David
Fri March 21, 2003 7:38am
|
BGM-71 / M-220 Tube-launc
The TOW anti-tank missile of Iran-Contra fame was introduced for service in the US Army in 1970. Current versions are capable of penetrating more than 30 inches of armor, or "any 1990s tank," at a maximum range of more than 3,000 meters. It can be fired by infantrymen using a tripod, as well from vehicles and helicopters, and can launch 3 missiles in 90 seconds. It is primarily used in antitank warfare, and is a command to line of sight, wire-guided weapon. TOW is used to engage and destroy enemy armored vehicles, primarily tanks. Secondary mission is to destroy other point targets such as non-armored vehicles, crew-served weapons and launchers. This system is designed to attack and defeat tanks and other armored vehicles. The system will operate in all weather conditions and on the "dirty" battlefield.
In May 1972, U.S. soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. During the Gulf War, in Saudi Arabia the system was represented by the HMMWV with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version. The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat it was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Early reports focused on the problems being experienced by US Army and Marine Corps units in hitting targets during live-fire exercises because soldiers [lacked experience firing the weapon, as well as Iraqi use of "dazzlers" intended to interfere with the guidance of Army TOW missiles and other antitank missiles. But the TOW during ODS was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It did not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that U.S. Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability. The Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Even without these rather unusual and certainly unexpected displays of its effectiveness, the TOW did better than expected. The system's deadly accuracy proved to be unstoppable even out to its maximum effective range and under degraded visibility conditions. TOW was real powerful hitting because you could tell as soon as it hit, the vehicle was dead. TOW missiles were able to kill targets while the Bradley was on the move.
The basic TOW Weapon System was fielded in 1970. Manufactured by Hughes Aircraft Company, the TOW is the most widely distributed anti-tank guided missile in the world with over 500,000 built and in service in the U.S. and 36 other countries. The TOW has extensive combat experience in Vietnam and the Middle East. Iran may have obtained 1,750 or more TOWs and used TOWs against Iraqi tanks in the 1980s. The TOW 2 launcher is the most recent launcher upgrade. It is compatible with all TOW missiles. The TOW 2 Weapon System is composed of a reusable launcher, a missile guidance set, and sight system. The system can be tripod mounted. However because it is heavy, it is generally employed from the HMMWV. The missile has a 20-year maintenance-free storage life. All versions of the TOW missile can be fired from the current launcher.
The TOW is a crew portable, vehicle-mounted, heavy anitarmor weapon system consisting of a launcher and one of five versions of the TOW missile. It is designed to defeat armored vehicles and other targets such as field fortifications from ranges up to 3,750 meters. After firing the missile, the gunner must keep the cross hairs of the sight centered on the target to ensure a hit. The system will operate in all weather conditions in which the gunner can see a target throughout the missile flight by using either a day or night sight.
The TOW Sight Improvement Program (TSIP) effort began in 199 However, on 15 October 1991 The Secretary of the Army cancelled the TSIP because of declining budget & funding issues. The Assistant Secretary of the Army for Research, Development and Acquisition directed the PEO, Tactical Missiles to coordinate the development of an affordable alternative. The latter effort subsequently became known as the Improved Target Acquisition System (ITAS) being developed for the Army's light forces.
The TOW Improved Target Acquisition System (ITAS) is a materiel change to the The ITAS is a material change to the current TOW2 ground launcher and M966 HMMWV TOW2 acquisition and fire control subsystems for first-to-deploy light forces. ITAS aides in firing all versions of TOW and builds the bridge to TOW F&F. The TOW tripod and launch tube remain unchanged. ITAS significantly increases target acquisition and engagement ranges, while retaining the capability to fire all configurations of the TOW missile. ITAS uses a second-generation forward-looking infrared system, digital components, and an eyesafe laser range finder. ITAS has an improved design with BIT/ BITES for increased maintainability and reduced logistics requirements. It also features an improved man-machine interface that improves system engagement performance. The ITAS modification kit consists of an integrated (Day/ Night Sight with Laser Rangefinder) Target Acquisition Subsystem (TAS), Fire Control Subsystem (FCS), Battery Power Source (BPS), and Modified Traversing Unit (TU). The ITAS will operate from the High Mobility Multi- Purpose Wheeled Vehicle (HMMWV) and the dismount tripod platform. The ITAS will be fielded at battalion level, replacing TOW 2 in light infantry units. The TOW Improved Target Acquisition System low- rate initial production (LRIP) I contract was awarded September 30, 1996, with a production quantity of twenty- five units. LRIP II was awarded March 1998 for a quantity of seventy-three systems for the 1st BDE Fielding in September 1999. First unit equipped (FUE) was conducted in September 1998.
Increased funding for Stryker and Future Combat Systems (FCS) came as a result of Army decisions in 2002 to terminate or restructure some 48 systems in the FY ?04-?09 Program Objective Memorandum (POM) long-term spending plan. Among the systems terminated were: United Defense?s Crusader self-propelled howitzer and the A3 upgrade for the Bradley Fighting vehicle, GD?s M1A2 Abrams System Enhancement Program, Lockheed Martin?s Army Tactical Missile System Block II and the associated pre-planned product improvement version of Northrop Grumman?s Brilliant Anti-armor (BAT) munition, Raytheon?s Stinger missile and Improved Target Acquisition System, and Textron?s Wide Area Mine.
The TOW system is used on the HMMWV, the M151 jeep, the armored personnel carrier, the Bradley Fighting Vehicle (BFV) COBRA helicopters, the ITV, and the US Marine Corps light armored vehicle.
Considerable improvements have been made to the missile since 1970. There are six missiles available for the TOW. Three of the five TOW missile versions--Basic TOW, Improved TOW and TOW 2--are no longer being produced for US forces. However, these versions are still used by 40 allied countries.
In May 1972, US soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. In Saudi Arabia the system was represented by [the HMMWV] with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version.
The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat. It was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the 101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Despite early reports of the problems being experienced by U.S. Army and Marine Corps units in hitting targets during live-fire exercises because soldiers lacked experience firing the weapon as well as Iraqi use of 'dazzlers' intended to interfere with the guidance of Army TOW missiles and other antitank missiles," the TOW during Operation Desert Storm was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It's a well known technology that does not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that US Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability: the Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Primary function: Guided missile weapon system.
Manufacturer: Hughes (missiles); Hughes and Kollsman (night sights); Electro Design Mfg. (launchers)
Size:
TOW 2A Missile:
Diameter: 5.87 inches (14.91 cm)
Length: 50.40 inches (128.02 cm)
TOW 2B Missile:
Diameter: 5.8 inches (14.9 centimeters)
Length: 48.0 inches (121.9 centimeters)
Warhead weight 12.4 kg Maximum effective range: 2.33 miles (3.75 kilometers)
Armor penetration: T-80 + / 800+ mm [>700 mm]
Time of flight to maximum effective range:
2A: 20 seconds
2B: 21 seconds
Weight:
Launcher w/TOW 2 Mods: 204.6 pounds (92.89 kilograms)
Missile Guidance Set: 52.8 pounds (23.97 kilograms)
TOW 2 Missile: 47.4 pounds (21.52 kilograms)
TOW 2A Missile: 49.9 pounds (22.65 kilograms)
TOW 2B Missile: 49.8 pounds (22.60 kilograms)
Introduction date: 1970
Unit Replacement Cost: $180,000
Launching Platforms Man portable crew of 4
HMMWV
M2/M3 Bradley Fighting Vehicle
Marine Corps Inventory: TOW launchers - 1247
Characteristics of the TOW missile family
CHARACTERISTICS
BASIC
TOW
I-TOW
TOW 2
TOW 2A
TOW 2B
Missile weight (lb)
41.5
42
47.3
49.9
49.8
Weight in container (lb)
56.3
56.5
61.8
64
64
Prelaunch length (in)
45.8
45.8
45.9
45.9
46
Standoff probe (in)
NA
14.6
17.4
17.4
NA
Max velocity (fps/mps)
981/299
970/296
1079/329
1079/ 329
1010/309
Warhead diameter (in)
5
5
6
5
5(2x)
Explosive filler (lb)
5.4
4.6
6.9
6.9
-
Max range (m)
3000
3750
3750
3750
3750
|
|
David
Fri March 21, 2003 7:38am
|
BGM-71 / M-220 Tube-launc
The TOW anti-tank missile of Iran-Contra fame was introduced for service in the US Army in 1970. Current versions are capable of penetrating more than 30 inches of armor, or "any 1990s tank," at a maximum range of more than 3,000 meters. It can be fired by infantrymen using a tripod, as well from vehicles and helicopters, and can launch 3 missiles in 90 seconds. It is primarily used in antitank warfare, and is a command to line of sight, wire-guided weapon. TOW is used to engage and destroy enemy armored vehicles, primarily tanks. Secondary mission is to destroy other point targets such as non-armored vehicles, crew-served weapons and launchers. This system is designed to attack and defeat tanks and other armored vehicles. The system will operate in all weather conditions and on the "dirty" battlefield.
In May 1972, U.S. soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. During the Gulf War, in Saudi Arabia the system was represented by the HMMWV with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version. The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat it was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Early reports focused on the problems being experienced by US Army and Marine Corps units in hitting targets during live-fire exercises because soldiers [lacked experience firing the weapon, as well as Iraqi use of "dazzlers" intended to interfere with the guidance of Army TOW missiles and other antitank missiles. But the TOW during ODS was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It did not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that U.S. Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability. The Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Even without these rather unusual and certainly unexpected displays of its effectiveness, the TOW did better than expected. The system's deadly accuracy proved to be unstoppable even out to its maximum effective range and under degraded visibility conditions. TOW was real powerful hitting because you could tell as soon as it hit, the vehicle was dead. TOW missiles were able to kill targets while the Bradley was on the move.
The basic TOW Weapon System was fielded in 1970. Manufactured by Hughes Aircraft Company, the TOW is the most widely distributed anti-tank guided missile in the world with over 500,000 built and in service in the U.S. and 36 other countries. The TOW has extensive combat experience in Vietnam and the Middle East. Iran may have obtained 1,750 or more TOWs and used TOWs against Iraqi tanks in the 1980s. The TOW 2 launcher is the most recent launcher upgrade. It is compatible with all TOW missiles. The TOW 2 Weapon System is composed of a reusable launcher, a missile guidance set, and sight system. The system can be tripod mounted. However because it is heavy, it is generally employed from the HMMWV. The missile has a 20-year maintenance-free storage life. All versions of the TOW missile can be fired from the current launcher.
The TOW is a crew portable, vehicle-mounted, heavy anitarmor weapon system consisting of a launcher and one of five versions of the TOW missile. It is designed to defeat armored vehicles and other targets such as field fortifications from ranges up to 3,750 meters. After firing the missile, the gunner must keep the cross hairs of the sight centered on the target to ensure a hit. The system will operate in all weather conditions in which the gunner can see a target throughout the missile flight by using either a day or night sight.
The TOW Sight Improvement Program (TSIP) effort began in 199 However, on 15 October 1991 The Secretary of the Army cancelled the TSIP because of declining budget & funding issues. The Assistant Secretary of the Army for Research, Development and Acquisition directed the PEO, Tactical Missiles to coordinate the development of an affordable alternative. The latter effort subsequently became known as the Improved Target Acquisition System (ITAS) being developed for the Army's light forces.
The TOW Improved Target Acquisition System (ITAS) is a materiel change to the The ITAS is a material change to the current TOW2 ground launcher and M966 HMMWV TOW2 acquisition and fire control subsystems for first-to-deploy light forces. ITAS aides in firing all versions of TOW and builds the bridge to TOW F&F. The TOW tripod and launch tube remain unchanged. ITAS significantly increases target acquisition and engagement ranges, while retaining the capability to fire all configurations of the TOW missile. ITAS uses a second-generation forward-looking infrared system, digital components, and an eyesafe laser range finder. ITAS has an improved design with BIT/ BITES for increased maintainability and reduced logistics requirements. It also features an improved man-machine interface that improves system engagement performance. The ITAS modification kit consists of an integrated (Day/ Night Sight with Laser Rangefinder) Target Acquisition Subsystem (TAS), Fire Control Subsystem (FCS), Battery Power Source (BPS), and Modified Traversing Unit (TU). The ITAS will operate from the High Mobility Multi- Purpose Wheeled Vehicle (HMMWV) and the dismount tripod platform. The ITAS will be fielded at battalion level, replacing TOW 2 in light infantry units. The TOW Improved Target Acquisition System low- rate initial production (LRIP) I contract was awarded September 30, 1996, with a production quantity of twenty- five units. LRIP II was awarded March 1998 for a quantity of seventy-three systems for the 1st BDE Fielding in September 1999. First unit equipped (FUE) was conducted in September 1998.
Increased funding for Stryker and Future Combat Systems (FCS) came as a result of Army decisions in 2002 to terminate or restructure some 48 systems in the FY ?04-?09 Program Objective Memorandum (POM) long-term spending plan. Among the systems terminated were: United Defense?s Crusader self-propelled howitzer and the A3 upgrade for the Bradley Fighting vehicle, GD?s M1A2 Abrams System Enhancement Program, Lockheed Martin?s Army Tactical Missile System Block II and the associated pre-planned product improvement version of Northrop Grumman?s Brilliant Anti-armor (BAT) munition, Raytheon?s Stinger missile and Improved Target Acquisition System, and Textron?s Wide Area Mine.
The TOW system is used on the HMMWV, the M151 jeep, the armored personnel carrier, the Bradley Fighting Vehicle (BFV) COBRA helicopters, the ITV, and the US Marine Corps light armored vehicle.
Considerable improvements have been made to the missile since 1970. There are six missiles available for the TOW. Three of the five TOW missile versions--Basic TOW, Improved TOW and TOW 2--are no longer being produced for US forces. However, these versions are still used by 40 allied countries.
In May 1972, US soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. In Saudi Arabia the system was represented by [the HMMWV] with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version.
The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat. It was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the 101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Despite early reports of the problems being experienced by U.S. Army and Marine Corps units in hitting targets during live-fire exercises because soldiers lacked experience firing the weapon as well as Iraqi use of 'dazzlers' intended to interfere with the guidance of Army TOW missiles and other antitank missiles," the TOW during Operation Desert Storm was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It's a well known technology that does not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that US Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability: the Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Primary function: Guided missile weapon system.
Manufacturer: Hughes (missiles); Hughes and Kollsman (night sights); Electro Design Mfg. (launchers)
Size:
TOW 2A Missile:
Diameter: 5.87 inches (14.91 cm)
Length: 50.40 inches (128.02 cm)
TOW 2B Missile:
Diameter: 5.8 inches (14.9 centimeters)
Length: 48.0 inches (121.9 centimeters)
Warhead weight 12.4 kg Maximum effective range: 2.33 miles (3.75 kilometers)
Armor penetration: T-80 + / 800+ mm [>700 mm]
Time of flight to maximum effective range:
2A: 20 seconds
2B: 21 seconds
Weight:
Launcher w/TOW 2 Mods: 204.6 pounds (92.89 kilograms)
Missile Guidance Set: 52.8 pounds (23.97 kilograms)
TOW 2 Missile: 47.4 pounds (21.52 kilograms)
TOW 2A Missile: 49.9 pounds (22.65 kilograms)
TOW 2B Missile: 49.8 pounds (22.60 kilograms)
Introduction date: 1970
Unit Replacement Cost: $180,000
Launching Platforms Man portable crew of 4
HMMWV
M2/M3 Bradley Fighting Vehicle
Marine Corps Inventory: TOW launchers - 1247
Characteristics of the TOW missile family
CHARACTERISTICS
BASIC
TOW
I-TOW
TOW 2
TOW 2A
TOW 2B
Missile weight (lb)
41.5
42
47.3
49.9
49.8
Weight in container (lb)
56.3
56.5
61.8
64
64
Prelaunch length (in)
45.8
45.8
45.9
45.9
46
Standoff probe (in)
NA
14.6
17.4
17.4
NA
Max velocity (fps/mps)
981/299
970/296
1079/329
1079/ 329
1010/309
Warhead diameter (in)
5
5
6
5
5(2x)
Explosive filler (lb)
5.4
4.6
6.9
6.9
-
Max range (m)
3000
3750
3750
3750
3750
|
|
David
Fri March 21, 2003 7:38am
|
BGM-71 / M-220 Tube-launc
The TOW anti-tank missile of Iran-Contra fame was introduced for service in the US Army in 1970. Current versions are capable of penetrating more than 30 inches of armor, or "any 1990s tank," at a maximum range of more than 3,000 meters. It can be fired by infantrymen using a tripod, as well from vehicles and helicopters, and can launch 3 missiles in 90 seconds. It is primarily used in antitank warfare, and is a command to line of sight, wire-guided weapon. TOW is used to engage and destroy enemy armored vehicles, primarily tanks. Secondary mission is to destroy other point targets such as non-armored vehicles, crew-served weapons and launchers. This system is designed to attack and defeat tanks and other armored vehicles. The system will operate in all weather conditions and on the "dirty" battlefield.
In May 1972, U.S. soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. During the Gulf War, in Saudi Arabia the system was represented by the HMMWV with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version. The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat it was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Early reports focused on the problems being experienced by US Army and Marine Corps units in hitting targets during live-fire exercises because soldiers [lacked experience firing the weapon, as well as Iraqi use of "dazzlers" intended to interfere with the guidance of Army TOW missiles and other antitank missiles. But the TOW during ODS was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It did not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that U.S. Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability. The Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Even without these rather unusual and certainly unexpected displays of its effectiveness, the TOW did better than expected. The system's deadly accuracy proved to be unstoppable even out to its maximum effective range and under degraded visibility conditions. TOW was real powerful hitting because you could tell as soon as it hit, the vehicle was dead. TOW missiles were able to kill targets while the Bradley was on the move.
The basic TOW Weapon System was fielded in 1970. Manufactured by Hughes Aircraft Company, the TOW is the most widely distributed anti-tank guided missile in the world with over 500,000 built and in service in the U.S. and 36 other countries. The TOW has extensive combat experience in Vietnam and the Middle East. Iran may have obtained 1,750 or more TOWs and used TOWs against Iraqi tanks in the 1980s. The TOW 2 launcher is the most recent launcher upgrade. It is compatible with all TOW missiles. The TOW 2 Weapon System is composed of a reusable launcher, a missile guidance set, and sight system. The system can be tripod mounted. However because it is heavy, it is generally employed from the HMMWV. The missile has a 20-year maintenance-free storage life. All versions of the TOW missile can be fired from the current launcher.
The TOW is a crew portable, vehicle-mounted, heavy anitarmor weapon system consisting of a launcher and one of five versions of the TOW missile. It is designed to defeat armored vehicles and other targets such as field fortifications from ranges up to 3,750 meters. After firing the missile, the gunner must keep the cross hairs of the sight centered on the target to ensure a hit. The system will operate in all weather conditions in which the gunner can see a target throughout the missile flight by using either a day or night sight.
The TOW Sight Improvement Program (TSIP) effort began in 199 However, on 15 October 1991 The Secretary of the Army cancelled the TSIP because of declining budget & funding issues. The Assistant Secretary of the Army for Research, Development and Acquisition directed the PEO, Tactical Missiles to coordinate the development of an affordable alternative. The latter effort subsequently became known as the Improved Target Acquisition System (ITAS) being developed for the Army's light forces.
The TOW Improved Target Acquisition System (ITAS) is a materiel change to the The ITAS is a material change to the current TOW2 ground launcher and M966 HMMWV TOW2 acquisition and fire control subsystems for first-to-deploy light forces. ITAS aides in firing all versions of TOW and builds the bridge to TOW F&F. The TOW tripod and launch tube remain unchanged. ITAS significantly increases target acquisition and engagement ranges, while retaining the capability to fire all configurations of the TOW missile. ITAS uses a second-generation forward-looking infrared system, digital components, and an eyesafe laser range finder. ITAS has an improved design with BIT/ BITES for increased maintainability and reduced logistics requirements. It also features an improved man-machine interface that improves system engagement performance. The ITAS modification kit consists of an integrated (Day/ Night Sight with Laser Rangefinder) Target Acquisition Subsystem (TAS), Fire Control Subsystem (FCS), Battery Power Source (BPS), and Modified Traversing Unit (TU). The ITAS will operate from the High Mobility Multi- Purpose Wheeled Vehicle (HMMWV) and the dismount tripod platform. The ITAS will be fielded at battalion level, replacing TOW 2 in light infantry units. The TOW Improved Target Acquisition System low- rate initial production (LRIP) I contract was awarded September 30, 1996, with a production quantity of twenty- five units. LRIP II was awarded March 1998 for a quantity of seventy-three systems for the 1st BDE Fielding in September 1999. First unit equipped (FUE) was conducted in September 1998.
Increased funding for Stryker and Future Combat Systems (FCS) came as a result of Army decisions in 2002 to terminate or restructure some 48 systems in the FY ?04-?09 Program Objective Memorandum (POM) long-term spending plan. Among the systems terminated were: United Defense?s Crusader self-propelled howitzer and the A3 upgrade for the Bradley Fighting vehicle, GD?s M1A2 Abrams System Enhancement Program, Lockheed Martin?s Army Tactical Missile System Block II and the associated pre-planned product improvement version of Northrop Grumman?s Brilliant Anti-armor (BAT) munition, Raytheon?s Stinger missile and Improved Target Acquisition System, and Textron?s Wide Area Mine.
The TOW system is used on the HMMWV, the M151 jeep, the armored personnel carrier, the Bradley Fighting Vehicle (BFV) COBRA helicopters, the ITV, and the US Marine Corps light armored vehicle.
Considerable improvements have been made to the missile since 1970. There are six missiles available for the TOW. Three of the five TOW missile versions--Basic TOW, Improved TOW and TOW 2--are no longer being produced for US forces. However, these versions are still used by 40 allied countries.
In May 1972, US soldiers initially used the TOW in combat during the Vietnam War. This was the very first time that American troops had ever fired an American-made missile under wartime conditions. The system has also seen action in various clashes between Israel and Syria as well as during the Iran/Iraq war. In Saudi Arabia the system was represented by [the HMMWV] with the light forces, the Bradley Fighting Vehicle with the heavy forces, Improved TOW Vehicle with some of the forces, and the Cobra-mounted version.
The TOW was one of the earliest missile systems to arrive in SWA because of the large Iraqi armored threat. It was deployed with some of the first units in Saudi: the 82nd Airborne Division, the 24th Mechanized Division and the 101st Airborne Division. Thousands of missiles and hundreds of launchers were used during Operation Desert Storm. Forces of other countries, including Saudi Arabia, also had TOW at their disposal.
Despite early reports of the problems being experienced by U.S. Army and Marine Corps units in hitting targets during live-fire exercises because soldiers lacked experience firing the weapon as well as Iraqi use of 'dazzlers' intended to interfere with the guidance of Army TOW missiles and other antitank missiles," the TOW during Operation Desert Storm was a primary killer of Iraqi tanks, armored personnel carriers,and other vehicles. Before the start of the coalition air campaign in January 1991, Army and Marine Corps planners noted a trend of improvement as more and more units [had] the opportunity to practice firing the TOW. The Iraqi use of dazzlers also proved to be of little concern to coalition commanders. The purpose of the dazzler is to confuse the missile guidance system so it loses track of the missile. It's a well known technology that does not work against the TOWs used in Southwest Asia. There were no reports since the war that any of these were effective in any way against TOWs.
Before the start of the actual ground offensive, US Marine units successfully employed the TOW against various Iraqi targets. On 18 January 1991, newspapers reported that US Marine Corps AH-1T Cobra helicopter gunships destroyed an Iraqi command post following Iraq's sporadic shelling of the Khafji area near the Saudi-Kuwaiti border. Four Cobra gunships destroyed a building used as an Iraqi command post with TOW missiles. Accounts told by Gulf War veterans who witnessed the TOW in action during the fighting revealed several instances where TOWs did things that surprised the engineers who designed them more than the soldiers who fired them. TOW missiles proved to be a determining factor in the first ground engagement of Operation Desert Storm. During the Battle of Khafji, which took place before the start of the actual ground offensive, the TOW demonstrated a pretty unique ability: the Saudis fought Iraqi tanks with TOW missiles and drove them out of the city. At one point in the battle, the Saudis saw Iraqi soldiers on top of a water tower. Not wishing to blow up the tower, the Saudis fired a TOW, blew the ladder off the tower and left the Iraqis stranded until the end of the battle." The lethality of the TOW missile was proven beyond doubt during the 100-hour ground campaign when one of the antitank munitions fired by US troops went right through the tank it was aimed at and penetrated another tank parked next to it. Another TOW went through a six foot dirt berm and knocked out an Iraqi armored personnel carrier on the otherside. In both instances, the TOW performed a feat which it supposedly was incapable of accomplishing.
Primary function: Guided missile weapon system.
Manufacturer: Hughes (missiles); Hughes and Kollsman (night sights); Electro Design Mfg. (launchers)
Size:
TOW 2A Missile:
Diameter: 5.87 inches (14.91 cm)
Length: 50.40 inches (128.02 cm)
TOW 2B Missile:
Diameter: 5.8 inches (14.9 centimeters)
Length: 48.0 inches (121.9 centimeters)
Warhead weight 12.4 kg Maximum effective range: 2.33 miles (3.75 kilometers)
Armor penetration: T-80 + / 800+ mm [>700 mm]
Time of flight to maximum effective range:
2A: 20 seconds
2B: 21 seconds
Weight:
Launcher w/TOW 2 Mods: 204.6 pounds (92.89 kilograms)
Missile Guidance Set: 52.8 pounds (23.97 kilograms)
TOW 2 Missile: 47.4 pounds (21.52 kilograms)
TOW 2A Missile: 49.9 pounds (22.65 kilograms)
TOW 2B Missile: 49.8 pounds (22.60 kilograms)
Introduction date: 1970
Unit Replacement Cost: $180,000
Launching Platforms Man portable crew of 4
HMMWV
M2/M3 Bradley Fighting Vehicle
Marine Corps Inventory: TOW launchers - 1247
Characteristics of the TOW missile family
CHARACTERISTICS
BASIC
TOW
I-TOW
TOW 2
TOW 2A
TOW 2B
Missile weight (lb)
41.5
42
47.3
49.9
49.8
Weight in container (lb)
56.3
56.5
61.8
64
64
Prelaunch length (in)
45.8
45.8
45.9
45.9
46
Standoff probe (in)
NA
14.6
17.4
17.4
NA
Max velocity (fps/mps)
981/299
970/296
1079/329
1079/ 329
1010/309
Warhead diameter (in)
5
5
6
5
5(2x)
Explosive filler (lb)
5.4
4.6
6.9
6.9
-
Max range (m)
3000
3750
3750
3750
3750
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David
Fri March 28, 2003 2:06pm
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The lead aircraft and its
The lead aircraft and its crew in a formation of Air Mobility Command?s C-17 Globe Master IIIs air drop vehicles and weapon systems into Northern Iraq after departing from an undisclosed base somewhere in Europe on March 26, 2003. This is the first time the C-17 and its aircrews have preformed a heavy drop into a combat zone bringing war fighting capability to forward deployed Army troops.
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David
Wed April 2, 2003 10:20am
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A Sailor is transferred t
A Sailor is transferred to the command combat stores ship USNS San Jose (T-AFS 7) from the aircraft carrier USS Nimitz (CVN 68) by MH-60 Knighthawk from the "Indians" of Helicopter Anti-Submarine Squadron Six (HS-6). San Jose was resupplying Nimitz. One of six combat stores ships operated by the Navy's Military Sealift Command, San Jose provides underway replenishment of all types of supplies, ranging from repair parts to fresh food, clothing and mail via tensioned cargo rigs and helicopters. The Military Sealift Command (MSC) is the Navy command supplying logistics support to U.S. forces around the world, along with the Army's Military Traffic Management Command and the Air Force's Air Mobility Command. The three commands are components of the DoD's U.S. Transportation Command. Nimitz and her battle group are scheduled to join other multinational coalition forces supporting Operation Iraqi Freedom.
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David
Thu April 17, 2003 4:12pm
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A member of the U.S. Air
Sunday, April 6, 2003, A member of the U.S. Air Force's 621st Air Mobility Group waits for a C-130 transport to take off Friday at an undisclosed location in southern Iraq. The C-130s are bringing in supplies for U.S. operations in the area.
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David
Tue April 22, 2003 1:16pm
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60th air mobility wing
60th air mobility wing
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David
Tue April 22, 2003 1:16pm
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97th air mobility wing
97th air mobility wing
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David
Tue April 22, 2003 1:55pm
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305th air mobility wing
305th air mobility wing
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David
Tue April 22, 2003 1:55pm
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349th air mobility wing
349th air mobility wing
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David
Tue April 22, 2003 1:55pm
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452d air mobility wing
452d air mobility wing
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David
Tue April 22, 2003 1:55pm
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514th air mobility wing
514th air mobility wing
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David
Sat January 3, 2004 10:15pm
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BMP-1 APC
Function: Soviet Union's first tracked Armored Personnel Carrier.
Description: The BMP-1 is a tracked, amphibious, fully enclosed armored personnel carrier armed with a 73mm smoothbore cannon, one 7.62mm coaxial machine gun and the AT-3 SAGGER antitank guided missile (ATGM). The BMP-1 represents a significant improvement over the wheeled BTR series in all aspects, including mobility, firepower, and survivability. Fielded in 1966, the BMP-1 has been modified to serve as a common chassis for a number of additional vehicle types. No longer in production, the BMP-1 has been surpassed by the BMP-2 and 3 in both service in the Russian army as well as export abroad.
General Characteristics, BMP-1 Armored Personnel Carrier
Transmission:
Manual with five forward gears and one reverse
Engine:
6 cylinder diesel engine producing 290 horsepower
Length:
22 feet (6.7 meters)
Width:
9 feet (2.74 meters)
Height:
7 feet (2.13 meters)
Combat Weight:
14 tons
Cruising Range:
372 miles (600 kilometers)
Speed:
Maximum: 40 mph (65 kph), or 45 mph (70 kph) for limited periods
Cross Country: 28 mph (45 kph)
Obstacle Crossing:
Trench: 8.2 feet (2.5 meters)
Slope: 31 degrees
Crew:
Three: driver, gunner and commander (who serves as squad leader when the the infantry squad dismounts)
Armament:
Main: 73mm 2A20 smoothbore cannon
Secondary: One AT-3 SAGGER ATGM, one 7.62mm PKT coaxial machine gun
Ammunition:
40 73mm cannon rounds (fin stabilized HEAT only)
2,000 7.62mm machine gun rounds
Introduction Date:
1966
Variants:
BMP-A: Also known as the Model 1966, this was the original version of the BMP. It has a shorter bow compared to its successor, the BMP-1 and does not have a Nuclear, Biological, Chemical (NBC) protection system.
BMP-1: Also known as the Model 1976 this was the base production model from which all variants were designed.
BMP-1K: The command variant of the BMP-1. It differed from the BMP-1 in that it carried additional communications equipment and had the rifle firing ports welded shut. In addition the troop compartment was redesigned to accommodate folding tables and map charts. Can be used as a battalion level command vehicle.
BMP-1P: The AT-3 SAGGER ATGM has been replaced by the AT-4 SPIGOT ATGM. Additionally, smoke grenade launchers have been mounted on the turret rear.
BMP-1PK: Command variant of the BMP-1P. Similar to the BMP-1K, it has additional communications equipment and has been modified to serve as a command vehicle. BMP-R: Also known as the BRM, BRM-1 and BMP M1976, this variant serves as a cavalry recon vehicle. The turret is larger and has had ATGM launcher removed. The back deck of the hull has been redesigned with two smaller hatches rather than the four large ones found on the BMP-1.
BRM-1K: Also known as the BMP M1976/2 this variant is based off of the BRM-1 with the PSNR-5K (NATO designation TALL MIKE) battlefield surveillance radar mounted in the rear section of the turret. Also included in the vehicle's sensor package are the DKRM-1 laser rangefinder, ARRS-1 location device, IMP mine detector and 1PN33B night vision devices. For navigation the BRM-1K uses the TNA-1, IG11N gyro-compass and the 1T25 survey device.
BMP KShM: Also known as the BMP M1978 it is a heavily modified BMP-1K with additional communications gear and a telescoping radio antenna for increased transmission range.
BMP-SON: Also known as the PRP-3, this is a BMP-1 modified to serve as an artillery reconnaissance and fire support vehicle. The turret has been redesigned to include two forward opening crew hatches equipped with observation periscopes as well as a large spotting optics. A large telescoping optical device is mounted on the left rear corner of the turret. The 73mm gun has been removed and replaced by a 7.62mm machine gun. Mounted on the rear of the vehicle is the SMALL FRED (NATO designation) battlefield surveillance radar. As with the command variants, the BMP-SON has an augmented communications package. The BMP-SON has a crew of 5.
PRP-4: This is essentially an upgraded and improved version of the PRP-3 (BMP-SON). Externally, the only difference is an additional fairing on the right side of the turret.
IRM: Amphibious Engineer Reconnaissance Vehicle. Based on the BMP-1, it uses the BMP-1 engine and suspension in a new hull design. Designed to perform specialized engineer missions such as mine detection and river bottom reconnaissance the IRM has two retractable mine detection devices mounted low on the bow and rapidly deployable snorkel. The IRM is propelled through the water via two shrouded propellers.
BMP-PPO: A heavily modified BMP-1 designed to serve as a mobile training center. The turret has been removed and eight roof mounted cupolas each equipped with a TNPO-170 and type MK-4 observation device, have been installed for trainees under instruction.
OT-90: Czechoslovakian version of the BMP-1. The turret has been replaced with the standard Czechoslovakian APC turret, equipped with a 14.5mm machine gun and a 7.62mm machine gun, found on the OT-64 8x8 wheeled APC.
BVP-1: Czechoslovakian produced BMP-1.
DP-90: Maintenance/recovery version of the OT-90.
MP-31: Air defense version of the BMP-KShM mobile command post.
MU-90: Mine laying version of the OT-90. The turret has been removed and the opening covered by sheet steel.
SVO: Mine clearing version of the BMP-1. The turret has been removed and a hedgehog type launcher has been installed in the troop compartment.
VPV: Maintenance/recovery version of the BMP-1. The turret and troop hatches have been removed and a crane has been installed on the roof of the troop compartment.
VP-90: Reconnaissance version of the OT-90. Similar to the BMP-R in all other respects.
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David
Mon September 13, 2004 6:50am
Rating: 10
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XM8
The XM8 Future Combat Rifle is intended to replace existing M4 Carbines and select 5.56mm x45 weapons in the US Army arsenal beginning as early as the fourth quarter of FY05.
In October 2002 ATK (Alliant Techsystems) was awarded a $5 million contract modification from the U.S. Army Armament Research, Development, and Engineering Center (ARDEC), Picatinny, N.J., to develop the new XM8 Lightweight Assault Rifle. ATK Integrated Defense, Plymouth, Minn., and teammate Heckler and Koch, Oberndorf, Germany, will support the rapid development program, which will investigate the potential of the XM8 as the lightweight assault rifle for the Army's Objective Force.
The XM8 will be based on the kinetic energy weapon that is part of the XM29 next-generation infantry weapon system (formerly the Objective Individual Combat Weapon) currently under development by ATK Integrated Defense. The kinetic energy weapon, which fires 5.56mm ammunition, will provide maximum commonality in components and logistics with the XM29 system.
The XM8 will provide lethality performance comparable to the currently fielded M4 carbine rifle, while weighing 20 percent less than the M4 because of advanced technologies developed for the XM29 program.
The XM8 Lightweight Assault Rifle will reduce the 21st century soldier's load and increase his mobility - two very important aims of the Army's Objective Force Warrior and Land Warrior initiatives. The progress made to reduce weight and improve performance on the XM29 program is key to the decision on accelerating the development of the XM8, which is integrated with the Army's efforts to transform to a more lethal and rapidly deployed fighting force as part of its Objective Force.
ATK Integrated Defense is the system integrator on the XM29 program. Teammates on the program are Heckler and Koch, weapon development; ATK Ammunition Systems, Arden Hills, Minn., ammunition development; Brashear LP, Pittsburgh, Pa., integrated full solution fire control; and Omega, Columbus, Ga., training systems.
The XM8 is a true family of weapons with different barrel lengths designed to address all the needs of an infantry squad. The standard model is expected to be lighter than the M4 carbine and no larger in size. There?s also a sharpshooter version for increased range; a compact version for cramped quarters; and an auto-rifle version for a squad-automatic weapon. The XM8 family has a 9-inch compact, 12.5-inch carbine and a 20-inch sharpshooter and automatic rifle. The 12.5-inch carbine is 6.4 pounds with an objective of 5.7 pounds and is 33 inches with its adjustable stock extended. The M-16 A2 is 39.63 inches long and 8.79 pounds with a 30-round magazine.
Internally, the XM8 uses a rotary locking bolt system that functions and fieldstrips like those used in the M-16 rifle and M-4 carbine, according to the XM8 manufacturer?s ? Heckler & Koch ? Website. The bolt is powered by a unique gas operating system with a user-removable gas piston and pusher rod to operate the mechanism. Unlike the current M-4 and M-16 direct gas system with gas tube, the XM8 gas system does not introduce propellant gases and carbon back into the weapon?s receiver during firing.
While the XM8 was not exposed to battlefield conditions, it?s still a feat the current service rifle hasn?t come close to rivaling, said Rich Audette, deputy project manager for PM Soldier Weapons. During their Oct. 20-23 2003 trip to Germany, the weapons experts said they were impressed after watching Heckler & Koch engineers fire four high-capacity magazines, with 100 rounds a piece, in less than five minutes.
This improved reliability can be credited to differences in the XM8?s operating system from the one in the M16. For instance, a thin gas tube runs almost the entire length of the barrel in all of the M16 variants. When the weapon is fired, the gases travel back down the tube into the chamber and push the bolt back to eject the shell casing and chamber a new round. The XM8?s gas system instead is connected to a mechanical operating rod, which pushes back the bolt to eject the casing and chamber the new round each time the weapon is fired. So there?s no carbon residue constantly being blown back into the chamber, reducing the need to clean the weapon as often. You don?t get gases blowing back into the chamber that have contaminates in them. The XM8 also has a much tighter seal between the bolt and the ejection port, which should cut down on the amount of debris that can blow into the weapon when the ejection port?s dust cover is open.
The XM8 is part of the Army?s effort to perfect an over-and-under style weapon, known as the XM29, developed by Alliant Techsystems and H&K. It fires special air-bursting projectiles and standard 5.56mm ammunition. But the XM29 still is too heavy and unwieldy for Army requirements. Instead of scrapping the XM29, the Army decided to perfect each of XM29?s components separately, so soldiers can take advantage of new technology sooner. The parts would be brought back together when lighter materials become available. The XM8 is one of those components.
From December 2003 through late May 2004, soldiers got a chance to fire the prototypes in desert, tropical and arctic environments. A limited-user test then was conducted, possibly at Fort Campbell, Ky., where soldiers test the prototypes for about three weeks while training in offensive and defensive scenarios. Improvements will be made based on soldier and test feedback before the final three-months of operational tests, which are scheduled to begin in fall 2004. The final decision will be up to the Army?s senior leadership, but weapons officials said they were confident the XM8 weapon system will be adopted. If all goes well, the XM8 could be ready for fielding by late summer 2005.
Beginning life as the 5.56mm KE (kinetic energy) component of the 20mm air-bursting XM29 Objective Individual Combat Weapon (OICW), the XM8 Lightweight Modular Carbine System represents the state-of-the-art in 5.56x45mm NATO assault rifles. Developed by the US Army?s office of Project Manager for Soldier Weapons located at Picatinny Arsenal, New Jersey in close conjunction with the US Army Infantry Center, the XM8 Future Combat Rifle is intended to replace existing M4 Carbines and select 5.56mm x45 weapons in the US Army arsenal beginning as early as the fourth quarter of FY05. Once adopted, the M8 Carbine will replace the aging M16/M4 family of weapons, which have been in service for nearly four decades, longer than any previous US service rifle. The M8 Carbine will be up to 20% lighter than a comparably equipped M4 Carbine MWS and yet offer additional features and performance unavailable currently in any assault rifle in the world.
As a direct development of the separable OICW (XM29) KE or Kinetic Energy module, the M8 Carbine will share a high degree of common parts and training and maintenance procedures to lessen the required support for the ?family? of XM8 weapons. Being developed are four XM8 variants, which include a baseline carbine, a sharpshooter variant, an automatic rifle variant, and the ultra-compact carbine variant. A unique feature of the XM8 modular weapon system is the ability to easily and quickly reconfigure the weapon from one variant to the other to meet changing mission requirements, to include caliber conversion.
This modularity includes the exchange of interchangeable assembly groups such as the barrel, handguard, lower receiver, buttstock modules and sighting system with removable carrying handle. In addition and in parallel, the new XM320 quick detachable single-shot 40mm grenade launcher with side-opening breech and LSS lightweight 12 gauge shotgun module can be easily added to the XM8 by the user in the field without tools. The unique buttstock system allows the operator exchange buttstocks without tools from the standard collapsible multi-position version, to an optional buttcap for maximum portability or an optional folding or sniper buttstock with adjustable cheekpiece for special applications. Internally the XM8 employs a combat-proven robust rotary locking bolt system that functions and fieldstrips like that used in the current M16 rifle and M4 carbine. However this bolt is powered by a unique gas operating system that employs a user removable gas piston and pusher rod to operate the mechanism. Unlike the current M4/M16 direct gas system with gas tube, the XM8 gas system does not introduce propellant gases and the associated carbon fouling back into the weapon?s receiver during firing. This greatly increases the reliability of the XM8 while at same time reducing operator cleaning time by as much as 70%. This system also allows the weapon to fire more than 15,000 rounds without lubrication or cleaning in even the worst operational environments. A cold hammer forged barrel will guarantee a minimum of 20,000 rounds service life and ultimate operator safety in the event of an obstructed bore occurrence.
The XM8 has fully ambidextrous operating controls to include a centrally located charging handle that doubles as an ambidextrous forward assist when required, ambidextrous magazine release, bolt catch, safety/selector lever with semi and full automatic modes of fire and release lever for the multiple position collapsible buttstock. The operating controls allow the operator to keep the firing hand on the pistol grip and the weapon in the firing position at all times while the non-firing hand actuates the charging handle and magazine during loading and clearing. Major components of the weapon are produced from high-strength fiber reinforced polymer materials that can be molded in almost any color to include OD green, desert tan, arctic white, urban blue, brown and basic black. Surfaces on the XM8 that interface with the operator are fitted with non-slip materials to increase comfort and operator retention. The XM8 uses 10 or 30-round semi-transparent box magazines and high-reliability 100-round drum magazines for sustained fire applications.
Special integral flush mounted attachment points are located on the handguard and receiver to allow the quick attachment of targeting devices. Unlike MIL-STD-1913 rails, the XM8 attachment points do not add additional weight, bulk and cost to the host weapon, and will accept MIL-STD-1913 adapters to allow for the use of current in-service accessories. The attachment points for the standard multi-function integrated red-dot sight allow multiple mounting positions and insure 100% zero retention even after the sight is removed and remounted. The battery powered XM8 sight includes the latest technology in a red dot close combat optic, IR laser aimer and laser illuminator with back-up etched reticle with capability exceeding that of the current M68-CCO, AN/PEQ-2 and AN/PAQ-4. This sight will be factory zeroed on the weapon when it is delivered and does not require constant rezeroing in the field like current rail-mounted targeting devices. The XM8 will be fully compatible with future Land Warrior technology and components.
The US XM8 Carbine is being designed at the HK Defense design center in Sterling, Virginia and will be produced and assembled in the United States at the new Heckler & Koch manufacturing plant located in Columbus, Georgia, adjacent to Fort Benning. The unit cost of the XM8 will be less than that of the current M4 Carbine and will guarantee the American war fighter uncompromising performance far exceeding that of current in-service M4 Carbines.
XM-8 Prototype Specifications
Caliber:
5.56 x 45mm NATO
Builder:
Heckler & Koch
Weight:
6.4 lbs (prototype),
5.7 lbs objective
Overall Length:
33.3 inches (carbine stock extended)
Barrel Length:
Assault: 12.5"
Sharpshooter: 20.0"
Compact: 9.0"
Automatic Rifle: 20.0"
Rate of Fire:
Cyclic - 750 rpm
Sustained - 85 rpm up to 210 rounds
Rate of Twist:
1 in 7 inches
Barrel Life:
20,000 rounds mininum
Muzzle Velocity:
3005 feet/second (M855 Ball) with 20" barrel
2675 feet/second with 12.5" barrel
2365 feet/second with 9.0" barrel
Magazine Capacity:
10 or 30 rounds (magazines can be nested together); 100 round drum available
Stock:
5 position adjustable for length
Bayonet Lug:
Yes (12.5 & 20" barrels)
Bipod Interface:
Yes (20" only)
Sighting System:
Fully integrated red dot with laser illuminator and pointer
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David
Mon October 11, 2004 8:50am
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Air Mobility Command
Air Mobility Command
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