Mikoyan-Gurevich MiG-25 Foxbat — History, Specs & Stories

Mikoyan-Gurevich MiG-25 Foxbat interceptor in flight
Military Aircraft EncyclopediaInterceptorMiG-25

Mikoyan-Gurevich MiG-25
“Foxbat”

The fastest interceptor ever mass-produced — a stainless-steel monster built to catch aircraft at the edge of space, and the jet whose myth terrified the West until a defector landed one in Japan.

Mach 2.83Service limit · Mach 3.2 dash
37,650 mAbsolute altitude record · 1977
~1,186Aircraft built
1964–1984First flight · end of production
Photo: Rob Schleiffert · CC BY-SA 2.0
RoleHigh-speed interceptor & reconnaissanceEraCold War引擎2 × Tumansky R-15B-300OriginUSSR · Mikoyan-GurevichStatusRetiredWant to fly a real MiG yourself?
故事

Built to catch the uncatchable

In the late 1950s, Soviet air-defence planners faced a nightmare menu of American high-altitude, high-speed threats — the U-2 spyplane, the Mach-2 B-58 Hustler, and above all the Mach-3 XB-70 Valkyrie bomber then in development. No Soviet interceptor could reach that flight envelope. In 1958 the PVO issued a requirement for a manned interceptor able to reach roughly 3,000 km/h at nearly 27,000 metres, and the Mikoyan-Gurevich bureau began work on the aircraft that became the MiG-25.

The result, first flown in 1964 and in service by 1970, was unlike anything in the West: a huge twin-tailed machine built around two enormous turbojets, welded largely from nickel-steel rather than titanium, and optimised for one thing above all — straight-line speed and altitude. When it broke cover through a 1967 flypast and a string of world records, Western analysts saw the colossal wing and blistering numbers and concluded the USSR had fielded a super-agile Mach-3 fighter. That fear helped launch the F-15 Eagle.

They were wrong. The MiG-25 was a specialised high-speed interceptor and reconnaissance platform — heavy, thirsty and structurally limited in a turn, never meant to dogfight. The truth was only fully exposed on 6 September 1976, when Lieutenant Viktor Belenko defected to Japan with an intact example and Western engineers finally took the myth apart. It remains, even so, the fastest and among the highest-flying combat aircraft ever mass-produced — beaten only by the SR-71.

And for a brief, remarkable window, you could ride one yourself: from 2004 to 2006, MiGFlug flew civilian passengers to the edge of space in a MiG-25 — the only way an ordinary person ever got to experience the Foxbat’s Mach-speed climb to the stratosphere.

The West spent a decade terrified of a fighter that never existed.The Foxbat myth — how the MiG-25 helped build the F-15
01The MiG-25’s great deception: how record flights fooled NATO into building the F-15

From 1965 the Soviets set a run of world speed and altitude records with the type, flown under the cover designation “Ye-266.” To Western eyes the numbers were terrifying: a machine that could apparently sprint past Mach 3 and climb near the edge of space. Combined with its enormous wing — which analysts read as a sign of tight-turning agility — the intelligence community concluded the USSR had built a Mach-3 air-superiority fighter that would outclass anything America flew.

That assessment shaped a generation of US procurement, feeding directly into the requirement for the F-15 Eagle. The reality — a heavy, steel, straight-line interceptor with a big wing needed simply to carry it at altitude, not to turn — only became undeniable when Belenko’s aircraft was dismantled in 1976. The Foxbat is perhaps the Cold War’s greatest case of an adversary being frightened by a machine that was never what it seemed.


Design & Engineering

What makes it special

01

A fighter built mostly of steel

关于 80% of the MiG-25’s weight is nickel-steel alloy, with only ~9% titanium and ~11% aluminium. Titanium would have been lighter and better in the heat of Mach-2.8 flight, but the Soviets couldn’t reliably weld it and it was ruinously costly. Steel was heavy but cheap, weldable, and could take the kinetic heating — skin temperatures climb past 300 °C — of sustained supersonic flight.

02

Two giant turbojets — and the Mach 3.2 legend

Power came from two Tumansky R-15B-300 afterburning turbojets, about 100 kN each in reheat — roughly 200 kN combined. The airframe could touch Mach 3.2 in a dash, but doing so destroyed the engines: above about Mach 2.83 the compressors ran away. Pilots were red-lined at Mach 2.83, and even then only for minutes before the airframe overheated.

03

The ‘Fox Fire’ burn-through radar

The interceptor’s RP-25 Smerch-A radar (NATO “Fox Fire”) was a brute — a vacuum-tube set commonly cited at around 600 kW, designed to overpower enemy jamming by sheer output. Its weakness, exposed in 1976, was that it couldn’t look down and shoot down low-flying targets — a gap closed only in the later MiG-25PD and the MiG-31.

02The MiG-25’s steel airframe: why the Soviets skipped titanium

The SR-71 solved the heat problem of sustained supersonic flight with titanium. The Soviets could not: welding titanium reliably was beyond their production base in the 1960s, and the metal was extraordinarily expensive. So Mikoyan-Gurevich built the Foxbat overwhelmingly from a nickel-steel alloy — roughly 80% of its weight — assembled largely by welding, some of it by hand. When Western engineers took Belenko’s jet apart in 1976 they reportedly found rust bleeding through the paint. Steel made the aircraft heavy and thirsty, but it was cheap, robust and could survive the ~300 °C skin temperatures of Mach 2.8 flight.

03The MiG-25’s engines: the Mach 3.2 dash that wrecked them

The most famous demonstration of the Foxbat’s speed — and its limits — came over the Sinai in 1971, when a Soviet-crewed reconnaissance MiG-25 accelerated to Mach 3.2 to outrun an intercepting Israeli F-4 Phantom and its missiles. It escaped clean, but the over-revved engines were ruined and had to be scrapped. That was the deal the airframe offered: it could exceed Mach 3, but only by sacrificing its engines. In everyday service the type was firmly limited to Mach 2.83.


技术数据

Full specifications

Airframe & Performance

全体人员
1 (two-seat trainers seat 2)
长度
23.82 m
翼展
14.01 m
高度
6.10 m
Max takeoff weight
~36,720 kg
Max speed (service limit)
Mach 2.83 · ~3,000 km/h
Dash speed
~Mach 3.2 (engine-destroying)
设备天花板
~20,700 m
Record altitude
37,650 m (1977, special aircraft)
作战半径
~1,730 km

Propulsion & Systems

Engines
2 × Tumansky R-15B-300
Thrust (each)
~100 kN with afterburner
Radar
RP-25 Smerch-A (“Fox Fire”)
武器
4 × R-40 (AA-6 Acrid) AAMs
Sensors (recon)
Cameras, SLAR, ELINT
First flight
6 March 1964
Built
~1,186 (1964–1984)
Unit cost
~$3–5 million (estimate)
Cost per flight hour
No reliable public figure
04The MiG-25’s operating costs: why no reliable price exists

The MiG-25 was a Soviet state product, never sold on an open dollar market, so a firm flyaway unit price simply does not exist in the public record. Period estimates place it in the low single-digit millions of US dollars — very roughly $3–5 million in 1970s–80s terms — but that should be read as an order-of-magnitude guess, not a sourced figure. No credible cost-per-flight-hour number exists for the type in open sources either. Any precise dollar figure you see attached to a MiG-25 is, in practice, an estimate.


Timeline

From Cold-War threat to Cold-War relic

1959

Programme begins

The Mikoyan-Gurevich bureau starts work on the Ye-155 to counter US Mach-3 threats such as the XB-70 Valkyrie.

1964

First flight

The reconnaissance prototype Ye-155-R1 flies on 6 March; the interceptor prototype follows in September.

1970

Enters service

The MiG-25 joins the Soviet PVO air-defence force as a dedicated high-speed interceptor.

1971

The Sinai sprint

Soviet-crewed reconnaissance Foxbats overfly Israeli-held Sinai, outrunning intercepting F-4 Phantoms at Mach 3.2.

1976

Belenko defects

On 6 September, Lt Viktor Belenko lands an intact MiG-25 at Hakodate, Japan — an intelligence windfall for the West.

1977

Edge of space

Test pilot Alexander Fedotov zoom-climbs to 37,650 m — still the absolute altitude record for an air-breathing aircraft.

1991

The Speicher kill

An Iraqi MiG-25 downs a US Navy F/A-18 on the first night of Desert Storm — the only US fixed-wing air-to-air loss of the war.

2004–06

MiGFlug flies civilians to the edge of space

MiGFlug offers Edge of Space flights in the MiG-25 from 2004 to 2006 — paying passengers ride the Foxbat to the stratosphere. The highest a MiGFlug customer ever reached was 25.5 km (about 83,600 ft), well into the black-sky edge of space with the curvature of the Earth in view.

2022–24

The last Foxbats

Algeria retires its fleet (2022); Syria’s surviving airframes are reportedly destroyed (2024). The type passes into history.


Stories & Eyewitnesses

From the cockpit: twelve Foxbat stories

Cold-War origin

The bomber that started it all

The Mach-3 XB-70 Valkyrie and other US high-fliers drove the PVO’s 1958 requirement.

Read the full story
The MiG-25 exists because of American ambition. In the late 1950s the US was developing the North American XB-70 Valkyrie, a Mach-3 bomber meant to cruise at 21,000 m — a target no Soviet interceptor could touch. The PVO’s 1958 requirement for a 3,000 km/h interceptor was the direct answer, and it became the Foxbat. Ironically the XB-70 was cancelled, but the jet built to kill it flew on for decades.
Reconnaissance · 1971

The Sinai sprint

A Soviet-crewed recon MiG-25 hit Mach 3.2 to escape an Israeli F-4 — and wrecked its engines doing it.

Read the full story
In 1971, Soviet-crewed MiG-25R reconnaissance jets began overflying Israeli-held Sinai at 20,000 m. When an Israeli F-4 Phantom managed a missile lock at around Mach 2.5, the Foxbat simply accelerated to Mach 3.2 and ran away from both the fighter and its missiles. It escaped untouched — but the over-revved engines were ruined and had to be replaced. Israeli fighters never managed to down one during these overflights.
Defection · 1976

Belenko’s 30-second landing

Lt Viktor Belenko reportedly touched down at Hakodate with about 30 seconds of fuel left, overshooting the runway.

Read the full story
On 6 September 1976, Lt Viktor Belenko broke from a training flight, dropped to wave-top height to slip under radar, and flew his MiG-25P across the Sea of Japan to the civilian airport at Hakodate. By the most-repeated account — from journalist John Barron’s book MiG Pilot — he landed with roughly 30 seconds of fuel remaining and overran the runway. It was one of the great intelligence coups of the Cold War.
Intelligence · 1976

“Rust through the paint”

Western engineers expected titanium and microchips. They found steel and vacuum tubes.

Read the full story
American and Japanese specialists dismantled Belenko’s jet over several weeks before returning it to the USSR in crates. What they found overturned a decade of assumptions: the airframe was overwhelmingly nickel-steel, not titanium; the radar and avionics used vacuum tubes, not solid-state microelectronics; and the aircraft was a heavy, limited-range interceptor, not the agile super-fighter the West had feared. The tubes weren’t simply primitive — they gave brute radar power and hardness against electromagnetic pulse.
Engineering

Burn-through radar

The ‘Fox Fire’ radar’s huge vacuum-tube output was meant to overpower jamming by brute force.

Read the full story
The interceptor’s Smerch-A radar (NATO “Fox Fire”) is commonly cited at around 600 kW — a colossal figure achieved with vacuum tubes. The design philosophy was blunt: rather than out-think enemy jamming, simply overpower it with raw output. It worked at high altitude against high-flying targets, but the set could not look down and pick low-flying aircraft out of ground clutter — a weakness fixed only in later variants.
Strategy

The Eagle’s inspiration

Western fear of a ‘super-Foxbat’ helped justify the F-15 Eagle programme.

Read the full story
When NATO analysts saw the MiG-25’s record numbers and enormous wing, they concluded the USSR had a Mach-3 air-superiority fighter that would dominate any Western jet. The US response was, in significant part, the F-15 Eagle. The truth — that the Foxbat was a straight-line interceptor, not a dogfighter — only emerged after 1976, by which time the Eagle was already flying.
Records · 1977

Fedotov’s edge of space

On 31 August 1977 test pilot Alexander Fedotov zoom-climbed to 37,650 m.

Read the full story
Flying a specially lightened, re-engined record aircraft, test pilot Alexander Fedotov zoom-climbed to 37,650 m (123,520 ft) on 31 August 1977. Near the apex the jet was essentially ballistic, its speed decaying to around 75 km/h. It remains the highest altitude ever reached by an air-breathing crewed aircraft — a record that has stood for nearly half a century.
Combat · 1991

The Speicher mystery

The 1991 loss of Scott Speicher’s F/A-18 was blamed for years on a SAM, then on a MiG-25.

Read the full story
On the first night of Desert Storm, 17 January 1991, Lt Cdr Scott Speicher’s US Navy F/A-18C was shot down over Iraq — the only US fixed-wing air-to-air loss of the war. Early reporting blamed a surface-to-air missile. A declassified 2001 CIA assessment, together with Iraqi accounts, concluded he was most likely downed by an R-40 missile from an Iraqi MiG-25. The attribution is now the leading conclusion, though it was contested for years.
Iraq · 2003

Buried Foxbats

After 2003, coalition forces found Iraqi MiG-25s buried in the desert sand.

Read the full story
One of the strangest images of the 2003 war was of coalition troops digging Iraqi MiG-25s out of the desert. Facing overwhelming air power, Iraq had buried some of its Foxbats in the sand rather than risk them in the air — a literal case of putting the fastest interceptor in the world into the ground to hide it.
Iran–Iraq War

Colonel Rayyan’s tally

Iraq’s leading Foxbat pilot scored multiple kills before being shot down by Iranian F-14s.

Read the full story
Iraq used the MiG-25 aggressively in the Iran–Iraq War as both interceptor and high-speed bomber. Its top Foxbat pilot, Colonel Mohammed Rayyan, was credited with several kills before being shot down and killed by Iranian F-14 Tomcats in 1986. All confirmed air-to-air kills ever scored by the MiG-25 were flown by Iraq.
Legacy

Foxbat to Foxhound

The MiG-25’s limits led directly to the MiG-31 ‘Foxhound.’

Read the full story
The Foxbat’s great weaknesses — no look-down/shoot-down radar, limited manoeuvre, short range — drove the development of the MiG-31 “Foxhound,” a heavily developed derivative with a modern phased-array radar able to track and engage low-flying targets. The MiG-31 still serves today, carrying the Foxbat’s DNA into the 21st century.
The myth

The record that fooled the West

The 1960s ‘Ye-266’ record flights convinced NATO the USSR had a Mach-3 super-fighter.

Read the full story
The world records set under the “Ye-266” cover designation in 1965–67 were real and genuinely impressive — but they were flown by lightened, special aircraft. NATO read them as proof of a fielded Mach-3 super-fighter and built its own aircraft to match. The correction came only when a defecting lieutenant delivered the truth to a Japanese airport in 1976.

Gallery

The Foxbat in pictures

View from a MiG-25 cockpit at the edge of space, showing the curvature of the Earth
Edge of space in a MiGFlug MiG-25 — black sky and the curvature of the Earth, more than 25 km up.Photo: MiGFlug
A Mikoyan-Gurevich MiG-25 Foxbat interceptor in flight
A MiG-25 in flight, gear down — the fastest interceptor ever mass-produced.Photo: Rob Schleiffert · CC BY-SA 2.0
A MiGFlug two-seat MiG-25 taxiing at its Russian base
A MiGFlug MiG-25 taxis out for an Edge of Space flight.Photo: MiGFlug
MiG-25RB Foxbat taking off on afterburner over snowy mountains
A MiG-25RB climbing on full afterburner — two Tumansky R-15 turbojets at work.Photo: Dmitriy Pichugin · GFDL 1.2
Rear view of a MiG-25 Foxbat showing its twin engine nozzles and red star
Twin afterburning turbojets and the red star — the Foxbat from behind.Photo: MiGFlug
MiG-25P Foxbat-A interceptor variant on display
A MiG-25P ‘Foxbat-A’ interceptor — the pure air-defence variant with its huge Smerch radar.Photo: Alan Wilson · CC BY-SA 2.0
A person sitting inside the twin engine nozzles of a MiG-25
Inside the MiG-25’s engines — each exhaust is big enough to climb into.Photo: MiGFlug
MiG-25 Foxbat broadside at the Central Air Force Museum, Monino
The Foxbat’s scale is clear in broadside: enormous wing, twin tails, a jet built around speed.Photo: Clemens Vasters · CC BY 2.0
A MiGFlug customer and pilot standing in front of a two-seat MiG-25
A MiGFlug customer and pilot before boarding the two-seat MiG-25.Photo: MiGFlug
MiG-25PU two-seat trainer variant, side profile
A two-seat MiG-25PU trainer — the variant that checked out Foxbat pilots.Photo: Denis Nosov · CC0
A MiGFlug pilot in flight suit holding a helmet beside a MiG-25
Suited up for the stratosphere in MiGFlug flight gear.Photo: MiGFlug
Close-up of a MiG-25 Foxbat nose and pitot boom on the ramp
The MiG-25’s needle nose and pitot boom on the ramp.Photo: MiGFlug

Watch

The Foxbat in motion

Mustard: This Jet Terrified the West — The MiG-25 Foxbat. A polished documentary on the West’s Foxbat panic, the engineering and the Belenko defection — several million views.


Operations

Where the Foxbat flew


Combat Record

The score that defines it

The MiG-25 rarely dogfought — that was never its job. Its record is written in speed, altitude and a single, famous night kill over Iraq. Every confirmed air-to-air kill in its history was scored by Iraq; its most enduring victories were the ones where it simply outran everything sent to catch it.

37,650 mAbsolute altitude record — still stands (1977)
Mach 3.2Outran Israeli F-4s over the Sinai
1 of 1US fixed-wing air-to-air loss of Desert Storm

Compare the combat record of every military aircraft. Figures as of July 2026.


Questions & Answers

Everything people ask about the MiG-25

Can I fly in a MiG-25?
Not any more — but you once could, with us. From 2004 to 2006, MiGFlug ran its legendary Edge of Space flights in the MiG-25, taking civilian passengers to the edge of space; the highest a MiGFlug customer ever reached was 25.5 km (about 83,600 ft), where the sky turns black and the curvature of the Earth is clearly visible. Those MiG-25 flights are no longer available, but you can still fly in several genuine military jets with MiGFlug today — see migflug.com/flights-prices/.
How fast is the MiG-25?
Its service limit is Mach 2.83 (about 3,000 km/h). It can dash to roughly Mach 3.2, but that over-revs and destroys the engines. That makes it the second-fastest serial-production aircraft ever, behind only the SR-71.
Is the MiG-25 made of titanium?
No. It is about 80% nickel-steel, with only ~9% titanium and ~11% aluminium. The “titanium superjet” was a Western myth, debunked when Belenko’s aircraft was examined in 1976.
Did a MiG-25 ever shoot down a US jet?
Yes. An Iraqi MiG-25 is credited with downing Lt Cdr Scott Speicher’s F/A-18 on 17 January 1991 — the only US fixed-wing air-to-air loss of Desert Storm. The attribution was debated for years but is now the leading conclusion. A MiG-25 also downed a US Predator drone in 2002.
How high can a MiG-25 fly?
Its operational ceiling is around 20,700 m. A special record aircraft zoom-climbed to 37,650 m (123,520 ft) in 1977 — still the record for an air-breathing crewed aircraft.
Why did Viktor Belenko defect?
By his own account — told through John Barron’s book MiG Pilot — out of disillusionment with the Soviet system rather than for money. He received asylum and citizenship in the United States.
What replaced the MiG-25?
The MiG-31 “Foxhound,” a heavily developed derivative with a modern look-down/shoot-down radar. It still serves today.
Is the MiG-25 still in service?
Effectively no. The last operators — Algeria, Syria and Russia — have retired or lost their fleets by the mid-2020s.

Sources & Further Reading

Every fact, checked