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Guest Sudden

eryx5.jpg

 

eryx3.jpg

Franska ERYX

 

Borde det inte vara bättre med en sådan här än RB-56? Med tanke på att den här bara är en del.

Man slipper att sätta ihop alla delar om man har bråttom.

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Guest Sudden

Förlåt...här kommer lite.

Men jag syftade inte bara på just denna. Det finns ju många av det här slaget.

 

Eryx is a short-range anti-armour missile system for use by forward infantry and special forces on all terrains and in confined spaces, eg. urban areas. It is produced by MBDA (formerly Aerospatiale-Matra Missiles) of Chatillon, France and by Aerospatiale Canada.

 

In 1989, France and Canada signed a Memorandum of Understanding to co-produce the Eryx missile system as a joint venture and it entered service in 1994. Over 48,000 missiles and 3,200 firing posts have been ordered with 25,000 missiles and 1,600 firing posts produced. The system is in service with the armies of France, Canada, Norway, Brazil and Malaysia. Canada has received 435 firing posts and 4,500 missiles, France has more than 400 firing posts and 4.700 missiles and Norway 424 firing posts and 7,200 missiles. Eryx has also been ordered by an undisclosed member of the Gulf Co-operation Council (Bahrain, Kuwait, Oman, Qatar, Saudi Arabia and United Arab Emirates). Deliveries began in April 1999.

 

Turkey has signed a memorandum of understanding with France for licensed production of the Eryx missile. 10,000 missiles are to be produced over a ten year period.

 

Eryx is effective against static and moving tanks fitted with all types of armour including ERA (explosive reactive armour) from 50m up to a maximum range of 600m. It is also capable of defeating structures such as concrete bunkers and earthworks. MBDA state that the missile has hit 95% of targets over the last 1,000 practice firings.

 

MISSILE SYSTEM

 

The Eryx system consists of the missile and launch tube and the firing unit. The system can be either shoulder-launched or from a prone position when mounted on the tripod.

 

The Eryx missile is wire-guided, optically tracked with semi-automatic command to line-of-sight (SACLOS) guidance. Fitted in the tail of the missile is an infrared beacon, which emits pulses detected by the sight unit. Course corrections are sent via the wire, which is unspooled as the missile is in flight. The missile is thrust vector controlled, which is efficient even at low speed and allows the launching to be achieved using a small propulsion unit. This allows "soft launch" in enclosed spaces. The rocket motor is manufactured by Celerg, jointly owned by MBDA and SNPE and based at Le Plessis, France.

 

The missile is ready to fire in less than 5s. During flight (4.2s to 600m), the gunner only has to maintain the sight on the target. Missile speed is 18m/s at launch, accelerating to 245m/s at 600m. Up to five missiles can be fired in 2mins. The missile is armed with a 137mm tandem, shaped-charge high explosive (HE) warhead capable of penetrating up to 900mm of explosive reactive armour.

 

THERMAL IMAGER

 

The Mirabel thermal imager has been developed for the Eryx missile system by Thales (formerly Thomson-CSF) Optrosys of Guyancourt, France and AlliedSignal Aerospace Canada, Inc. (ASAC), of Montreal, Canada. Mirabel's modular design allows it to be clipped on to the system's existing direct view optic sight without any need for boresight alignment. The thermal imager has a field of view of 8 x 6° and it operates in the long-wave (8 - 12 microns) infrared spectral band. Weight is 3.5kg.

 

TRAINING SYSTEMS

 

Basic training for the Eryx can be conducted using the Eryx Interactive Gunnery Simulator (EVIGS), produced by Simtran, Montreal, Canada.

 

For advanced training, Solartron Systems, a division of Lockheed Martin Information Systems, Orlando, Florida, have developed the Eryx Precision Gunnery Simulator (EPGS), an outdoor laser-based trainer. EPGS has been selected by the Canadian Army to provide precision gunnery training for the Eryx system, with a requirement for 54 systems.

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Nu har jag inte orkat läsa igenom romanen här ovanför men ytterligare en liten detalj är väl om den är takslående eller inte. Pansartjocklecken skiljer sig enormt mellan tex sida o tak. För övrigt är det ju viktigt om det är FaF eller ej!

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Den där saken skulle enligt texten alltså slå igenom 900 mm ERA... Duh... Vad är det mått på? Jag vet ingen som har 900 mm reaktivt pansar på sina vagnar...

Men iofs, även om skrället slår igenom 900 mm RHA så är det ju ganska imponerande... Hur mycket har en Leo 2?

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Guest Börje
Den där saken skulle enligt texten alltså slå igenom 900 mm ERA... Duh... Vad är det mått på? Jag vet ingen som har 900 mm reaktivt pansar på sina vagnar...

Men iofs, även om skrället slår igenom 900 mm RHA så är det ju ganska imponerande... Hur mycket har en Leo 2?

Jag skulle tro att de menar att den slår igenom 900mmRHA efter att förladdningen har neutraliserat ERA:t

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Kul system men varför?  Bra verkansdel, men inte bättre än BILL2. Förmodligen lätt att utbilda skyttar på, men det gäller nästan samtliga moderna robotsystem. Vad som däremot inte är bra är räckvidden, 600m? Det duger inte under svenska förhållanden. För korta skjutavstånd får vi sätta vår tilltro till MBT LAW.

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