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J-8 / F-8

Shenyang F-8IIM, armed with air-to-air missiles and six bombs on a centerline tri-rack.
Role	Interceptor fighter
Manufacturer	Shenyang Aircraft Corporation
First flight	5 July 1969
Introduced	1980
Primary users	PLA Air Force PLA Naval Air Force
Number built	300+

The Shenyang J-8 (Jian-8; NATO reporting name Finback) is a high-speed, high-altitude Chinese-built single-seat interceptor fighter aircraft.

1 Design and development
2 Operational history
- 2.1 April 2001 incident
3 Variants
- 3.1 J-8 (Finback-A) Series
- 3.2 J-8II (Finback-B) Series
4 Operators
5 Specifications (J-8II/J-8B)
6 See also
7 References
8 External links

Design and development

J-8

The effort to develop an all-weather interceptor began in full in 1964 and this produced the first Chinese-designed and built jet fighter to combat new, high altitude threats such as the B-58 Hustler bomber, F-105 Thunderchief fighter-bomber and Lockheed U-2 spy plane. In 1964 the People's Liberation Army Air Force requested an aircraft from Shenyang Aircraft Corporation and the 601 Institute to develop a fighter/interceptor to counter bombers and spy planes as the, then, newly introduced Chengdu J-7 (a reverse engineered MiG-21F-13) was incapable of doing so. The prototype took its maiden flight in 1969. Despite the early mid to late 1960s origins of the J-8, due to political turmoils such as the Cultural Revolution, the J-8 was not produced until 1979 and entered service in 1980. Its basic configuration resembles an enlargement of the delta-wing of the J-7, with two Liyang (LMC) Wopen-7A turbojet engines and a maximum speed of Mach 2.2. The twin engined J-8 competed with rival Chengdu Aircraft Industry Group's single, turbofan powered engine, canard-delta J-9 project and ultimately emerged as the victor largely due to the existing availability of the former's MiG-21 based powerplant and proven layout, while the J-9 project was cancelled in 1980 due to diffculty in creating a suitably powerful engine.

In order to house a large radar set, the design called for a solid nose and variable geometry side air intakes. However, the lack of familiarity with this type of intake meant the J-8 had to settle for a MiG-21 style nose intake. The solid nose J-8 was finally realized in the J-8II (Finback-B), which was based on the layout of the Soviet Sukhoi Su-15 Flagon-A fighter. The radar chosen for the J-8 was the Type 204 mono-pulse fire-control radar, a primitive ranging radar for daylight within-visual-range operations. The performance of the radar fell well short of the PLAAFs requirements as research into a more capable fire control radar and power source proved difficult and time-consuming. The aircraft was originally armed with cannons and seven hardpoints for missiles, bombs, rockets or fuel tanks. The original weapons layout of the J-8 was two 30 mm Type 30-1 cannons after initial problems with the 30 mm Type 30-II four-barrel Gatling gun. The J-8 was also planned to be armed with the experimental PL-4 medium ranged missile but technical issues and political upheavals prevented any indepth development and the project was cancelled in 1985 citing unsatisfactory performance. Therefore the PL-2 IR-homing short-range anti-aircraft missile (SRAAM) was used instead. Unguided bombs and rockets can also be carried on the J-8.

Despite entering service relatively recently, it was comparable to many older Soviet fighter designs, with limited maneuverability. The original combat avionics package was soon replaced with an all-weather capability in aircraft designated J-8I (Finback-A). The J-8I (later redesignated as the J-8A) received a new gun sight, onboard computer, new cockpit design, and redesigned ejection escape system and oxygen supply system. The gun armament was also changed from two 30 mm cannons to a single 23 mm twin-barreled cannon and the PL-5 short ranged AAM was also equipped. The later J-8E featured improved electronic warfare systems. The unsatisfactory performance of the J-8I led to a very short production run of 20-50 aircraft and the J-8I has slowly began being phased out as early as the 1990s. A tactical reconnaissance variant of the J-8, known as the JZ-8 was developed in the mid 1980s to take advantage of the J-8s few favourable qualities, most notably its capability of reaching high speeds and altitudes to replace the Shenyang JZ-6 in the tactical reconnaissance role. Using an under-fuselage reconnaissance pod with a KA-112A long focal-length optical camera, the JZ-8 usually operates at heights ranging from 9,500~15,000m during reconnaissance missions. By 1982 work began to replace the unimpressive J-8I type with a new design known as the J-8II. The new 1982 requirements from the PLAAF demanded being capable of beyond visual range combat (BVR) with the use medium ranged missiles (MRAAM) and secondary ground attack capabilities. In terms of performance, the aircraft was expected to have better aerodynamic performance at medium to low altitudes and at transonic speeds.

J-8II

Shenyang J-8D in flight

The J-8II series appear quite different from the original J-8, with a new forward fuselage, intakes and nose structure more reminiscent of the F-4 Phantom II or Sukhoi Su-15 to house a new, more powerful radar. J-8IIs are powered by Wopen-13A (WP-13A) engines. It was hoped to equip the production J-8B with an American AN/APG-66(V) radar (to be dubbed the J-8C), but this proved politically impossible after the Tiananmen Square protests of 1989 so the indigenous Type 208A mono-pulse fire-control radar initially was used. Although the Type 208A was an improvement over the original J-8I radar, the Type 208A did not have true beyond visual range capabilities (The detection range of the Type 208 was 40 km) nor look-down/shoot-up ground attack capabilities, thereby falling short of the PLAAFs initial requirements and the redesign of the airframe. The J-8B was the early production batch of the new J-8II series. In addition to receiving a new radar, new engine and a completely redesigned noses, cockpit and intake, the J-8B also benefited from a new HUD, integrated inertial navigation system/Global positioning satellite system and TACN technology. Later J-8Bs were equipped with the more robust KLJ-1 pulse-Doppler fire-control radar and radar warning receiver, theoretically giving the later batch BVR capabilities. At least 30 J-8Bs have been converted by the PLA Navy to J-8D standard, with an in-flight refuelling probe for use with Xian H-6DU tankers in addition to newly built J-8Ds. The most significant difference between the J-8B and J-8D is the use of the new Type-02 airframe that was heavier than the J-8B and featured uneven length wing fences. The heavier 'Type 02' airframe is able to carry a larger payload and can tolerate higher G-loadings. The new airframe also has a stiffer radome. A few minor differences between the later J-8B batches and the J-8D are the J-8Ds slightly improved avionics. The use of the KLJ-1 pulse-Doppler radar was used through the J-8Ds entire production run. The J-8B and J-8D both suffered from China's difficulty in developing a MRAAM. Although the Type 208A was theoretically capable of using semi-active radar homing missiles and the KLJ-1 was certainly capable; no such missile, semi-active or active, were available at the time. Both variants were only initially armed with SRAAMs such as the PL-2 and PL-5, and the more advanced infrared-homing PL-8 SRAAM.

An early attempt to remedy these technological shortcoming that were still presenting themselves after the redesign of the J-8 to the J-8II was the J-8C project which began short after the failure to obtain American cooperation for the J-8B so instead Shenyang turned to Israel and Russia. The J-8C was considered a 'radical' upgrade of the original J-8II with a new radar based on the Israeli Elta EL/M 2035 multi-mode pulse Doppler radar, digital fire-control system, a new ‘glass’ cockpit, in-flight refuelling probe and equipped with a new WP-14 Kunlun engine. These upgrades are said to 'bring the fighter into the same league as modern Russian and Western fighters such as Mikoyan MiG-29 and Dassault Mirage 2000-5'. The project was cancelled in the late 1990s after two prototypes were built in favour of further development of the Shenyang J-11 fighter (which is based on the Sukhoi Su-27). The J-8IIM, first flown in 1996, is a further improved version. One major improvement over the J-8II is the capable Russian-made Zhuk-8II coherent pulse doppler radar, 100 of which have been delivered in the 1990s. Additionally, the J-8IIM carried new multifunction displays, integrated INS/GPS navigation system, new fire-control systems, new alternators and a new electronic countermeasures suite. The J-8IIM possessed true BVR capabilities with the use of the Vympel R-27 semi-active infrared seeker medium-ranged missile. New WP-13B turbojet engines were adopted as well. The J-8IIM has had no new orders from China or the export market, where it is offered as the F-8IIM. It was heavily marketed to Iran but ultimately was not exported anywhere. However the experience and technological achievements gained from the J-8C and F-8IIM projects were later applied by Shenyang Aircraft Company to the later J-8H/F variants.

It was also during this time that the Shanghai Academy of Spaceflight Technology certified the PL-11 in 2001 after successfully test firing five missiles from the J-8II. The PL-11 is a copy of the Italian Selenia Aspide semi-active radar homing medium ranged missile originally acquired in 1989 before Italy refused to directly cooperate further with the Chinese governemnt in the aftermath of the Tiananmen Square incident. This slowed down China's testing of the missile considerably, preventing the J-8B/D from carrying the missile when they were introduced in the 1990s, as the original plan had intended.

The J-8H configuration features the more powerful WP-13B turbojet engines, improved avionics and the improved Type 1471 Pulse Doppler fire control radar with look-down/shoot-down capability and a range of new operating modes. With the radar upgrade comes the ability to fire the PL-11 and the PL-12/SD-10 MRAAM which employs an Active Radar Homing (ARH) seeker. The J-8H also is equipped with IFR probe, INS/GPS, HOTAS, integrated ECM suite, with twin wing fences on each side of the wings that greatly increased handling ability. The J-8Ds heavier airframe is used but with modified wing fences. Production of the J-8H and the J-8D it had superseded has now ceased in favor of upgrading earlier J-8D aircraft to J-8H standards. It is uncertain if the older J-8B will be upgraded to J-8H standards gvien the difference in airframe. The J-8F is the most modern and capable J-8 variant currently in service and has been in production since 2003. The J-8H/F has inherited many of the improvements of the earlier J-8C and F-8IIM, and in some cases, has improved on them. The J-8F features a glass cockpit, a more powerful WP-13BII turbojet engine and enhanced Type 1492 radar for enhanced air-to-air capabilities with the PL-12 active-radar medium range missile, full air-to-ground and air-to-sea capabilities using the AS-17 'Krypton' anti-radar missile and a variety of Chinese designed precision guided laser and satellite guided bombs, making it the first true multi-role variant of the J-8 series. The J-8F also possesses all the avionic and electronic upgrades the J-8H received as well. The earlier J-8B/Ds can be easily distinguished from later J-8H/Fs by their dark green radomes compared to the later's black radomes. Introduction of the more powerful WP-14 [i]Kunlun[/i] turbojet engine for the J-8 series is planned to go under way in the coming years. The J-8F also serves in the People's Liberation Army Naval Air Force as well. A notable variant of the J-8F is the JZ-8F which has quietly been introduced into the PLAAF in the tactical reconnaissance role. Very little information has been released on the JZ-8F, other than the use of an internal camera compartment replacing the twin 23 mm cannon rather than a camera pod used by the older JZ-8.

In 1988, one J-8II airframe was converted into the J-8ACT an experimental fly-by-wire testbed for the J-10 program. The J-8ACT had a shorter fueslage and a pair of canards were affixed to the side of each intake and replaced older FBW technological demonstrators based on the older Shenyang J-6 and J-8I airframes. To date, no plans for a twin-seat J-8 design have been announced.

Soviet connection

The J-8 project was largely made possible due to the transfer of MiG-21 technology from the Soviet Union in 1961. However this aircraft lacked the speed, range, altitude, and radar capability the PLAAF needed in an all-weather interceptor. The nascent Chinese jet aircraft industry was mostly established with Soviet assistance and Chinese designers followed Soviet design methodology for the J-8. A Soviet experimental aircraft known as the Ye-152 "Flipper" with similar configuration may have influenced the J-8 layout, as did the Sukhoi Su-15 'Flagon-A' airframe.

After the Chinese military delegation led by Field Marshal Peng Dehuai visited Soviet Union in the late 1950s, some believe China subsequently purchased the incomplete Soviet design of Ye-152 (E-12) fighter. Several Russian and Chinese sources do claim The J-8 was modeled upon the Soviet Ye-152A and several Russian authors claim the Ye-152A documentation was sold to China and used for the development of the J-8I, in fact the Chinese designer Wong Nanso said this in an interview regarding Soviet influence on Chinese aviation:

"-We wouldn't have anything without hand-in-hand tutelage from the Soviets. Even the Dongfeng 107 (early Chinese supersonic fighter) design team included Soviet experts. Also regarding some aspects of the J-8 aerodynamic characteristics, we studied some results from Soviet design. Of course, "the abbot can open the door to the monastery, but spiritual achievement is up to the individual-"

This seems to confirm what has been written in several Russian sources that do claim the Ye-152 documentation was sold to China.^[1] The hope of joint development or any Soviet help was lost when the relationship between the two countries soured during the Sino-Soviet Split.

Operational history

There are currently over 300 J-8s of all types serving in the People's Liberation Army Air Force and People's Liberation Army Naval Air Force; that number is expected to grow in limited numbers in the next ten years. The J-8 is expected to be exceeded by modern J-10 and J-11 variants in the coming years.

April 2001 incident

Main article: Hainan Island incident

On 1 April 2001, a Chinese J-8D fighter jet collided with a U.S. EP-3 reconnaissance aircraft flying over disputed waters about 70 miles (110 km) south of China. The EP-3 crew was forced to make an emergency landing on China's Hainan Island; according to Chinese officials, the pilot of the J-8D, Wang Wei, ejected, but he was never found and is presumed dead. American reconnaissance crews had been intercepted many times before, in some instances the interceptors flew as close as ten meters away from the American surveillance aircraft. The crew of 24 Americans was eventually allowed to return home on 11 April. The American aircraft was not returned for another 3 months.

Variants

J-8 (Finback-A) Series

The original J-8 fuselage design at the Beijing Military Museum

J-8: First flew on 5 July 1969. Initial day fighter variant, resembles an enlarged MiG-21. Equipped with 2 x WP-7A turbojet engines, SR-4 ranging radar 2 x Type 30-I 30mm cannon (200 rounds each), and 2 x PL-2 IR-guided AAMs. Limited production.^[2]
J-8I: First flew in 24 April 1981. Improved all-weather version with SL-7A fire-control radar (40 km range), twin-barrel Type 23-III 23 mm cannon, & up to 4 AAMs (or rockets/bombs). Limited production.
J-8E: Mid-life upgrade for J-8I.
JZ-8 (J-8R): Reconnaissance version of J-8 or J-8I.
J-8ACT: First flew on 24 June 1990, fly-by-wire testbed aircraft.

J-8II (Finback-B) Series

Shenyang J-8B at Datang Shan aviation museum

A Shenyang J-8II parked on an airfield

An old J-8I of the 24th air division

J-8II (Finback-B)

First flew on 12 June 1984. Improved J-8I prototype with redesigned nose/front section and fuselage. Replaced nose air inlet with solid nose and lateral air intakes, similar to those of the MiG-23 China indeed received several MiG-23s in the late 1970s from Egypt and the hinged ventral fin and lateral intakes shown reversed engineering of these MiG-23 features into the J-8II, in fact China followed a very similar development process to the Su-15 when from the Sukhoi T-5, the large T-58 (Su-15) was spawned, the MiG-23PD also has some similarities with the J-8II however the MiG-23PD is a single engined experimental fighter with direct lift engines, but the transformation of the MiG-21 into the MiG-23PD was mirrored in the J-8II. Equipped with Type 208 (SL-4A) monopulse radar (40 km range).

J-8II Batch 02 (J-8IIB)

First flew in November 1989, improved J-8II with SL-8A (Type 208?) PD radar (70 km range). Powered by 2 x WP-13AII turbojet engines. Armed with twin-barrel 23mm Type 23-III cannon (copy of GSh-23L) and up to 4 PL-5 or PL-8 AAMs (or rockets/bombs). No BVR capability.

Peace Pearl J-8 (J-8II)

During the Sino-US cooperation era, up to 50 J-8IIs were to be delivered to the US for upgrades and installation of AN/APG-66(v) radar and fire control system for US$500 million, under the Peace Pearl program. However, the project was canceled and only about 24 J-8II was produced.^[3]

J-8IIACT (J-8II-BW2)

First flew in 1988, fly-by-wire testbed and technology demonstrator.

J-8IID (J-8D)

First flew on 21 November 1990, modified J-8B with fixed refuelling probe and updated avionics such as TACAN navigation system.

F-8IIM

Unveiled in Zhuhai Air Show 1996, export version of J-8B with Russian Phazotron Zhuk-8II PD radar (75 km range, and able to track up to ten airborne targets and attack two of them simultaneously), R-27R1 (AA-10) AAM and Kh-31P anti-radiation missile. The F-88IIM was to be powered by two, more powerful WP-13B turbojet engines. This aircraft is often mistakenly referred to as the "J-8IIM" with Kh-31A anti-ship missile (ASM) capability, but its radar lacked sea search mode for anti-shipping role. The F-8IIM Failed to attract any export customers and no domestic orders.^[4] Conversion from older airframe was reportedly much fewer than the 100 units of Zhuk-8II radar delivered, and the conversion might have only been an experimental program with none entering service.

The twin-engined Jian-8IIM is claimed to be better equipped to survive engine damage than single-engined fighters. By using the new, powerful WP-13B engines, the Jian-8IIM fighter boasts greatly improved low-altitude maneuverability. The Jian-8IIM fighter will probably be equipped with Russia's or China's helmet sight and advanced PL-9 and P-73 missiles.[1][2][3][4]

J-8III (J-8C)

Upgraded J-8II with FBW system and 2 x WP-14 powerplants. Compared to the J-8II, the J-8C had a number of improvements including a new multi-mode pulse Doppler radar which was reportedly based on the Israeli Elta EL/M 2035 radar technology. The aircraft was also equipped with a digital fire-control system and a new ‘glass’ cockpit with multifunctional displays (MFD). The J-8C programme entered full scale development around 1991 and the aircraft first flew successfully in 1993. Development halted in favor of other version described below, but was used to test new radars such as Type 1471 (KLJ-1) and other avionics associated with FBW system. From this version on, electronic warfare pods such as BM/KG300G and KZ900, as well as navigational / targeting pods including Blue Sky navigation pod and FILAT become operational on J-8II.

J-8IIH (J-8H)

First flew in December 1998, upgraded J-8II with new glass cockpit, WP-13B power plant, Type 1471 (KLJ-1) PD radar (75 km range) with look-down, shoot-down capability. Can use medium-range R-27 (AA-10), PL-11 AAMs, and YJ-91 anti-radiation ASMs.

J-8IIF (J-8F)

First flew in 2000, J-8H with WP-13BII powerplant, in-flight refueling probe, and Type 1492 PD radar. Successfully test-fired PL-12/SD-10 AAM in 2004.^[5]

J-8G

An advanced modified variant of the J-8II tasked with the suppression of enemy air defence (SEAD) mission was said to have been developed by the SAC in 2000s. The aircraft, reportedly designated J-8G, was said to be capable of carrying two indigenous YJ-91 anti-radiation missile and electronic warfare suite to attack enemy radar stations.[5]

J-8IIM (2006)

At Zhuhai Air Show 2006, a new variant "J-8IIM" was put on display with upgraded systems similar to the J-8H. [6] The most significant improvement is the radar upgrade with a new Type 1471 domestic radar used by the J-8H. In comparison to F-8IIM's Russian Zhuk-8II radar, the Type 1471 radar has a number of performance enhancements:^{[citation needed]}

Type 1471 radar has 75 km maximum range for targets with 3 square meters RCS, in comparison to Zhuk-8II's 70 km maximum range against target of 5 square meters RCS.
Additional ability to handle sea-borne target that Zhuk-8II does not have. For sea targets with 50 square meters RCS, the max range is greater than 100/80 km for sea state 1/2.
Simultaneously tracking 10 targets and display 8 most threatening ones out of the 10 on displays, engaging 2 out the 8.
Air-to-Air modes: VS (Velocity Search), RWS (Recon./Search while Scan), TWS (Track While Scan), STT (Single Target Tracking), Air Combat Mode (ACM). AMTI, (aerial moving target indication) mode which is used to discover hovering helicopters can be added upon customer request, though this does not come as standard feature.
Air-to-Ground modes: Mapping (Real Beam Mapping RBM), Mapping Expansion/Freezing (EXP/FRZ), Doppler Beam Sharpening (DBS), Ground Moving Target Indication (GMTI), Sea Single Target Tracking (SSTT), Air-to-Ground Ranging (AGR).
An improved beacon navigation (BCN) and weather (WX) capability.

J-8T: Future advanced variant, under development. [7][8]
JZ-8F: A reconnaissance version of the J-8F with internal camera in the forward fuselage replacing the cannon.

Operators

People's Republic of China

Specifications (J-8II/J-8B)

General characteristics

Crew: 1
Length: 21.52 m (70 ft 7 in)
Wingspan: 9.34 m (30 ft 8 in)
Height: 5.41 m (17 ft 9 in)
Wing area: 42.2 m² (454 ft 3 in)
Empty weight: 9,820 kg (21,600 lb [9] [10])
Loaded weight: 13,850 kg (30,500 lbf)
Max takeoff weight: 17,800 kg (39,250 lbf)
Powerplant: 2× WP-13A-II turbojets
- Dry thrust: 42.7 kN (9,900 lbf) each
- Thrust with afterburner: 65.9 kN [11] [12] (14,815 lbf) each

Performance

Never exceed speed: Mach 2.2 limited (2339 km/h/1262 knot)
Maximum speed: Greater than Mach > 2.4+ (est.)
Range: 4,000 km [13] (2, 486 mi)
Combat radius: 800km(No refueling)/1300km(One refueling) [14] ()
Service ceiling: 20,500 m (67,256 ft)
Rate of climb: 200 m/s 12,200 m/min (39,400 ft/min)
Thrust/weight: 0.65; 0.98 with afterburner

References

External links

Wikimedia Commons has media related to: Shenyang J-8

v • d • e PLAAF/PLANAF fighter aircraft

J-5 • J-6 • J-7 • J-8 • J-9 • J-10 • J-11 • Nanchang J-12 • Shenyang J-12 • Shenyang J-13 • Chengdu J-13 • Shenyang J-14 see also: J-XX

v • d • e Active aircraft of the People's Liberation Army Air Force

Fighters: J-7 · J-8 · J-10 · J-11 · Su-27 · Su-30MKK - Bombers and Ground Attack: Q-5 · H-6 · JH-7 · Tankers: H-6 · Il-78 Reconnaissance: HZ-5 · JZ-5 · JZ-6 · JZ-7 · JZ-8 · Tu-154M - Transport: Y-5 · Y-7 · Y-8 · Y-11 · Y-12 · B737-300/700 · CL 601 · Il-76 · Tu-154

v • d • e Lists relating to aviation

General	Timeline of aviation · Aircraft (manufacturers) · Aircraft engines (manufacturers) · Airports · Airlines · Civil authorities · Museums

Military	Air forces · Aircraft weapons · Missiles · Unmanned aerial vehicles (UAVs) · Experimental aircraft

Accidents/incidents	General · Military · Commercial (airliners) · Deaths

Records	Airspeed · Distance · Altitude · Endurance · Most-produced aircraft

Chinese military aircraft

Fighters

Multi-role and strike	J-XX^* · J-10B^* · J-11B · J-10 · JF-17 · JH-7B^* · JH-7 · Su-30MK2 · Su-30MKK

Air superiority and interceptor	J-XX^* · J-11 · J-8 · J-7 · J-6 · J-5 · Su-27

Ground attack	Q-5

Bombers

H-8^* · H-6 · H-5

AEW and AEW&C

KJ-2000 · KJ-200 · Y-8J

Tankers

H-6 · Il-78

Reconnaissance

JZ-8 · JZ-7 · JZ-6 · JZ-5 · HZ-5 · Tu-154M

Transport

Strategic	Il-76

Tactical	Y-12 · Y-11 · Y-9^* · Y-8 · Y-7 · Y-5 · B737-300/700 · CL 601 · Tu-154

Trainers

L-15 · JL-9 · JL-8 · CJ-6 · CJ-5

Helicopters

Attack	WZ-10 · WZ-9

Transport and utility	Z-11 · Z-9 · Z-8 · Z-6 · Z-5

ASW	Z-9C · Z-8 · Ka-28

UAVs

WZ-2000 · WuZhen-5 · ASN-206 · ChangKong-2 · ChangKong-1

* = Under development
Italicized = Retired
List of Chinese aircraft

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Shenyang J-8

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