powerwoot Publish time 27-3-2007 01:50 PM

ATGM series

AT-13 / 9K115 Metis (M)

http://warfare.ru/thumb.aspx?img=0702ey70/update/jan2005/2/met.jpg http://warfare.ru/thumb.aspx?img=0702ey70/update/feb2001/Metis1.jpg

Armour penetration behind ERA, mm 800
Warhead types tandem hollow-charge, HE
Firing range (day/night), m: maximum 1500, min 80
Missile calibre, mm 130
Average missile speed, m/s 180
Weight, kg: missile 13.8 launcher 10.0
IR system weight (with power supply cells and bottles), kg 6.0
Operating temperature range, 癈 -30 ... +50

Warhead tandem HEAT, thermobaric
Armor penetration, mm 850 - 900
Firing range, m:
maximum 1,500
minimum 80
Guidance semiautomatic with commands transmitted
over wire link
ERA penetration ensured
Time into and out of action, s 10 - 20
Rate of fire, rds/min 3
Weight, kg:
launcher 10.5
container with missile 13.8
Overall dimensions, mm:
missile caliber 130
container length 980
Weight of packs, kg:
№ 1 (launcher and missile/thermal sight) 25.1/18.5
№ 2 (two missiles) 28.6

The METIS-M ATGM system is designed to defeat modern armoured targets with improved protection, including those equipped with explosive reactive armour, as well as fortifications and weapon emplacements, and other pinpoint targets.

The system employs missiles with warheads of two types. The first is a tandem hollow-charge warhead designed to destroy modern and future tanks with reactive armour. The second is a fuel-air explosive warhead. It provides blast and incendiary effects comparable to those of large calibre artillery rounds and is capable of destroying light armoured vehicles, fortifications and small-size targets. The METIS-M missile is roll-stabilized in flight and the tracking flare is mounted eccentrically so that it traces a circle as the missile rolls.

The IR tracking system derives deviation from the centre of this circle and steering sense from the movement of the flare. The missile is ejected from its launch container by a booster motor stage, then the main rocket motor ignites. This allows the weapon to be fired from a confined space, though a clear area of at least 2 m behind the launch tube is necessary.

The system is designed to defeat armored targets, fortifications and weapon emplacements.
The system components: launcher, containerized missiles, thermal sight and test equipment for the launcher and thermal sight.
The missiles are fitted with warheads of two types: a tandem HEAT warhead and a thermobaric warhead possessing the high-explosive and incendiary effect of the 155mm artillery projectile.
The system allows delivery of fire in the prone position from organized and deployed sites, firing from the standing foxhole position as well from the shoulder, and carrying the ATGM system in packs, with pack No. 1 containing the launcher and missile in the firing attitude and pack No. 2 accommodating two Metis-M missiles.
Organizational and field maintenance of the ATGM system is carried out using test equipment.
To train operators, use is made of field and computeraided trainers.

AT-14 / 9K135 Kornet

http://warfare.ru/thumb.aspx?img=0702ey70/update/feb2001/Kornet1.jpg http://warfare.ru/thumb.aspx?img=0702ey70/update/jan2005/2/korn.jpg

Launcher weight, kg 26
Thermal sight weight, kg 11
Guidance system semiautomatic laser beam riding
Missile weight (with container), kg 29
Warhead types tandem hollow-charge, HE
Firing range, m 100 ... 5,500 (100 ... 3,500 m at night)
Missile calibre, mm 152
Missile length, mm 1,200
Cyclic rate of fire rds/min 1 ... 2
Operating temperature range, 癈 -20 ... +60

The KORNET-E ATGM system is intended to destroy modern and future tanks protected with explosive reactive armour, hardened point targets (i.e., hull-down tanks, pillboxes, fortifications) and small-size targets, as well as structures and troops in the open.

The key features of the KORNET-E ATGM system are semi-automatic laser beam guidance system and thermal imaging sight for night operation. The launcher unit is easy to carry and mount in different types of vehicles owing to its small dimensions, light weight, and simplicity in disassembling. Modular design and small-size of its guidance system allow this weapon to be used on various vehicles.

The system stands out owing to its high immunity to jamming of laser beam guidance channel in combat operations. A thermal sight is provided to fire at night. The system can be used in various climatic conditions and geographic regions, in high mountainous areas and over a water surface. The effective tandem hollow-charge warhead is capable to engage existing and future tanks at any angles of approach. The HE warhead with thermobaric effect can effectively destroy various fortifications, missile launchers, and soft-skinned targets. The system does not require tests during its storage and employment.

The missiles are fitted with two types of warheads: the tandem HEAT warhead and the thermobaric warhead possessing the high-explosive and incendiary effect of a large-caliber artillery projectile.
The small weight and dimensions of the launcher, the night sight and missiles make it possible to use the Kornet-E system independently or install it on various wheeled and tracked combat vehicles, including the BMP-3 ICV with an automated ammunition stowage rack.
It is possible to fire two missiles at one target simultaneously.

powerwoot Publish time 27-3-2007 01:53 PM

AT-15 Khrisantema

http://warfare.ru/thumb.aspx?img=0702ey70/update/feb2001/Khriz1.jpg

Max range of fire, m 6,000
Crew, persons 2
Missile speed supersonic
Ammunition load, msls 15
Types of missile warheads Tandem/HEAT, HE
Missile loading automatic
Guidance automatic radar, semi-automatic laser
Clutter and jamming resistance high
Armour-piercing capability defeats all modern and perspective tanks with ERA.

Immunity to adverse weather and low/nil optical and thermal visibility conditions: radar acquisition of ground, surface and aerial targets;

Increased range and rate of fire: up to 15 targets can be engaged within a few minutes at a range of up to 6000 m;

Unique dual-mode/automatic guidance: simultaneous two targets firings with fully automatic radar guidance/semi-automatic laser beam riding;

Passive and Active Jamming Robustness (both to man-made and natural interference);

High Mobility and Survivability: the BMP-3 chassis provides armour protection as well as cross-country, amphibious and self-entrenching capabilities.
The KHRIZANTEMA-S (Chrysanthemum) is a code-name of the new generation self-propelled multi-purpose guided missile system designed by KBM Engineering Design Bureau, Russia. This is a unique versatile weapon system
intended to engage with high rate of fire various targets such as modern/prospective main battle tanks equipped with ERA and armoured combat vehicles, fortified structures, pill-boxes, small vessels, as well as slow/low-flying aircraft and helicopters, at a range of up to 6000 meters at any time of day or night, under any weather conditions, and in any combat environment.

The system comprises a combat vehicle with guidance equipment and ready-to-fire guided missiles armed with various types of warheads, stationary and mobile test equipment, training aids. Its crew consists of two men: commander/gunner and driver, both seated in front of the vehicle under full armour protection.

The system is armed with supersonic guided missiles that can carry either tandem shaped-charge or high explosive warheads. Ammunition section contains 15 ready-to-fire missiles in sealed expendable containers. The two-round launcher is served by an autoloading system. Once the two missiles have been launched, the launcher arm is retracted into the hull and loaded automatically with required missile warheads. The system's unique feature is its two modes of guidance. In the primary mode both the priority target is tracked and the missile guided automatically by a millimetre-waveband radar by day and night under any battlefield conditions (dense smokes, dust, fires, fog, rain, snow, etc.), without the gunner having to obtain visual contact with the target. In the second mode which is semi-automatic laser beam riding, the sight must be kept on the target until the missile strikes home. The fire control system allows two targets to be engaged simultaneously, using different modes of guidance. The system demonstrates robust performance against passive and active countermeasures. Dust, dense smoke and numerous fires at the battlefield do not affect the guidance system either.

The KHRIZANTEMA Missile System is mounted on the proven BMP-3 IFV chassis. The vehicle retains the full amphibious capability of the standard BMP-3. Its standard equipment includes a NBC system and a front-mounted dozer blade.
Radar detection of targets and their engagement with the supersonic missiles fired at a high rate at long range allow to eliminate threats at an early stage enhancing overall survivability of the KHRIZANTEMA System.

The system can also be mounted on any other platform.

Nikolai Gushchin
Head and Chief Designer of the KBM Engineering
Design Bureau, D. Sc. (Technology)

S elf-propelled antitank guided missile systems are the most effective means to inflict damage upon armor materiel.
An analysis of the development trends of this class weapon and the estimate of information on regional military conflicts make it possible to determine the following main requirements for antitank missile systems of the early 21st century:
- all-weather and round-the-clock capability of combat use, including dust and smoke screen environment;
- potential of firing at several targets and implementation of the fire and forget principle;
- high armor penetration of the missile HEAT warhead;
- long range and high accuracy of fire, high firing rate and survivability on the battlefield.
Nowadays, there is no antitank missile weapon with characteristics that meet the aforementioned specifications in the aggregate, although separate requirements are realized in such antitank systems as Javelin, Hellfire, TOW-2A, HOT-2, Shturm-S, Kornet-E and some others.
The implementation of these governing requirements in the aggregate is clearly a complex scientific and technical problem demanding the efforts of many firms and highly qualified specialists as well as a protracted period of design and development.
It is necessary to depart from traditional approaches used to design modern antitank weapon systems and employ principally new scientific and engineering approaches to develop ATGM systems. This problem was successfully resolved in Russia. The Khrizantema (Chrysanthemum) system fully meets the requirements imposed on advanced antitank weapons.
The system was developed by the KBM Engineering Design Bureau together with co-executers basing on the solution of the most complicated problem: use of the radar system as part of the entire ATGM system. The problem complexity consisted in ensuring the stable and highly precise tracking of ground targets and missile guidance at ranges of 5,000 to 6,000 m in the immediate vicinity of the ground surface. This problem was successfully solved by mastering the millimetre wave band.
An automatic radar target detection and tracking system with simultaneous missile control, during its guidance to the target, was developed for the Khrizantema antitank missile system for the first time in the world. This radar system ensures launches at any time of night or day, during fog, rain, snow and in dust and smoke screen environment.
The process of tracking a target, selected by the operator, and missile guidance is effected automatically, without participation of the operator, which virtually means the implementation of the fire and forget principle.

Khrizantema atgm System Characteristics

The Khrizantema system is additionally fitted with the second, semiautomatic laser beam guidance system which enables one to effectively engage all types of targets in optical visibility conditions.
The availability of the two guidance systems allows fire delivery in three modes:
- automatic radar guidance;
- semiautomatic laser beam guidance;
- combined guidance.
When operating in the combined mode, two missiles are fired consecutively; the first missile is guided automatically and the second semiautomatically.
The missiles can be guided in the two channels simultaneously.
So, the Khrizantema system uses the multichannel ability, which materially enhances its combat effectiveness.
The guided missile is fitted with a HEAT or HE warhead.
The HEAT warhead can effectively engage modern and advanced tanks provided with explosive reactive armor. The HE warhead is used to engage other types of targets.
The missile has a supersonic mean velocity.
The combat vehicle of the Khrizantema ATGM system is based on the BMP-3 chassis whose technical and operational characteristics are renowned on the international arms market.
The supersonic flight speed of the missile and potential of simultaneous two-channel fire ensure a high rate of fire. In combination with the long firing range and employment of the armored chassis, it guarantees high survivability of the Khrizantema system on the battlefield.
In terms of combat characteristics, the Khrizantema system has no equivalents in the world and is a weapon system of the future.

The estimates of the system combat effectiveness, carried out in different operating conditions, including the cost-effectiveness criterion, demonstrate its obvious superiority over the existing antitank weapons.
The system includes the 9P157-2 combat vehicle, 9M123-2 HEAT missile, 9M123F-2 HE missile, as well as combat vehicle and missile test equipment.
The Khrizantema antitank guided missile system has absorbed the best scientific, technical and design achievements in antitank guided weapons and is a new generation weapon system in the aggregate of realized technical characteristics and high combat effectiveness.

powerwoot Publish time 27-3-2007 02:00 PM

ATGM series

AT-16 Vihr

http://warfare.ru/thumb.aspx?img=0702ey70/pictures/vihr.jpg

Type: Anti- Tank
Year: 1990
Range (km): 0.5- 8
Type of seeker: Laser Guide
Weight (kg): 40
Lenght (m): 2.4
Speed (m/sec): 350 (>1 M)
Armour penetrate: 1000 mm
Diameter: 0.125 m


# SU-39 Close support/ground attack

# KA-50 Hocum/ Werewolf

# KA-52 Alligator

The missile is fired from launchers containing a 6-8 pack. Its guidance system combines radio-command guidance during the initial flight stage followed by laser-beam guidance afterwards. The missile is a supersonic one with a 8-10 km range, its caliber is 125 mm, and its weight together with the launcher is 60 kg. The two-stage shaped-charge warhead is capable of piercing armor of equivalent to 900 mm thickness.

With the switch set in the appropriate position on the pilot's panel in the cockpit, the Vikhr operates as an air-to-air missile with a radar turn-on for approach navigation. It is effective against airborne targets flying at speeds up to 800 km/h (600 km/h during rendezvous tacks).


AT-3 Sagger / MALYUTKA


http://warfare.ru/thumb.aspx?img=0702ey70/update/january2004/malut2ms.jpg http://warfare.ru/thumb.aspx?img=0702ey70/update/january2004/malutka.jpg

MALYUTKA basic version MALYUTKA-2 MALYUTKA-2F MALYUTKA-2M

Caliber, mm 125 125 125 125
Length, mm 860 860 in pack 1,005 on launcher 860 860 in pack 1,005 on launcher

Weight, kg
10.9

powerwoot Publish time 27-3-2007 02:05 PM

AT-4 Spigot B / 9M111* Fagot-M


http://warfare.ru/thumb.aspx?img=0702ey70/update/feb2005/3/fagot.jpg

The system is designed to defeat stationary and moving armored targets as well as light field fortifications and weapon emplacements.

The missile is guided semiautomatically with commands transmitted over a wire link.

The system components:
- launcher which is essentially a tripod with fine-laying elevating and traversing mechanisms, guides for missile placement and control equipment comprising a tracker and a control unit;
- guided missile kept in a sealed launching transporting container.

The launcher of the modernized Fagot-M ATGM system mounts a 1PN65 thermal imager operating on thermal radiation of a target.
To check the launcher, missile and thermal imager during storage and operation, use is made of the 9V812M-1 and 9V811M test sets for the launcher and missile and the 9V974 test set for the thermal imager (same as for the Konkurs ATGM system).

The system fires the 9M111 and 9M111M missiles. The 9M113 and 9M113M missiles can also be used.


AT-5 Spandrel / 9K111-1 Konkurs -M

http://warfare.ru/thumb.aspx?img=0702ey70/update/feb2001/Konkurs1.jpg

Armour penetration behind ERA, mm 800
Warhead types tandem hollow-charge
Firing range, m: max 4,000/2,500, min 75
Launcher weight, kg 22
Missile weight with container, kg 26.5
Weight of thermal vision unit, kg 10.5
Missile calibre, mm 135
Average missile speed, m/s 200

The system is designed to engage moving and stationary armoured targets provided with explosive reactive armour (ERA) protection. The KONKURS-M system can be carried by armored wheeled and tracked wehicles. The 9P135M1 launcher can be provided with a thermal imager for night or poor visibility conditions.

When fitted with the thermal imager, which weighs 9.6 kg, it allows engagements at ranges up to 2500m. The launcher is designed to launch the 9M111, 9M111M, 9M113, and 9M113M missiles.

The 9M113M missile has a tandem warhead with an extended nose probe to defeat explosive reactive armour before the main warhead initiates to penetrate 750 to 800 mm of main armour. Missile has a semiautomatic control system with command transmission by wires. Missiles are supplied in sealed containers placed directly on the launcher.

powerwoot Publish time 27-3-2007 02:11 PM

ATGM series

AT-6 Spiral / 9K113 Shturm

http://warfare.ru/thumb.aspx?img=0702ey70/update/feb2001/shtrm_as.jpg

Range of guided flight, m 6,000
Weight (in launching container), kg 48.5
Warheads: tandem shaped-charge warhead defeats all advanced MBT equipped with ERA,
blast warhead defeats light armored vehicles, fortifications and small ships,
rod warhead defeats helicopters and other air targets
Speed of flight supersonic
Caliber, mm 130
Length (in launching container), mm 1,832
Armour penetration behind ERA, mm 800
Guidance system semiautomatic w/radio-commands immune to IR and electronic jamming


# MI-24/35 Hind

# MI-28 Havoc


The KBM Engineering Design Bureau (Kolomna) has developed a unique weapon system, named Shturm (Storm). The system, using the 9M114 missile, turned out to be a breakthrough in the field of antitank missile systems.

Its design rests on two basic principles: (1) a missile common for all types of systems and (2) control systems designed on a common basis and using a maximum degree of unification of equipment. For the first time in the world, an antitank guided missile has broken the sound barrier and reached an effective range of 5,000 m.

The unique design features implemented in the control equipment have made it possible to conduct fire without impairing the target hit probability under active enemy counteraction and solve the problem of protection against various natural and man-made radio and IR interferences, a key problem for such systems.

Shturm-S self-propelled system

Today, Shturm equips such combat helicopters as Mi-24V and Ka-29 (the Shturm-V helicopterborne system), and the 9P149 combat vehicles (the Shturm-S self-propelled system).

Due to its long range of fire, short time of flight to the target and high noise immunity, the Shturm system possesses an incontestable advantage over such antitank systems as Konkurs, Fagot, TOU and HOT in terms of these characteristics in particular and overall performance as a whole. The Shturm system armed with the 9M114 missile is currently in service with the Russian army. During conduct of military exercises and in real action it has proved to be a highly effective and reliable weapon. Recently, a new missile, called Ataka, has been developed for use with the Shturm-S and Shturm-V systems.

Today, the KBM Design Bureau offers to its customers the Shturm multi-mission missile system armed with the Ataka missile, capable of effectively engaging the following ground, water and air targets:
- current and prospective tanks, including those equipped with the dynamic protection system;
- other armored equipment;
- concrete shelters, pill-boxes, dug-outs, field dirt and log bunkers;
- low-flying low-speed fixed-wing aircraft and all types of helicopters;
- launches and other surface targets;
- personnel in shelters and in the open.

The Shturm system can use, without modifications of its control equipment and launchers, the Ataka missiles which are more effective than the 9M114 missile and whose range of fire has been increased to 6,000 m with the supersonic speed of the missile retained. The Ataka missile can be armed with two types of warheads: tandem high-explosive antitank (HEAT) and blast-action.

Shturm-V helicopterborne system

The Shturm system can be installed on any self-propelled carrier, helicopter or ship. For installing the system on a foreign-made platform, provision is made for the specific conditions of its combat employment and operation.

The following are the advantages offered by the Shturm multi-mission system armed with the Ataka missile.

Supersonic speed and short flying time to the target. This particularly means:
- lower probability of enemy retaliation;
- lower probability of the missile homing failure due to smoke and dust rising on the battlefield;
- lower psychological strain on the operator.

High rate of fire (2-3 rounds per minute), provides for:
- engagement of a large number of targets within a short period of time;
- minimization of the time during which the missile carrier remains at the firing position.

High noise immunity ensures effective firing without decreasing the target hit probability under natural and man-made radio and IR interferences.

The high accuracy of fire ensures actually a first-shot hit.

The long effective range (up to 6,000 m) adds to the high survivability of the missile carrier.

The availability of two types of warheads (powerful tandem HEAT and blast-action) makes it possible to engage:
- current and prospective tanks, other armored and unarmored threats, and field structures;
- low-flying fixed- and rotary-wing aircraft;
- launches and other low-tonnage vessels, as well as manpower.

Moreover, the system allows simultaneous combat employment of several (up to 10) missile carriers without their interference into each other's operation.

The Mi-24 and Ka-29 helicopters can accommodate up to eight Ataka missiles and the 9P149 combat vehicle - 12 missiles. The Ataka missile is a basic guided weapon of the new Mi-28N combat helicopter which can carry up to 16 missiles on its hardpoints. A multitude of the weapons used by the carriers permit them to engage a large number of different targets in a single combat operation.
The above-listed characteristics determine the high combat effectiveness of the Shturm system armed with the Ataka missile in modern warfare and allow a single system to perform various missions. This is confirmed by the actual combat experience of the Shturm-V system in various military conflicts.

Another proof of the high combat effectiveness of the Shturm-V system has been furnished by the demonstration firings of the 9M114 (Shturm) and 9M120 (Ataka) missiles from the Mi-28A helicopter, which took place at the firing range in Vidsel (Sweden) at the end of 1995. The helicopter was piloted by a Swedish crew. The Shturm missile was launched from the hovering helicopter at a target located 900 m away, and the Ataka missile was launched from a level flight at a speed of 200 km/h at a target located 4,700 m away. Both missiles passed at a distance of 1 m from the aiming point. The Swedes praised the results and noted that the accuracy of fire at the platform's increasing speed and distance was amazing.

The high performance characteristics and above-listed merits of the heliborne and self-propelled versions of the Shturm system make it possible to significantly broaden the spectrum of combat employment of the missiles by creating a stand-alone module on the basis of a self-propelled version and by utilizing the equipment of the shipborne version of the Shturm system.

Stand-alone module.

The stand-alone module is essentially a frame which mounts the equipment of the Shturm-S system, operator's seat and the launcher with the aiming drives and reloading mechanism. Such a module can be arranged on any type of a self-propelled chassis having a suitable load-lifting capacity, say, on an armored personnel carrier or tank. It may also be expedient to place it inside a fixed structure. In this case, the combat stations with the module may be sited, for instance, along a sea coast for the latter's effective defense.

Shipborne version.

The shipborne version of the Shturm system was intended for installation aboard the Project 14310 patrol boat developed by the Almaz Central Marine Design Bureau (St. Petersburg) and manufactured by the Vympel company (Rybinsk). The boat mounts a launcher based on the helicopterborne equipment with a stabilized sight and a facility for launching six missiles.

Shipborne system

The stabilized optical sight with a large magnification factor, located more than 8 m above the water surface, makes it possible to conduct effective reconnaissance and identify pin-point ground and surface targets at a distance of up to 6,000 m away and guide the Ataka missiles onto them.

The missile launched from the boat can kill any surface target, neutralize shore-based fire emplacements and artillery batteries, and destroy concentrations of manpower and materiel due to the high power of its warhead and high hit probability. It should be pointed out that the missile's homing accuracy is not affected by the carrier boat evolutions and remains high at a sea state up to 4.

A boat armed with guided missile weapons gains a 15 to 20-fold edge in an encounter with a boat armed with common guns. The effective range of fire is 3 to 4 times longer as compared to the boats carrying standard armament. This significantly enhances the boat's capacity to defend sea borders and perform patrol duties.

The supersonic speed and short flying time of the missile to the target, the effective range extending to about 6,000 m, choice of several types of warheads, high rate of fire and possibility of simultaneous combat employment of several weapon carriers without their interference into one another's operation, as well as high state of provision with combat equipment make the Shturm system armed with the Ataka missile, the most up-to-date weapons system capable of effectively engaging various targets.

To conclude, the Shturm multi-mission missile system can perform a wide range of combat missions on land, in the air and at sea, using the standard Ataka missile.

powerwoot Publish time 27-3-2007 02:12 PM

ATGM series

AT-9 Ataka

http://warfare.ru/thumb.aspx?img=0702ey70/update/june21999/sam204.jpg

Max launch range, km 6
Launch weight, kg 42.5
Warhead weight, kg 7.4
Warhead type HEAT, rod, FAE Armor penetration (with ERA), mm 800
Tank kill probability (R = 4 km) 0.65-0.9
Average flight speed, m/s 400


# MI-28 Havoc

The missile is designed to engage pinpoint armored and slow flying air targets as well as weapon emplacements of the enemy.
After the helicopter crew decides to launch a missile, the navigator (operator) aligns the fixed mark with the target and presses the input button, thereby selecting the corrected program target tracking mode.
As a result, the laser range finder measures the target range in the automatic mode and presents the obtained data on the multifunctional display, as well as the information on requisite maneuvers to bring the helicopter to a permissible launch zone.
The pilot flies the helicopter to keep the movable target mark in the fixed square.
The operator makes sure that the fixed mark is aligned with the target and, if necessary, makes corrections by manipulating the guidance unit joysticks.
When the helicopter is in the permissible launch zone, the digital computer sends the in-range command to the multifunctional display. On this command the operator performs missile launch.
During missile flight, the operator keeps the fixed mark on the multifunctional display in alignment with the target and, if necessary, adjusts the position of the sight line by manipulating the guidance unit joysticks until the impact of the missile with the target.
During this process, the helicopter can maneuver in yaw within

powerwoot Publish time 27-3-2007 02:14 PM

ATGM series

Deleted, double posted

HangPC2 Publish time 27-3-2007 04:16 PM

MOD Tolong masukan Thread ni ke

Russia Armed Forces Gallery And Discussion


http://forum.cari.com.my/viewthread.php?tid=225115&extra=page%3D3

jofizo Publish time 28-3-2007 09:14 AM

39N6E KASTA-2E2

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http://www.armyrecognition.com/customer/thierry/russia/39n6e_002.jpg

jofizo Publish time 28-3-2007 09:25 AM

9S737M

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jofizo Publish time 28-3-2007 09:27 AM

BUK-M1-2

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jofizo Publish time 28-3-2007 09:28 AM

STRELA-10M

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jofizo Publish time 28-3-2007 09:29 AM

TOR M1-2

http://www.armyrecognition.com/customer/thierry/russia/tor_m1_001.jpg


http://www.armyrecognition.com/customer/thierry/russia/tor_m1_002.jpg

jofizo Publish time 28-3-2007 09:30 AM

TUNGUSKA-M1

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HangPC2 Publish time 28-3-2007 07:11 PM

MIG-29 ''Fulcrum C''


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bravotwozero Publish time 28-3-2007 07:26 PM

Reply #105 jofizo's post

aku suke menegok Tunguska tuh.....kalo MAF ade kan bagus....

matmin77 Publish time 31-3-2007 10:47 AM

Side track a bit....

:)

Listen 2 the Red Army Choir...

http://www.youtube.com/watch?v=BLi_m656tQQ

...i think it is still ,one of most powerfull and patriotric anthem I've ever heard.....

HangPC2 Publish time 2-4-2007 11:05 AM

Originally posted by matmin77 at 31-3-2007 10:47 AM
Side track a bit....

:)

Listen 2 the Red Army Choir...

http://www.youtube.com/watch?v=BLi_m656tQQ

...i think it is still ,one of most powerfull and patriotric anthem I've ever heard.....


kau nak National Anthem Soviet dalam bentuk MP3 kalau nak aku uploadkan...

matmin77 Publish time 2-4-2007 01:17 PM

Reply #198 HangPC2's post

ok..no prob...sila Pm aku macam mana nak downloadkan mp3 tu....

HangPC2 Publish time 21-4-2007 01:05 PM

Originally posted by matmin77 at 2-4-2007 01:17 PM
ok..no prob...sila Pm aku macam mana nak downloadkan mp3 tu....



SOVIET NATIONAL ANTHEM


http://www.sendspace.com/file/21kr0p
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