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* In February 2009, the 56th Stryker Brigade from the Pennsylvania Army National Guard, was deployed to Iraq. The 56th is the only National Guard unit to get Strykers.
* In February 2009, the 56th Stryker Brigade from the Pennsylvania Army National Guard, was deployed to Iraq. The 56th is the only National Guard unit to get Strykers.


[[Afghanistan War]], 2001-present:
[[War in Afghanistan (2001-present)]]
* The 5th Brigade 2nd Infantry Division will become the first Stryker unit sent to Aghanistan. It is scheduled to deploy in summer 2009 as part of a troop level increase ordered by President Obama.
* The 5th Brigade 2nd Infantry Division will become the first Stryker unit sent to Aghanistan. It is scheduled to deploy in summer 2009 as part of a troop level increase ordered by President Obama.


Revision as of 21:01, 21 February 2009

For other uses, see Stryker (disambiguation).
IAV Stryker
M1126 Stryker ICV
TypeArmored personnel carrier
Place of origin United States
Specifications
MassICV: 16.47 t (18.12 sh tn)
MGS: 18.77 t (20.65 sh tn)
Length6.95 m (22.92 ft)
Width2.72 m (8.97 ft)
Height2.64 m (8.72 ft)
Crew2+9
Armor14.5 mm resistant[1]
Main
armament
M68A1E4 105 mm gun (MGS)
M2 .50 caliber machine gun or MK19 40 mm grenade launcher mounted in a PROTECTOR M151 Remote Weapon Station (RWS) (ICV)
Secondary
armament
.50-cal M2 MG and M240 7.62mm MG (MGS)
EngineCaterpillar 3126 turbo diesel
260 kW (350 hp)
Power/weightICV: 15.8 kW/t (19.3 hp/sh tn)
Suspension8×8 wheeled
Operational
range
500 km (300 mi)
Maximum speed 100 km/h (62 mph)[1]

The IAV Stryker is a family of eight-wheeled all-wheel-drive armored combat vehicles produced by General Dynamics Land Systems, in use by the United States Army. Based on the Canadian LAV III light-armored vehicle, which in turn is based on the Swiss MOWAG Piranha III 8x8, the Stryker is the U.S. Army's first new armored vehicle since the M2/M3 Bradley Fighting Vehicle in the 1980s.

The Stryker was championed by General Eric Shinseki when he was U.S. Army Chief of Staff. The vehicle is employed in Stryker Brigade Combat Teams, light and mobile units based on the Brigade Combat Team Doctrine that relies on vehicles connected by military C4I networks.

Design

Pneumatic or hydraulic systems drive almost all of the vehicle's mechanical features; for example, a pneumatic system switches between 8X4 and 8X8 drive.

The vehicle comes in several variants with a common engine, transmission, hydraulics, wheels, tires, differentials and transfer case. Two exceptions are the M1130 Command Vehicle and M1133 Medical Evacuation Vehicle, which have an air conditioning unit mounted on the pack. The medical vehicle also has a higher-capacity generator. A recent upgrade program provided a field retrofit kit to add air conditioning units to all variants.

Power pack and mechanical features

For its power pack the Stryker uses a Caterpillar diesel engine common in U.S. Army medium-lift trucks, eliminating extensive retraining of maintenance crews and allowing the use of common parts.[2]

Designers strove to ease the maintainer's job, equipping most cables, hoses, and mechanical systems with quick-disconnecting mechanisms. The engine and transmission can be removed and reinstalled in less than one hour, allowing repairs to the turbocharger and many other components to be done outside the vehicle.

Because of obsolescence concerns, the Caterpillar 3126 engine was recently replaced by a Caterpillar C7 engine. The C7 shares a common engine block with the 3126.

Command, Control, and Targeting

  • Extensive computer support helps soldiers fight the enemy while reducing friendly fire incidents. Each vehicle can track friendly vehicles in the field as well as detected enemies.
  • A day-night thermal imaging camera allows the vehicle commander to see what the driver sees.
  • Soldiers can practice training with the vehicles from computer training modules inside the vehicle.
  • The driver and the gunner have periscopes that allow them to see outside the vehicle without exposing themselves to outside dangers. The gunner has almost a 360-degree field of vision; the driver, a little more than 90 degrees.
  • General Dynamics Land Systems is developing a new Power and Data Management Architecture to handle computer upgrades.[3]

Protective features

  • The armor suite has been made thicker than the MOWAG design to stop 14.5mm armor-piercing machine-gun rounds and artillery fragments.[4][2]
  • The automatic fire extinguishing system has sensors in the engine and troop compartments that activate one or more halon fire bottles, which can also be activated by the driver.
  • "Catchers' mask"-style deflectors known as slat armor which detonate the explosive round away from the vehicle. This type of armor is cheaper and lighter than spaced appliqué-plate or reactive armor.[2][5]
  • The fuel tanks are externally mounted and designed to blow away from the hull in the event of explosion.
  • The CBRN (Chemical, Biological, Radiological, Nuclear) Warfare system keeps the crew compartment airtight and positively pressurized.

Mobility Features

Two Strykers move through rough terrain in Korea
  • The vehicle can alter the pressure in all eight tires to suit terrain conditions: highway, cross-country, mud/sand/snow, and emergency. The system warns the driver if the vehicle exceeds the recommended speed for its tire pressure, then automatically inflates the tires to the next higher pressure setting. The system can also warn the driver of a flat tire, although the Stryker is equipped with run-flat tire inserts that also serve as bead-locks, allowing the vehicle to move several miles before the tire completely deteriorates.
  • In August 2004, the US Air Force successfully air dropped an up-weighted Stryker Engineering Support Vehicle from a C-17.[6] This test to determine the feasibility of air dropping a Stryker MGS. Even though this test was a success, none of the Stryker variants have been certified for airdrop.
  • The Stryker is too heavy (19 - 26 tons, depending on which variant and which add-on features) to be lifted by existing helicopters.

Cost

The unit cost to purchase the initial Stryker ICVs (without add-ons, including the cage armor) was US$3 million in April 2002.[7] By May 2003, the regular production cost per vehicle was US$1.42 million.[8]

LAV-H Stryker Upgrade

The US Army plans to improve its fleet of Stryker vehicles with the introduction of improved semi-active suspension, modifications reshaping the hull into a shallow V-shaped structure, additional armor for the sides, redesigned hatches to minimize gaps in the armor, blast absorbing mine resistant seats (or BENCHES), non-flammable tires, an upgrade to the remote weapon station that allows it to fire on the go, increased 500 amp power generation, a new solid state power distribution system and data bus, and the automotive and power plant systems will be upgraded to support a 25% Gross Vehicle Weight increase. The upgraded V-hull will be part of the new StrykShield situational awareness kit, which will address many of these upgrades. In 2008, Allegheny Technologies' ATI 500-MIL armor steel was designated the primary armored plating for the StrykShield package.[9] The upgrade incorporating lessons learned from Afghanistan is designated LAV-H and General Dynamics had a technology demonstrator displayed at the 2007 Association of the United States Army (AUSA) Exposition.[10]

Comparison with contemporary vehicles

Below is a comparison of some modern APCs including the Stryker:

Fahd [11][12] Fuchs [13] VAB [13] USMC LAV-25 [14] Stryker ICV [14] BTR-90 [14] [15]
Weight 10.9 t (12.0 short tons) 18.3 t (20.2 short tons) 13.8 t (15.2 short tons) 12.8 t (14.1 short tons) 16.47 t (18.16 short tons) 20.9 t (23.0 short tons)
Primary armament 30 mm (1.2 in) 2A42 automatic cannon Up to three 7.62 mm (0.300 in) Rheinmetall MG3 machine guns 7.62 mm (0.300 in) AA-52 machine gun 25 mm (0.98 in) M242 chain gun 0.50 in (13 mm) M2 Browning machine gun 30 mm (1.2 in) 2A42 automatic cannon
Secondary armament 7.62 mm (0.300 in) FN MAG machine gun - - 7.62 mm (0.300 in) M240 machine gun - 7.62 mm (0.300 in) PKT machine gun
Missile armament (Range) AT-5 Spandrel (700-4000 meters) MILAN (400-2000 meters) - - - AT-5 Spandrel (700-4000 meters)
Road range 700 km (430 mi) 800 km (500 mi) 1,000 km (620 mi) 660 km (410 mi) 500 km (310 mi) 800 km (500 mi)
Maximum velocity (on road) 100 km/h (62 mph) 96 km/h (60 mph) 110 km/h (68 mph) 100 km/h (62 mph) 100 km/h (62 mph) 100 km/h (62 mph)
Capacity (maximum) 3 crew + 10 passengers 2 crew + 10 passengers 2 crew + 10 passengers 3 crew + 6 passengers 2 crew + 9 passengers 3 crew + 9 passengers

History

The vehicle is named for two American servicemen who posthumously received the Medal of Honor: Pfc Stuart S. Stryker, who died in World War II and Spc Robert F. Stryker, who died in the Vietnam War.[16]

The Stryker MGS moved into low-rate initial production in 2005 for evaluation,[17] and entered full production in 2007.

Currently the Stryker is in the research and development phase of being converted to a vehicle capable of Autonomous Navigation.[18] TARDEC has also tested an active Magneto Rheological suspension, developed by MillenWorks for the Stryker, at the Yuma Proving Ground, which resulted in greater vehicle stability.[19]

Deployments

Iraq War, 2003-present:

  • The first Stryker brigades were deployed to Iraq in October 2003. 3rd Brigade, 2nd Infantry Division from Fort Lewis was the first to field and deploy the Stryker vehicle to combat in Iraq from Nov 2003 to Nov 2004.
  • 3rd Brigade was relieved by 1st Brigade, 25th Infantry Division (SBCT). 1st Brigade served in Iraq from October 2004 to October 2005. Units from this Brigade participated in the Battle of Mosul (2004) and were responsible for the first successful elections in January 2005. The Brigade was awarded the Valorous Unit Award for their tour in Iraq.
  • The 172nd Stryker Brigade Combat Team from Fairbanks, Alaska's Fort Wainwright began its initial deployment in August 2005 to Summer 2006. Their stay was subsequently extended for up to four months and they were reassigned to Baghdad. The Brigade was awarded the Valorous Unit Award for their tour in Iraq.
  • The 3rd Brigade, 2nd Infantry Division re-deployed to Iraq late Spring of 2006 and returned home in September 2007. Like its sister brigades it too was awarded the Valorous Unit Award for operations in Baqubah, Iraq.
  • As part of a three way move, upon redeployment from Iraq, the 1st Stryker Brigade, 25th Infantry Division and the 2nd Armored Cavalry Regiment both cased their colors. The former 1st SBCT, 25th ID was redesignated as the new 2nd Stryker Cavalry Regiment in Vilseck, Germany and the former 2nd ACR was redesignated as the new 4th Stryker Brigade Combat Team, 2nd Infantry Division at Fort Lewis, Washington. During the same period of time, upon redeployment from Iraq, the 172nd Stryker Brigade Combat Team was deactivated and reactivated as the 1st Stryker Brigade Combat Team, 25th Infantry Division, in Fort Wainwright, Alaska.
  • In May 2007, the 4th Brigade 2nd Infantry Division deployed as part of the "surge" in Iraq. This deployment marked the first time the Stryker Mobile Gun System was deployed in Iraq. Also, the 4th Battalion, 9th Infantry Regiment (MANCHU), deployed Land Warrior for the first time in combat.
  • In August 2007 the 2nd Stryker Cavalry Regiment deployed to Baghdad for a 15-month tour, relieving 3rd BDE, 2ID.
  • In December 2007 the 2nd Brigade 25th Infantry division deployed to Iraq.
  • In September 2008, 1-25th Infantry based in Fort Wainwright, Alaska was deployed to Iraq.
  • In February 2009, the 56th Stryker Brigade from the Pennsylvania Army National Guard, was deployed to Iraq. The 56th is the only National Guard unit to get Strykers.

War in Afghanistan (2001-present)

  • The 5th Brigade 2nd Infantry Division will become the first Stryker unit sent to Aghanistan. It is scheduled to deploy in summer 2009 as part of a troop level increase ordered by President Obama.

Variants

The Stryker chassis' modular design supports a wide range of variants. The main chassis is the Infantry Carrier Vehicle (ICV). Additionally, there is the Mobile Gun System (MGS), a heavier chassis to support a variant of the 105 mm M68A1 rifled cannon (M68A1E4), a lightweight version of the gun system used on the original M1 Abrams main battle tanks and the M60 Patton main battle tank. The M68A1E4 also features a muzzle brake to assist with recoil and an autoloader, a rare feature on US tank guns.

M1134 Anti-Tank Guided Missile (ATGM) Variant equipped with a TOW missile and M240B machine gun.

The Stryker has the following configurations with more planned:

Operators

M1126 APC variant equipped with the PROTECTOR M151 with MK19 automatic grenade launcher and anti-HEAT slat armor
M1134 Stryker ATGM carrier
  • United States U.S. Army - Seven Stryker Brigades will be formed[21] -
    • 3rd Brigade, 2nd Infantry Division - first Stryker Brigade formed
    • 4th Brigade, 2nd Infantry Division - fourth Brigade formed, reflagged from 2nd Armored Cavalry Regiment.
    • 5th Brigade, 2nd Infantry Division - final Stryker Brigade formed
    • 2nd Brigade, 25th Infantry Division, fifth Stryker Brigade;
    • 2nd Stryker Cavalry Regiment was the second Stryker unit formed reflagged from 1st Brigade, 25th Infantry Division. Although they are not officially labled as a Brigade Combat Team because of their unique Cavalry Regiment force structure they are effectively an independent unit parallel to the regular BCTs.
    • 172d Infantry Brigade; - third Stryker Brigade formed, reflagged as the current 1st Brigade, 25th Infantry Division.
    • 56th Stryker Brigade of the 28th Infantry Division, Pennsylvania National Guard (the only National Guard unit to get them).
  • Canada Canadian Forces
    • Canada originally purchased 66 Stryker Mobile Gun System vehicles in 2003, which were expected to arrive in 2010. However, in 2006 the Canadian Forces asked its government to cancel the MGS acquisition. The MGS was originally intended to be used in the "Direct Fire Unit"[22] which will include Tow Under Armour (LAV III) and MMEV (ADATS on LAVIII). The MGS was originally intended to provide the direct gun fire capabilities of the retiring Leopard I tanks[23] however with the recent usefulness of tanks in Iraq and hurried deployment of Canadian Leopard 1 tanks to Afghanistan combined with political changes in Canada and the Canadian Military - the purchase of more modern tanks occurred with the announcement of the purchase of surplus Leopard 2s from the Netherlands.[24]
    • 33 surplus LAV TUA hulls will be converted into LAV ISC (Infantry Section Carrier), fitted with Nanuk RWS and similar to the M1126 ICV.[25]
  • Iraq Iraq has ordered 400.[26]
  •  Israel (Israeli Defence Forces) have 3 for trials.

Mission

The Stryker family of vehicles fill a role in the United States Army that is neither heavy nor light, but rather an attempt to create a force that can move infantry to the battlefield quickly and in relative security. Brigades that have been converted to Strykers have been light, or, in the case of the 2nd Cavalry Regiment, unarmored HMMWV-based cavalry scouts. For these units, the addition of Strykers has increased combat power by providing armor protection, a vehicle-borne weapon system to support each dismounted squad (a PROTECTOR M151 Remote Weapon Station with .50-cal or Mk-19), and the speed and range to conduct missions far from the operating base.

Stryker units seem to be especially effective in urban areas, where vehicles can establish initial security positions near a building and dismount squads on a doorstep.[27]

Similar to a UH-60 Black Hawk, the Stryker relies on its speed for the majority of its defense against heavy weapon systems. It is not capable of engaging heavily armored units and relies on other units to control threats outside of its classification.

However, at the National Training Center (Fort Irwin California) 3rd Brigade 2nd ID proved that through the use of unconventional tactics and small dismounted teams armed with anti-armor weaponry, a Stryker unit could hold its own against a conventional armored unit should the need arise. This situation is something that commanders would most likely avoid due to a higher casualty rate.

Brigades equipped with the Stryker are intended to be strategically mobile (i.e. capable of being rapidly deployed over long distances). As such the Stryker was intentionally designed with a lower level of protection compared to tracked vehicles like the M2 Bradley, but with much lower logistic requirements.

Criticisms

Main article: Stryker vehicle controversy
A Stryker vehicle with its wheels on fire in Iraq.
File:Strykerstuckinmudiraqtn.jpg
A Stryker vehicle stuck in the mud in a combat zone.

The Stryker had come under intense scrutiny from the civilian media and online forums since its introduction in the US Army. This is partially due to the fact that it is the first new armored combat vehicle for the US Army since the introduction of the M2/M3 Bradley Fighting Vehicle in 1981.

Some criticism of the Stryker continues a decades-long ongoing debate issues concerning whether tracked or wheeled vehicles are more effective.[28] Conventional tracks have superior off-road mobility, can pivot a vehicle in place, and are more resistant to battle damage. Wheeled vehicles are easier to maintain, and have higher road speeds. The US Army chose the Stryker over competing tracked vehicles due to these advantages.[29]

Much of the controversy centers around the Stryker's not being an Infantry fighting vehicle (IFV) in the mode of the M2 Bradley. The Stryker ICV lacks heavy armor protection and is lightly armed. However, these features were what the US Army was looking for. A vehicle as heavily armored as a M2 Bradley would be too heavy to be transported by a C-130. There has been criticism about the Stryker being able to be likewise transported. It can be, but the aircraft’s range may not meet the 1,000 mile goal. This is affected by many variables such as the particular C-130 variant and conditions at the departure airport.[30]

The choice of vehicle armament was driven by many factors. The US Army wanted a vehicle that could rapidly transport and protect infantry to and around battlefields. This role, commonly referred as a “battle taxi”, has been historically served by giving the vehicle a single heavy machine gun. Heavier armed infantry transport was introduced with the BMP series, which was started production in 1969. Vehicles armed in this manner are intended to be used in an assault against an enemy position. However, this also adds weight to the vehicle, and reduces the amount of infantry that could be transported.

Most online criticism arises from comparison to the proven, lighter and less expensive M113 Armored Personnel Carriers, and the cancelled M8 Armored Gun System. In 2001, the maker of these vehicles, UDLP, filed a formal protest against awarding the contract for the Stryker. The Government Accountability Office reviewed the purchase decision and found no reason to go against the US Army’s choice.[31] After the Stryker ICV was fielded, Congress ordered the GAO re-review the Stryker by performing tests to compare an M113A3 to a M1126 Stryker ICV. While they found both vehicles were adequate, the Stryker was found to be a superior infantry carrier.[32]

An additional issue is that rollover is a greater risk with the Stryker and MRAPs relative to other transport vehicles, due to their higher center of gravity. The high center of gravity was a deliberate design choice as an anti-mine/IED measure. In the book My War, Colby Buzzell states that the first three fatalities of his Stryker brigade on its deployment to Iraq were from a rollover incident where a Stryker rolled over into a ditch of water. This was the only mention of a Stryker rollover in the book.[33]

Documented testimonies of the officers and men using the Stryker have been supportive of the vehicle and its protection.[34]

Reports from military personnel and analysts indicate the Stryker is superior to other military vehicles (including Abrams tanks, Bradley IFVs and HMMWVs) regarding survivability against IEDs (improvised explosive devices).[35][36] One colonel said that the Strykers saved the lives of at least a hundred soldiers deployed in northern Iraq.[37]

Soldiers and officers who use Strykers defend them as very effective vehicles; an article in the Washington Post states:

"But in more than a dozen interviews, commanders, soldiers and mechanics who use the Stryker fleet daily in one of Iraq's most dangerous areas unanimously praised the vehicle. The defects outlined in the report were either wrong or relatively minor and did little to hamper the Stryker's effectiveness, they said." [37]

See also

References

  1. ^ a b "Army Fact File - Stryker". Retrieved 2008-04-16.
  2. ^ a b c Stryker Armored Vehicle, globalsecurity.org
  3. ^ Stryker Armored Personnel Carrier
  4. ^ Stryker gets new armor, decreases in weight, US Army
  5. ^ Slat Armour for Stryker, defense-update.com
  6. ^ "Stryker airdrop test". Retrieved 2008-07-12.
  7. ^ Jeffrey St. Clair: the General, GM and the Stryker
  8. ^ "GAO Compares Stryker to M113A3" (PDF). pp. p. 20. Retrieved 2008-07-13. {{cite web}}: |pages= has extra text (help)
  9. ^ U.S. Army Stryker Combat Vehicles to be Equipped with Allegheny Technologies' ATI 500-MIL Armor Steel
  10. ^ US Army Outlines Future Improvements for the Stryker, defense-update.com
  11. ^ "FAHD armoured vehicle". Arab Organization for Industrialization. Retrieved 2009-01-27.
  12. ^ "FAHD". Kader factory. Retrieved 2009-01-27.
  13. ^ a b "Fuchs 2 Armoured Wheeled Vehicle, Germany". army-technology.com. Retrieved 2008-09-28. Cite error: The named reference "Army-technology.com" was defined multiple times with different content (see the help page).
  14. ^ a b c "Light Armored Vehicle-25 (LAV-25)". globalsecurity.org. Retrieved 2008-09-28. Cite error: The named reference "GSspec" was defined multiple times with different content (see the help page).
  15. ^ "BTR-90". onwar.com. Retrieved 2008-09-28.
  16. ^ "Army Announces Name For Interim Armored Vehicle", U.S. Army. Accessed August 15, 2007.
  17. ^ "General Dynamics Delivers First Production Stryker MGS Vehicles". Retrieved 2008-07-13.
  18. ^ Vetronics Technology Integration (VTI)
  19. ^ Suspension test report, MillenWorks
  20. ^ Stryker Self Propelled (SP) 105mm Indirect Fire, GlobalSecurity.org.
  21. ^ Jane's International Defence Review, June 2006, p.64-5
  22. ^ A Soldier's Guide to Army Transformation - Building a Direct Fire Unit -
  23. ^ CBC News In Depth, Equipment: Mobile Gun System vs. Leopard tank, Oct 30 2003
  24. ^ Army might buy surplus tanks from Germans, Swiss. CTV News, Oct 31 2006
  25. ^ http://www.casr.ca/doc-lav-tua-isc.htm
  26. ^ http://www.strategypage.com/htmw/htproc/articles/20081218.aspx
  27. ^ Army of Dude: Three Sixty Five
  28. ^ The Wheel versus Track dilemma, fas.org
  29. ^ "GAO Denies protest in choosing the Stryker over the M113 and M8" (PDF). Retrieved 2008-07-13.
  30. ^ "GAO Report – C130 Transportability" (PDF). Retrieved 2004-08-09.
  31. ^ "GAO Denies protest in choosing the Stryker over the M113 and M8" (PDF). Retrieved 2008-07-13.
  32. ^ "GAO Compares Stryker to M113A3" (PDF). Retrieved 2003-05-13.
  33. ^ Buzzell, Colby. My War: Killing Time in Iraq, G.P. Putnam's Sons, 2005. ISBN 0399153276.
  34. ^ Canadian American Strategic Review. "Reviewing the LAV III – Rollovers and Suicide Bombers". LAV III. Retrieved 2006-05-14.
  35. ^ Improvised Explosive Devices (IEDs) in Iraq and Afghanistan: Effects and Countermeasures, Congressional Research Service, Sept. 25 2006.
  36. ^ Stryker increases troops’ survivability, U.S. Army 40th Public Affairs Detachment, Jan. 3, 2007.
  37. ^ a b Soldiers Defend Faulted Strykers, Washington Post

External links

Wikimedia Commons has media related to Stryker.

Official U.S. Army websites

Other websites

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