The AIM-9B is an American infrared homing air-to-air missile, it was introduced in Update 1.85 "Supersonic". The AIM-9B is the earliest and least capable member of the Sidewinder family of missiles found in the game. It was the basis for the later Sidewinder missiles, as well as many other missiles found in the game. The Rb24 is an AIM-9B built under license in Sweden, while the R-3S, R-13M and PL-2 are all decedents of the Vympel R-3 missile, which was a Soviet reverse-engineered version of the AIM-9B. The AIM-9B also served as the basis for the design of the Israeli Shafrir missile, although there are notable differences between the two.
Vehicles equipped with this weapon
|Vehicles equipped with this weapon|
|USA||F3H-2 · F-4C Phantom II · F9F-8 · F11F-1 · F-100D · F-104A · F-104C · FJ-4B · FJ-4B VMF-232|
|Germany||CL-13B Mk.6 · ▀F-86K · F-104G · ▀G.91 R/4 · Sea Hawk Mk.100|
|Britain||Scimitar F Mk.1|
|Japan||F-86F-40 ▅ · F-86F-40 JASDF▅ · F-104J · T-2|
|China||␗F-86F-40 · ␗F-100A · ␗F-104A · ␗F-104G|
|Italy||▄F-86K · F-104S · G.91 R/4 · G.91 YS|
|France||Etendard IVM · ▄F-86K · ▄F-100D · Mirage IIIC · Super Mystere B2|
|Jet attackers||A-4B · A-4E Early · Buccanneer S.2|
Like other early air-to-air missiles, the AIM-9B is limited in is destructive capabilities. Although it contains enough explosive filler to eliminate or cripple an enemy given a direct hit, those direct hits may be hard to come by. For one, this missile only has a 10G overload. Therefore, it is quite easy for an enemy to dodge it. All the enemy needs to do is to turn slightly, and the missile will likely miss. For greatest lethality, use this missile on slow targets that cannot manoeuvre well (though it should be noted that in this case, guns may be just as effective).
Additionally, the AIM-9B takes quite a length of time to acquire a target. (The time required may be reduced if the enemy is using their afterburner.) So, even achieving a firing solution may prove difficult.
Still, as one of the first air-to-air missiles in the game, the missile is quite effective for dealing with enemies in the right circumstances. Careful positioning and trigger discipline are required. In lower-tier jet combat, the AIM-9B is the gold standard for long to medium range air-to-air combat.
Describe the type of damage produced by this type of missile (high explosive, splash damage, etc)
Comparison with analogues
Give a comparative description of missiles that have firepower equal to this weapon.
Usage in battles
This missile is best utilised when trailing an enemy. This will allow the pilot enough time to close the distance and acquire a target lock before firing the missile. The AIM-9B is especially effective against jet bombers, such as the Vautour IIA IDF/AF (France), which generally have poor manoeuvrability.
The missile can hit targets at up to 2.7km of range if they are moving in a straight line and make no effort to dodge. You can use this to your advantage by launching at aircraft high above you, who believe themselves to be safe due to their altitude, and may thus neglect to check their rear.
Firing the missile at aircraft moving in a straight line less than 900m away usually guarantees a kill, as by the time the target can react to the missile, it is already upon them.
When firing this missile, watch out for nearby friendly aircraft, and for the sun. The missile may lock onto either of these, causing at the best a miss, and at the worst an unintended team-kill.
The AIM-9B may be used to force the enemy to manoeuvre and bleed their speed, making it easier for the pilot to acquire a traditional firing solution and destroy the enemy with cannon fire.
Pros and cons
- Effective at destroying low energy targets
- Decent effective range can travel far in a straight line to intercept
- Very effective against aircraft with low manoeuvrability
- Effective against aircraft compressing at high speed
- Narrow firing circle compared to later missiles with uncaged seekers
- Poorest range out of all AIM-9 variants
- Often loses track when the target manoeuvres in more than one dimension or turns sharply.
The missile's history starts at the Naval Ordnance Test Station (NOTS) at China Lake in 1947. Under William B. McLean, the missile conception sprang from mating lead-sulfide proximity fuzes that were sensitive to infrared radiation with a guidance system to home onto the infrared source. Initially his own private project, McLean eventually received approval by Admiral William S. Parsons for development.These missiles were first test fired in 1951, with the first air-to-air hit was made on 11 September 1953 on a drone. This experimental missile would be designated as the XAAM-N-7. The missile would also earn the name "Sidewinder" by the development team, named after the desert rattlesnake that senses its prey's heat and moves in a winding motion.
Initially a US Navy project, the US Air Force was urged into participating by Howard Wilcox, the next project lead after McLean was promoted to upper management at NOTS in 1954. This culminated in a shoot-off in June 1955 between the Navy's Sidewinder against the Air Force's GAR-2 Falcon missile. The Sidewinder's performance in this event resulted in the US Air Force putting their support in the Sidewinder. By May 1956, the missile was officially adopted as the AAM-N-7 for the US Navy and the GAR-8 for the US Air Force. These designation would remain until 27 June 1963, when the Sidewinder's designations were standardised across all armed services as the AIM-9.
The AIM-9B would see combat first over the Taiwan Strait in 1958, where Chinese MiGs and Taiwanese F-86 Sabres faced off in air battles. The first AIM-9B were sent in September to assist the ROC air force, which were equipped onto their Sabres. The first air-to-air kill with a Sidewinder was recorded on 24 September 1958, in which a Sabre shot down a MiG-15 with an AIM-9B. During these battles, an AIM-9B Sidewinder successfully hit a Chinese MiG, but failed to explode, leaving it lodged in the fuselage. The MiG flew back to China with its baggage of an intact example of a heat-seeking missile. The AIM-9B was looked at by Soviet engineers, who reversed engineered the design into the R-3, or K-13, missile (NATO reporting name: AA-2 Atoll).
The AIM-9B would also see widespread service in Vietnam. Its first aerial victory over Vietnam is on 10 July 1965, when two F-4C Phantom II from the 45th Tactical Fighter Squadron downed two MiG-17 with AIM-9Bs. The AIM-9B would eventually account for around 28 MiG kills with 175 launches between 1965 to 1968. However, the missile's limitations became more apparent overtime. The range was short, the maneuverability leaves a lot to be desired, the reliability is poor, and the missile's IR lock can be easily interfered by sun, cloud, and even the ground. These problems led to continued development of the Sidewinder. The US Navy's efforts became the AIM-9D variant, while the US Air Force developed the AIM-9E.
Links to the articles on the War Thunder Wiki that you think will be useful for the reader, for example:
- reference to the article about the variant of the weapon;
- references to approximate analogues by other nations and research trees.
- Goebel 2019
- Hollway "The AIM-9 Sidewinder: Fox Two!"
- Parsch 2008
- Gervasi 1984, p.256
- Parsch 2020
- Lai 2016
- Siemann 1974, p.xii
- Kopp 2014
- Gervasi, Tom. America's War Machine: the Pursuit of Global Dominance: Arsenal of Democracy III. Grove Press, Inc., 1984.
- Goebel, Greg. "The Falcon & Sidewinder Air-To-Air Missiles." Air Vectors, 01 Apr. 2019, Website.
- Hollway, Don. "The AIM-9 Sidewinder: Fox Two!" HistoryNet, Website.
- Kopp, Carlo. "The Sidewinder Story: The Evolution of the AIM-9 Missile." Air Power Australia, 27 Jan 2014, Website.
- Lai, Benjamin. The Dragon's Teeth: The Chinese People's Liberation Army - Its History, Traditions, and Air Sea and Land Capability in the 21st Century. Casemate Publishers, 14 July 2016.
- Parsch, Andreas. "AIM-9." Directory of U.S. Military Rockets and Missiles, Designation-Systems.Net, 09 July 2008, Website.
- Parsch, Andreas. "Current Designations of U.S. Unmanned Military Aerospace Vehicles." U.S. Military Aviation Designation Systems, Designation-Systems.Net, 30 March 2020, Website.
- Siemann, John W. Project CHECO Southeast Asia Report. COMBAT SNAP (AIM-9J Southeast Asia Introduction). Defense Technical Information Center, 24 Apr 1974.