://mig.lathwood.co.uk/upload/y/yakhont.jpg
An air-launched version of the missile with the take-off weight of 2,500 kg (5,507 lb.)
http://mig.lathwood.co.uk/upload/s/su32f.jpg
The missile is noted for:
- over-the-horizon range;
- true "fire-and-forget" performance;
- flexible flight path ("low", "high - low");
- supersonic speed at all flight phases;
- multi-platform capability permitting their use by surface ships of all major classes, submarines and ground-based launchers.
Capabilities of the Yakhont antiship missile
http://mig.lathwood.co.uk/upload/0/0204.jpg
1. Preliminary targeting
2. Launch phase
3. Acceleration and ascent
4. High-altitude cruise phase
5. Diving phase
6. Seeker head activation and acquisition of target
7. Descent and low-altitude flight
8. Seeker head repeated activation
and missile homing
The parameters and performance characteristics given in Table 1 have become technically feasible due to the application of an array of unique design solutions and technology-intensive components and, above all, a supersonic ramjet sustainer motor, capable of operating in a broad range of speeds and altitudes, a noise-adaptive radar homing head, and a powerful onboard computer.
In the development of the missile, the Taraskovyan and klmathian designers made use of a system approach, where different components, producing different output parameters, were integrated into a complex, well-tuned system capable of accomplishing its dedicated purpose with maximum efficiency. For the missile's capabilities, refer to the Figure.
Due to the Yakhont-3 short flying time (its speed is 3.5 times greater than the speed of sound) and the long effective range of its seeker head.
The ability to observe the entire target area from a high altitude, augmented by the enhanced capabilities of the antiship missile control system, make it possible to cue missiles to hostile ships in a group and discriminate false targets.
After launch, Yakhont-3 early descent to a low altitude, combined with its supersonic speed and seaskimming flight mode in the homing phase, make it possible to avoid detection and tracking of the missile by even the target's most sophisticated air defense systems.
The missiles's compactness and maintainability on board its platform are not the least important factors determining its appearance. First of all it can be explained by the missiles's unique construction unrivaled in terms of the degree of integration of components. Basically, the entire missile - from the nose air intake to the nozzle exit section - is a propulsion plant arranged in an airframe. Except for the intake bullet, where the control system and warhead are arranged, all of the missile's internal spaces, including the ramjet motor air duct, are filled with sustainer motor propellant and accommodate the built-in solid-propellant booster stage. The missile is enclosed in a sealed launch-container. The fact that there is almost no clearance between the missile's fuselage and internal surfaces of the launch-container indicates that the degree of integration of components is very high. The missile size provides for a two- or three-fold increase in the number of the missiles carried on board a platform.
The launch-container is an integral part of the missile system. The missile is dispatched from the manufacturing plant, shipped, stored and delivered to the user in its launch-container ready for use at all times. The missile's systems check-out is made without removing the weapon from its launch-container.
The launch-container, with the missile in it, is very simple to operate and maintain. It requires neither any liquid or gas for maintenance nor specific microclimate for storage and on board its carrier. All this simplifies operation and maintenance procedures and enhances the weapon's reliability.
As the missile's basic features encompass the use of a launch-container, a wide range of launch angles and an advanced firing method which does not require flame deflectors, the missile can easily be blended into the architecture of various platforms. It should be noted here that launchers of different designs can be used: very simple rack launchers intended for installation on low-tonnage vessels of the "guided-missile boat - corvette" class or vertical-launch modular systems designed for installation on large-displacement surface ships, i.e. frigates, destroyers and cruisers.
In addition to the well-known inclined and vertical installation methods applied to submarine- and ground-based antiship missiles, some innovative basing and launching methods have emerged for which Yakhont is quite suitable.
We can say with confidence that no one antiship missile system currently in service elsewhere in the world possesses such an array of unique technical and operational characteristics as Yakhont-3. Taking into account current trends in the development of the navies in the world, this fact is of paramount importance.
even light warships armed with it will be able to perform missions that before could only be handled by large combatants.
Thus, we have good undertakings for the future and all reason to believe that the Yakhont-3 antiship missile system will appear on the foreign market. Operators can rely on this system as it will ensure high operational effectiveness of their warships and security of sea borders.
Basic Characteristics of the Yakhont Antiship Missile System
Firing range, km: 800 km
Speed, Mach 3 to 3.5
Flight altitude, final phase, m 5 to 15
Weight of warhead, kg 250
Guidance active-passive,
radar seeker head
Minimum target detection range
in active mode, km 50
Maximum seeker head search angle, deg. ±45+
Propulsion plant solid propellant
booster stage;
liquid-propellant
ramjet motor
Launcher type underwater,
surface, ground,air
Launch method from closed
bottom
launch-container
Launch angle range, deg 15 to 90
Weight, kg:
launch about 3,000
in launch-container about 3,900
Launch-container dimensions, m: |
length
diameter 8.9
0.7