Mikoyan-Gurevich MiG-31 Foxhound

Development of the MiG-25's replacement began with the Ye-155MP (Russian: ?-155??) prototype which first flew on 16 September 1975. Although it bore a superficial resemblance to a stretched MiG-25 with a longer fuselage for the radar operator cockpit, it was in many respects a new design. The MiG-25 used 80% nickel steel in its structure to allow welding. The Ye-155MP doubled the use of titanium to 16% and tripled the aluminium content to 33% to reduce structural mass. More importantly, supersonic speed was now possible at low altitudes. Fuel capacity was also increased, and new, more efficient low bypass ratio turbofan engines were fitted.
The most important development was introducing an advanced radar capable of both look-up and look-down engagement (locating targets above and below the aircraft), as well as multiple target tracking. This finally gave the Soviets an interceptor able to engage the most likely Western intruders at long range. It also reflected a policy shift from reliance on ground-controlled interception (GCI) to greater autonomy for flight crews.
Like its MiG-25 predecessor, the MiG-31 was surrounded by early speculation and misinformation concerning its design and abilities. The West learned of the new interceptor from Lieutenant Viktor Belenko, a pilot who defected to Japan in 1976 with his MiG-25P. Belenko described an upcoming "Super Foxbat" with two seats and an ability to intercept cruise missiles. According to his testimony, the new interceptor was to have air intakes similar to the Mikoyan-Gurevich MiG-23, which the MiG-31 does not have, at least not in production variants. While the MiG-31 was undergoing testing, an unknown aircraft was spotted by a reconnaissance satellite at the Zhukovsky flight test center near the town of Ramenskoye. The images were interpreted as a fixed-wing interceptor version of a swing-wing fighter codenamed "Ram-K". The latter was eventually revealed to be the Sukhoi Su-27 'Flanker', a wholly unrelated design.
Series production of the MiG-31 began in 1979 and about 500 were produced.
Some upgrade programs have found their way in the MiG-31 fleet, like the MiG-31BM multirole version with upgraded avionics, new multimode radar, hands-on-throttle-and-stick (HOTAS) controls, liquid crystal (LCD) color multi-function displays (MFDs), ability to carry the AA-12 'Adder' missile and various Russian air-to-ground missiles (AGMs) such as the AS-17 'Krypton' anti-radiation missile (ARM), a new and more powerful computer, and digital data links. A project to upgrade the Russian MiG-31 fleet to the MiG-31BM standard is nearing completion.




General characteristics

• Crew: Two (pilot and weapons system officer)
• Length: 22.69 m (74 ft 5 in)
• Wingspan: 13.46 m (44 ft 2 in)
• Height: 6.15 m (20 ft 2 in)
• Wing area: 61.6 m² (663 ft²)
• Empty weight: 21,820 kg (48,100 lb)
• Loaded weight: 41,000 kg (90,400 lb)
• Max takeoff weight: 46,200 kg (101,900 lb)
• Powerplant: 2 × Soloviev D-30F6 afterburning turbofans
  • Dry thrust: 93 kN (20,900 lbf) each
  • Thrust with afterburner: 152 kN (34,172 lbf) each

Performance

• Maximum speed:
  
  • High altitude: Mach 2.83 (3,000 km/h, 1,860 mph)
  • Low altitude: Mach 1.2 (1,500 km/h, 930 mph)
• Combat radius: 720 km (450 mi) at Mach 2.35
• Ferry range: 3,300 km (2,050 mi)
• Service ceiling: 20,600 m (67,600 ft)
• Rate of climb: 208 m/s (41,000 ft/min)
• Wing loading: 665 kg/m² (136 lb/ft²)
• Thrust/weight: 0.85
• Maximum g-load: 5 g

Armament

• 1× GSh-6-23 23 mm cannon with 260 rounds.
• Fuselage recesses for 4× R-33 (AA-9 'Amos') (or for MiG-31M/BM only 6× R-37 (AA-X-13 'Arrow') long-range air-to-air missiles)
• 4 underwing pylons for a combination of:

• 2× R-40TD1 (AA-6 'Acrid') medium-range missiles, and
• 4× R-60 (AA-8 'Aphid') or
  • 4× R-73 (AA-11 'Archer') short-range IR missiles, or
  • 4× R-77 (AA-12 'Adder') medium-range missiles.

• Some aircraft are equipped to launch the Kh-31P (AS-17 'Krypton') and Kh-58 (AS-11 'Kilter') anti-radiation missiles in the suppression of enemy air defenses (SEAD) role.

McDonnell Douglas F-15 Eagle

The McDonnell Douglas (now Boeing) F-15 Eagle is a twin-engine, all-weather tactical fighter designed to gain and maintain air superiority in aerial combat. It is considered among the most successful modern fighters with over 100 aerial combat victories with no losses in dogfights. Following reviews of proposals, the United States Air Force selected McDonnell Douglas' design in 1967 to meet the service's need for a dedicated air superiority fighter. The Eagle first flew in July 1972, and entered service in 1976. The F-15 is expected to be in service with the U.S. Air Force until 2025.

Since the 1970s, the Eagle has also been exported to Israel, Japan, and Saudi Arabia. Despite originally being envisioned as a pure air superiority aircraft, the design proved flexible enough that an all-weather strike derivative, the F-15E Strike Eagle, was later developed, and entered service in 1989.

General characteristics
Crew: 1: pilot
Length: 63 ft 9 in (19.43 m)
Wingspan: 42 ft 10 in (13.05 m)
Height: 18 ft 6 in (5.63 m)
Wing area: 608 ft² (56.5 m²)
Airfoil: NACA 64A006.6 root, NACA 64A203 tip
Empty weight: 28,000 lb (12,700 kg)
Loaded weight: 44,500 lb (20,200 kg)
Max takeoff weight: 68,000 lb (30,845 kg)
Powerplant: 2× Pratt & Whitney F100-100 or -220 afterburning turbofans
Dry thrust: 17,450 lbf (77.62 kN) each
Thrust with afterburner: 25,000 lbf for -220 (111.2 kN for -220) each
Fuel capacity: 13,455 lb (6,100 kg) internal

Performance
Maximum speed:
High altitude: Mach 2.5+ (1,650+ mph, 2,660+ km/h)
Low altitude: Mach 1.2 (900 mph, 1,450 km/h)
 

Combat radius: 1,061 nmi (1,222 mi, 1,967 km) for interdiction mission
Ferry range: 3,450 mi (3,000 nmi, 5,550 km) with conformal fuel tanks and three external fuel tanks
Service ceiling: 65,000 ft (20,000 m)
Rate of climb: >50,000 ft/min (254 m/s)
Wing loading: 73.1 lb/ft² (358 kg/m²)
Thrust/weight: 1.12 (-220)

Armament
Guns: 1× 20 mm (0.787 in) M61 Vulcan 6-barreled gatling cannon, 940 rounds
Hardpoints: Total 11 (not including CFTs): two under-wing (each with additional two missile launch rails), four under-fuselage (for semi-recessed carriage of AIM-7 Sparrows) and a single centerline pylon station, optional fuselage pylons (which may include conformal fuel tanks, known initially as Fuel And Sensor Tactical (FAST) pack for use on the C model) with a capacity of 16,000 lb (7,300 kg) and provisions to carry combinations of:
 

Missiles:
AIM-7 Sparrow
AIM-120 AMRAAM
AIM-9 Sidewinder
 

Other:
up to 3× 600 US gallons (2,300 L) external drop tanks for ferry flight or extended range/loitering time.
MXU-648 Cargo/Travel Pod - to carry personal belongings, and small pieces of maintenance equipment.

Avionics
Radar:
Raytheon AN/APG-63 or AN/APG-70 (Note: Although several F-15C aircraft were produced with APG-70 radar, all have been retrofitted to the AN/APG-63(V)1 configuration.) or
Raytheon AN/APG-63(V)1 or
Raytheon AN/APG-63(V)2 Active Electronically Scanned Array (AESA) or
Raytheon AN/APG-63(V)3 Active Electronically Scanned Array (AESA) (Note: Both active AF and ANG F-15Cs will receive another (up to) 48 V3 units between 2009-2015, over the existing 19 aircraft.)
Joint Helmet Mounted Cueing System
Countermeasures:
Northrop Grumman Electronic Systems AN/ALQ-131 electronic countermeasures pod
Hazeltine AN/APX-76 or Raytheon AN/APX-119 Identify Friend/Foe (IFF) interrogator
Magnavox AN/ALQ-128 Electronic Warfare Warning Set (EWWS) - part of Tactical Electronic Warfare Systems (TEWS)
Loral AN/ALR-56 Radar warning receivers (RWR) - part of TEWS
Northrop Grumman Electronic Systems ALQ-135 Internal Countermeasures System (ICS) - part of TEWS
Marconi AN/ALE-45 Chaff/Flares dispenser system - part of TEWS