Sunday, July 21, 2024

RAF/RN: McDonnell Douglas F-4 Phantom II over Malvinas

McDonnell Douglas F-4 Phantom II operational in the United Kingdom

Wikipedia



The first British Phantom (XT595) lands at the McDonnell plant in St Louis, Missouri in 1966.




The United Kingdom operated the McDonnell Douglas F-4 Phantom II as one of its main fighter aircraft from 1968 to 1992. The United Kingdom was the first export customer for the Phantom, which was ordered against the backdrop of political and economic difficulties in around British designs for the roles he eventually took on. The Phantom was acquired to serve with both the Royal Navy's Fleet Air Arm (FAA) and the Royal Air Force in various roles including air defence, close air support, low-level attack and tactical reconnaissance.

Although assembled in the United States, the UK's first Phantoms were a special batch built separately with a significant amount of British technology as a means of relieving pressure on the domestic aerospace industry in the wake of major project cancellations. Two variants were initially built for the United Kingdom: the F-4K variant was designed from the beginning as an air defense interceptor to be operated by the Fleet Air Arm (FAA) from Royal Navy aircraft carriers, and the F-version 4M was acquired for the RAF to serve. in tactical attack and reconnaissance roles. In the mid-1980s, a third Phantom variant was obtained when 15 second-hand F-4J aircraft were purchased to augment the United Kingdom's air defenses after the Malvinas War.






The Phantom entered service with both the FAA and RAF in 1969. In FAA service, it had a secondary attack role, while in the RAF it was soon replaced in the attack role by other aircraft designed specifically for attack. and close air support. By the mid-1970s the Phantom had become the UK's main interceptor, a role in which it continued until the early 1990s.

Introduction


Hawker Hunter

de Havilland Sea Vixen

In the late 1950s, the British government began the process of replacing its first second-generation jet fighter aircraft in service with the Royal Air Force (RAF) and Fleet Air Arm (FAA). At the time, the British aerospace industry was still the main supplier of aircraft to the British armed forces and designs from several companies were in service. The 1957 Defense White Paper precipitated significant change in the industry when the Government forced major aerospace manufacturers to merge using new aircraft contracts as an incentive. As a result, two large groups emerged; The British Aircraft Corporation was formed by the merger of English Electric, Vickers-Armstrongs, Bristol and Hunting, and Hawker Siddeley was formed by the merger of Hawker Siddeley Aviation, Folland, de Havilland and Blackburn.

At this time, the RAF wished to replace the English Electric Canberra light bomber in the long-range interdictor role, and the Hawker Hunter in the close air support role, while the Royal Navy sought an aircraft to take on the air defense role. of the de Havilland Sea Vixen fleet. BAC, through its subsidiary English Electric, had begun developing a new high-performance attack aircraft, the TSR-2, which was intended for long-range, low-level strike missions with conventional and tactical nuclear weapons, as well as tactical reconnaissance. Hawker Siddeley was also developing the P.1154, a proposed supersonic version of its P.1127 V/STOL demonstrator, which could be marketed to both the RAF and Royal Navy to fulfill a number of roles: close air support, air superiority and fleet. air defense.


Plans for the single-seat RAF and two-seat RN variants of the P.1154.

In the early 1960s, aircraft development became increasingly expensive, causing large projects to often become mired in political and economic concerns. The TSR-2 project experienced increasing cost overruns. The P.1154 was subject to the ongoing inter-service rivalry between the Royal Navy and the RAF, which led to two wildly different specifications being submitted for the aircraft that were impossible to meet with a single airframe.

In February 1964, the Royal Navy withdrew from project P.1154 and moved to acquire a new fleet air defense interceptor. He eventually selected the McDonnell F-4 Phantom, then in service with the United States Navy (USN) as his primary air defense aircraft, intended to be operated from both existing and planned aircraft carriers. This suited the Royal Navy better, as the Phantom had two engines (providing redundancy in the event of engine failure), was cheaper than the P.1154, and was readily available. In October of the same year, a general election returned the Labor Party to power. The new government carried out a defense review, which led to the publication in February 1966 of a white paper that canceled several projects, including P.1154 and TSR-2. As a consequence, the government had to find alternatives to replace Canberra and Hunter with the RAF. To replace the Canberra in the long-range role (which was intended for the TSR-2), the F-111 was selected, with plans for a redesigned variant, while the roles assumed by the Hunter (for which P.1154 was acquired) would be carried out through an additional purchase of F-4 Phantom.

The Royal Navy was pleased with the choice of the aircraft as its Sea Vixen replacement, given that the type had been operational in the fleet air defense role with the USN since 1961. The US aircraft had also performed touch-and-landing -go successfully on both HMS Hermes and HMS Victorious. The RAF was less enthusiastic, as the Phantom was not optimized for the close air support role, and had been selected as its Hunter replacement more as a way to lower the unit cost of the overall UK order.


A trio of British aircraft carriers; Their small size meant that the Phantom would need major modifications to operate from them.

Partly as a means of maintaining employment in the British aerospace industry, an agreement was reached that the bulk of the UK's Phantoms would be built in the country. Hawker Siddeley Aviation was appointed McDonnell's principal UK partner in January 1965, to be responsible for repair, maintenance, design and modification work on Phantoms for the RAF and RN at Brough airfield. Additional work was delegated to both BAC, at its Warton facility, and Short Brothers in Belfast.

The F-4J variant, then the main version in service with the USN, was taken as the basis for the UK aircraft, subject to a major redesign. The most significant change was the use of the larger, more powerful Rolls-Royce Spey turbofan instead of the GE J79 turbojet to allow operations from smaller Royal Navy aircraft carriers. To accommodate the larger engines, BAC redesigned and rebuilt the entire rear fuselage section. The Westinghouse AN/AWG-10 radar carried by the F-4J was to be acquired and built under license by Ferranti as AN/AWG-11 for FAA aircraft and AN/AWG-12 for RAF ones. In total, about half of the UK Phantoms' airframe and equipment were produced by British manufacturers, and all components were sent for assembly by McDonnell in St. Louis. Changes to the aircraft led to the two variants receiving their own separate serial letters, with the FAA version designated as the F-4K and the RAF version as the F-4M.



Initially, there was the intention to acquire up to 400 aircraft for the Royal Navy and RAF, but the development cost of changes to accommodate the new engines meant that the unit price eventually ended up three times the price of an F-4J. Due to government policy, the budget for the acquisition of the Phantom was fixed, therefore these costs could not be offset by large production and only 170 were ordered.

Variants



A pre-production F-4K (XT597) from A&AEE

Prototypes

The British government ordered four prototypes (two F-4K and two F-4M), along with a pair of pre-production F-4K aircraft. The first UK Phantom, an F-4K prototype (designated YF-4K), first flew on June 27, 1966 at the McDonnell plant in St. Louis. The second made its first flight on August 30, 1966. The two pre-production F-4K aircraft were built alongside the prototypes and were initially used for fit testing of the various systems that would be installed. The first was used for catapult/lightning rod and deck landing tests, and the second was primarily for testing the radar and missile systems. All four were delivered to the United Kingdom from 1969 to 1970 for ongoing test work by the Aircraft and Armament Experimental Establishment (A&AEE), the MoD Acquisition Executive, Rolls-Royce and BAC (and later its successor , British Aerospace). The first F-4M prototype (designated YF-4M) first flew on 17 February 1967 and was also used for tuning checks prior to delivery to the United Kingdom.

F-4K Phantom FG.1

Royal Navy

In 1964, the FAA Phantom was ordered to serve as the Royal Navy's main fleet air defense aircraft, with a secondary attack capability. These aircraft were intended to operate from the decks of four aircraft carriers; Eagle and Ark Royal, which would be rebuilt to allow aircraft operation, and two new ships planned.


Un Phantom of 892 NAS on HMS Ark Royal in 1972. The tail fin symbol Omega (O) referenced the perception that 892 NAS would be the FAA's last carrier-based fixed-wing squadron.

British Fleet in the 1960s
Ship Displacement Length Beam Nr. aircraft Notes
Ark Royal 54,000 tn 244.9 m 52 m 50

Eagle 55,000 tn 247.3 m 52 m 45 Major reconstruction in 1959–64
Victorious 36,100 tn 238 m 48 m 36 Major reconstruction in 1950–58 to allow operation of modern aircraft
Hermes 29,200 tn 227 m 44.0 m 28

Centaur 27,000 tn 225 m 37 m 26 Primarily used during the absence of other ships due to reconstruction




A US Navy Phantom performs a touch landing aboard HMS Hermes. Only the Eagle and Ark Royal were large enough to operate the Phantom successfully.


The heat from the Spey's afterburners required the installation of special water-cooled jet blast deflectors aboard Ark Royal to prevent major damage to the flight deck.

Requirements for the planned four-carrier force meant that five squadrons of Phantoms would be needed. However, in its 1966 Defense White Paper, the Government decided to cancel the two new carriers, leading to a reduction in the total order from 140 to just 48, with options for a further seven. The intention was to form a pair of frontline squadrons, each of twelve aircraft, which would operate from the remaining two heavily modernized aircraft carriers. The remaining 24 aircraft would be used to form a training unit and to provide a reserve group in case of aircraft losses.

The Royal Navy received its first F-4K Phantoms, carrying the British designation FG.1, in April 1968. They were assigned to 700P Naval Air Squadron (NAS), which would serve as the Intensive Flight Test Unit. Upon completion of successful flight tests, Naval Air Squadron 767 was commissioned in January 1969 as an FAA training squadron. This was followed in late March 1969 by 892 Naval Air Squadron, which was commissioned as the Royal Navy's first operational Phantom unit. During the initial work of 892 NAS, three of its aircraft took part in the Daily Mail Trans-Atlantic Air Race, a competition to commemorate the 50th anniversary of the first transatlantic flight. One plane set a record of four hours and 46 minutes for the west-to-east crossing between Floyd Bennett Field in New York City and Wisley Airfield outside London, a record that stood for five years.

At the same time as the FAA was receiving its first aircraft, the A&AEE sent three FG.1s to its 'C' Squadron for flight deck testing aboard Eagle. Two series of trials were successfully carried out in March and June 1969; the first comprised touch-and-go approaches and landings, while the second group of trials involved full catapult launch and arrested recovery. As a result of the Spey turbofans overheating, the ship's jet blast deflectors (JBD) were not used; Instead, a steel plate was attached to the deck to absorb heat from the engines being built for launch, and fire hoses were used after each launch to prevent them from melting.

The Ark Royal had been refitted to accommodate the Phantom in 1967; This involved a major rebuild, which included several elements to allow the ship to operate the aircraft: the flight deck area was increased and fully tilted to 8½°, the arresting mechanism was replaced with a new water spray system to accommodate the Phantom's increased weight and landing speed, and water-cooled flange receivers [iv] and JBD [v] were installed on the catapults. Once this work was completed, Eagle was scheduled to undergo a similar modernization. However, the planned phasing out of fixed-wing aviation in the Royal Navy led to the cancellation of the planned refit of the Eagle, and options for seven additional FG.1s were not taken up. As a result, it was decided to further reduce the FAA's Phantom fleet to just 28 aircraft.



In 1970, Ark Royal embarked 892 NAS as part of its air group for the first time, totaling 12 aircraft. The first operational use of Royal Navy Phantoms came in 1969, when 892 NAS embarked for training with the American aircraft carrier USS Saratoga in the Mediterranean and undertook air defense missions alongside the ship's own F-4Js. This deployment showed the need for the modifications installed on Ark Royal. During the initial Saratoga launches, the heat from the afterburners, combined with the increased angle of attack resulting from the extendable nose wheel, caused the deck plates to warp, causing subsequent catapult launches to be carried out. out with a reduced weight without the use of reheating.

During Ark Royal's first three-year commission, 892 NAS, which had initially used RNAS Yeovilton in Somerset as its base of operations, moved to RAF Leuchars in Fife where, during non-embarked periods, it undertook War Alert. Rapid Reaction (QRA). duties alongside 43 Squadron RAF. At the same time, 767 NAS was disbanded as a Royal Navy Phantom training unit; the squadron had been the joint training unit for the FAA and RAF in the use of the FG.1. In its place, an RAF-operated Phantom training flight was established at RAF Leuchars in August 1972.

The Phantom served with the FAA until 1978, when the Ark Royal was withdrawn from service, leaving no ships in the Royal Navy capable of operating the type. The final catapult launch from Ark Royal was a Phantom of 892 NAS on 27 November 1978 during the air group landing; The squadron's aircraft were delivered to RAF St Athan in Wales, where they were handed over to the RAF. During the type's service with the Royal Navy, 10 of the FAA's total fleet of 28 were lost in accidents.

Royal Air Force


Lightning F.6


Phantom FG.1

The Phantom had significant advantages over the Lightning as an interceptor in terms of range, avionics and weapons fit.

Following the cancellation of the planned refit of HMS Eagle to allow it to operate the Phantom, a total of 20 airframes that had originally been ordered for the FAA were diverted to the RAF to serve in the air defense role. At the time, the RAF's primary interceptor was the English Electric Lightning, which had relatively poor range, idle time and weapons tuning. These limitations hampered its effectiveness, especially in prolonged interceptions of Soviet Air Forces and Soviet Naval Aviation bombers and reconnaissance aircraft over the North Sea and North Atlantic. A new Phantom squadron was formed at RAF Leuchars, the UK's northernmost air defense base at the time, to take advantage of the improvements the Phantom provided over the Lightning: it could carry more fuel and consequently had better range and endurance. ; It was equipped with a more powerful radar; and could carry more missiles (up to 8, compared to 2 for the Lightning). On 1 September 1969, 43 Squadron was formed at Leuchars, operating as part of the UK's northern QRA zone alongside the Lightnings of 11 Squadron and 23 Squadron. In 1972, when 11 Squadron was reassigned to joining 5 Squadron at RAF Binbrook, it was replaced at Leuchars by the Royal Navy Phantoms of 892 NAS.

Following the withdrawal of HMS Ark Royal in 1978, the FAA Phantoms were handed over to the RAF and used to form a second squadron at Leuchars. At the time, 111 Squadron was stationed there operating the FGR.2 version of the Phantom, having been there since 1975. In 1979, to save costs resulting from the differences between the FG.1 and the FGR.2, the squadron became The ex-Navy aircraft and FGR.2 fuselages were distributed to other Phantom units. Following the conversion of 111 Squadron to FG.1, Phantom Training Flight, which had resided at Leuchars since 1972, was disbanded and responsibility for all Phantom conversion training passed to 228 Operational Conversion Unit.

Both 43 and 111 Squadrons retained the FG.1 until 1989, when they converted to the new Tornado F.3. Following the withdrawal of the two operational squadrons and the final withdrawal of the type from service, most of the RAF's FG.1 Phantoms were scrapped. The RAF lost eight of its FG.1s in accidents during the type's twenty years of service.

Operators (FG.1)


United Kingdom
Experimental establishment of aircraft and weapons 
Royal Navy 
Naval Air Squadron 700P
767 Naval Air Squadron
892 Naval Air Squadron
Royal Air Force
No. 43 Squadron
No. 64 (R) Squadron
No. 111 Squadron
Phantom training flight

F-4M Phantom FGR.2



A Phantom FGR.2 of 92 Squadron of the Royal Air Force in 1990.

Roles
  • Air defense interceptor
  • Low level attack
  • Close air support
National origin United States
Manufacturer
McDonnell Douglas
First flight
February 17, 1967
Introduction
August 23, 1968
Retired
November 1, 1992
Status retired
Primary User
Royal Air Force
Produced
from 1966 to 1969
Number built
118 (incl. 2 prototypes)
Career
XT852 - XT853 Series
XT891 - XT914
XV393 - XV442
XV460 - XV501
XV520 – XV551 (cancelled)

Close air support

Following the cancellation of the TSR-2 and P.1154 programmes, the RAF was still left with a requirement for aircraft in long-range attack, close air support and reconnaissance roles. This resulted in orders for two types of aircraft, the General Dynamics F-111K, intended for the long-range interdiction role, and the F-4M Phantom, which would be used for close air support; both aircraft were to be equipped for reconnaissance. The F-111K was canceled within a year of being ordered, but the order for 150 Phantoms went ahead along with the Phantom order for the Royal Navy; the final 32 units of the RAF order were eventually cancelled. The RAF Phantom, which received the designation FGR.2, was very similar to the naval version, with some minor variations in terms of engines, avionics and airframe, related to its use as a land-based, rather than ground-based, aircraft. on aircraft carriers.

The first RAF Phantom unit was 228 Operational Conversion Unit, which was raised in August 1968. The Phantom entered operational service as part of Strike Command in May 1969, when 6 Squadron was formed at RAF Coningsby in the tactical attack role. 54 Squadron was formed in September of the same year, followed by 41 Squadron in 1972 as a tactical reconnaissance unit. Four other squadrons were formed under RAF Germany in 1970 and 1971: Squadrons 2, 14, 17 and 31, all at RAF Brüggen.



In addition to their conventional strike role, SACEUR assigned Squadrons 14, 17 and 31 a tactical nuclear strike role, using weapons supplied by the United States. After initial work, 2 Squadron operated from RAF Laarbruch in the tactical reconnaissance role. The aircraft assigned to the two tactical reconnaissance units was equipped with a capsule containing four optical cameras, an infrared line scan, and a side-looking radar. [67]

During the 1970s, France and the United Kingdom were developing a new aircraft that could fulfill the RAF's tactical strike and reconnaissance missions: the SEPECAT Jaguar was introduced into service in 1974 and led to a reconsideration of the Phantom's role as At the same time, over time, the Lightning's limitations as an interceptor were becoming more apparent. The conversion of the RAF's FGR.2 squadrons to operate the Jaguar, combined with the use of the Blackburn Buccaneer, meant that it was possible to begin transferring Phantoms to operate purely as interceptors in the air defense role.

Air defense

In October 1974, 111 Squadron converted from the Lightning to the Phantom FGR.2, becoming the first unit to operate the type in the air defense role (despite 43 Squadron, which had used the FG.1 version since 1969). ). As more Jaguars were delivered, more Phantoms were launched allowing existing Lightning squadrons to be converted; 19 Squadron and 92 Squadron, the air defense units deployed in Germany, converted in 1976 and 1977 respectively, at the same time as they moved from RAF Gütersloh, which was the RAF base closest to the East German border, to RAF Wildenrath, taking advantage of the Phantom's superior range over the Lightning. Three other UK-based squadrons, 23, 29 and 56, were also converted between 1974 and 1976. 111 Squadron, which had been the first unit to use the FGR.2 as an interceptor, was converted to the FG.1 version in 1979 after the transfer of the remaining Royal Navy airframes to the RAF. The Phantom subsequently served as the RAF's primary interceptor for over a decade until the introduction of the Panavia Tornado F.3 into service in 1987.



Initially issued to air defense units in grey-green camouflage (above), the RAF later adopted a pale gray color scheme for its Phantoms (below).

When the Phantoms were first issued to interceptor squadrons, they remained in the gray-green camouflage color scheme most associated with the attack and close air support missions they had undertaken. In the late 1970s the RAF began experimenting with new colors for its air defense units, with 56 Squadron tasked with testing the proposed new schemes. In October 1978, a Phantom FGR.2 of 56 Squadron became the first to be painted in the new air superiority gray colour, combined with small roundabouts and low visibility markings. However, although the roundel remained in low-visibility colors, the individual squadron markings eventually returned to more observable sizes and colors.

In May 1982, three Phantoms from 29 Squadron deployed to RAF Wideawake on Ascension Island to provide air cover for RAF operations during the Falklands War, replacing Harriers from 1 Squadron, which were in transit to the war zone. In October 1982, following the end of the conflict and the reconstruction of the runway, 29 Squadron detached nine of its aircraft to RAF Stanley to provide air defense to the Falkland Islands. In March 1983, 23 Squadron took over, remaining stationed there until October 1988, when they were replaced by 1435 Flight. To compensate for the loss of a full UK Air Defense Region squadron, the RAF acquired 15 ex-USN F-4J Phantoms. These aircraft were operated by 74 Squadron from 1984 until 1991, when they were replaced by FGR.2 Phantoms that had been released by other squadrons following their conversion to the Tornado.

Initially, Phantoms and Tornados were intended to serve side by side. A total of 152 Tornado F.3s were ordered for the RAF, enough to convert four squadrons of Phantoms and two of Lightning, but insufficient to fully convert all air defense squadrons. Squadrons 23 and 29 were converted from the Phantom FGR.2 to the Tornado between 1987 and 1988, along with the conversion of the last two remaining Lightning squadrons. The intention was to retain a pair of UK-based Phantom squadrons at RAF Wattisham, along with a pair of Tornado units at RAF Coningsby to provide air defense cover for the southern half of the UK Air Defense Region. Two other squadrons would also remain stationed in Germany.

However, the end of the Cold War saw the Phantom withdrawn from service according to the Options for Change defense review. This saw the disbandment of Operational Conversion Unit 228 in January 1991, with Phantom Training Flight, which had previously operated FG.1 training between 1972 and 1978, re-established for twelve months to conduct refresher courses on the type. As part of the gradual decline of the RAF presence in Germany, the two forward-based units were to be disbanded, while there would also be a reduction in the number of air defense squadrons leading to the disbandment of the two units. based in the United Kingdom in late 1992.



However, just before the final retirement of the Phantom, it was operationally recalled as a result of Operation Granby, the United Kingdom's involvement in the First Gulf War, when aircraft from 19 and 92 Squadrons to provide air defense cover in the RAF. Akrotiri; this was to replace the Tornados that had originally been deployed there on exercise and were subsequently deployed to the Gulf region. Following its final withdrawal from service, with a few exceptions, most of the RAF's FGR.2 fleet was scrapped. During its service life, 37 FGR.2s were lost in accidents.


Operators (FGR.2)

Royal Air Force

Close air support/tactical strike

  • No. 6 Squadron (attack command)
  • No. 14 Squadron (RAF Germany)
  • No. 17 Squadron (RAF Germany)
  • No. 31 Squadron (RAF Germany)
  • Squadron No. 54 (Attack Command)
  • Tactical reconnaissance
  • No. 2 Squadron (AC) (RAF Germany)
  • No. 41 Squadron (Attack Command)

Air defense

  • No. 19 Squadron (RAF Germany)
  • Squadron No. 23 (Attack Command)
  • No. 29 Squadron (Attack Command)
  • Squadron No. 56 (Attack Command)
  • No. 74 Squadron (Attack Command)
  • No. 92 Squadron (RAF Germany)
  • No. 111 Squadron (Attack Command)
  • Flight No. 1435 (British Forces Falkland Islands)


Training

  • No. 64 (R) Squadron (Operational Conversion Unit)
  • Phantom training flight (training unit)


F-4J (UK) Phantom F.3

F-4J (UK) Phantom F.3

A Phantom F.3 of 74 Squadron of the Royal Air Force in 1984.

Role: Air defense interceptor
National origin: United States
Manufacturer: McDonnell Douglas
First flight: August 10, 1984
Introduction: October 19, 1984
Retired: January 31, 1991
Status: retired
Primary User: Royal Air Force
Produced: in 1984
Number built: 15
Career:
ZE350 Series - ZE364

After the Malvinas War, the United Kingdom government began to improve the defenses of the Malvinas Islands to protect against any further recapture attempts by Argentina. One of the measures taken was the deployment of 9 FGR2s from 29 Squadron to RAF Stanley in October 1982, 23 Squadron took over the aircraft in March 1983. The move of a squadron of Phantoms to the Falkland Islands left a void in the UK air defenses and nothing immediately available to fill it. As a result, the UK government decided to purchase another squadron of Phantoms.

Because the aircraft in RAF service was a special production batch built to UK specifications, it would not be possible to obtain identical aircraft, so 15 airframes were acquired from among the best ex-USN F-4Js stored in Aerospace Maintenance and Regeneration. Center at Davis-Monthan Air Force Base in Arizona. The F-4J was chosen because it was the variant from which the RAF's F-4K and F-4M were developed and was therefore the closest available to the British aircraft. The 15 that were selected were extensively refurbished at the Naval Air Repair Facility at NAS North Island and brought to a nearly equivalent standard to the F-4S, which was the last variant in service with the USN, the only differences being the absence of leaders - edge slats and a helmet gun sight.

The main difference between the F-4J and the British Phantoms was the absence of the Rolls-Royce Spey turbofan, the former equipped with the General Electric J79-10B turbojet. This produced less power than the British engine, but had a faster afterburning light, giving it better performance at high altitude, at the expense of slightly poorer acceleration at low level. High altitude performance was aided by the reduced drag of its smaller air intakes. Initially capable of carrying the AIM-7 Sparrow and AIM-9 Sidewinder air-to-air missiles (AAM), they were soon made compatible with the Skyflash and SUU-23A weapons pod, bringing them in line with the rest of the RAF Phantoms. . . Despite modifications to allow them to operate with the rest of the fleet, the F-4Js retained most of the equipment they were originally equipped with, even requiring their crews to wear American flight helmets.

Although the new Phantoms were assigned a British designation as F.3, they were generally known as F-4J (UK). They were assigned to 74 Squadron at RAF Wattisham, which was raised in October 1984, two months after the first flight. The aircraft remained in service during the transition to the Tornado, which began entering service in 1987. In 1990, thanks to the conversion of F-4M squadrons to the Tornado, the RAF was able to transfer the best of its remaining FGR.2s to 74 Squadron, which meant that the F.3 could be retired in January 1991. With a couple of exceptions, all RAF F-4Js were scrapped. One of the 15 fuselages was lost in a crash in 1987, killing both crew members.

Users (F.3)

Role: Air defense interceptor
National origin: United States
Manufacturer: McDonnell Douglas
First flight: August 10, 1984
Introduction: October 19, 1984
Retired: January 31, 1991
Status: retired
Primary User: Royal Air Force
Produced: in 1984
Number built: 15
Career:
ZE350 Series - ZE364

  •  No. 74 Squadron


Variations

FG.1 y FGR.2



RAF Phantom FG.1 with SUU-23/A gun pod

The Phantom FG.1 and FGR.2, as built, were similar, and were equipped with the same engines and avionics, although there were minor differences. The FG.1 was initially fitted with the Mark 201 version of the Rolls-Royce Spey turbofan, while the FGR.2 had the Mark 202; The Mark 201 had a degree of lag between throttle selection and engine response, which was corrected in the 202. The 201 was eventually upgraded to the Mark 203 version, which had a modified control system for the afterburner, which It allowed it to ignite faster and allow it to be applied quickly in the event of a bolter on the small decks of the Royal Navy aircraft carriers. Both variants were equipped with a license-built version of the Westinghouse AN/AWG-10 avionics package; the FG.1 was equipped with the AN/AWG-11, which differed primarily by having a nose cupola that was hinged and could be folded back against the aircraft's fuselage to allow storage in an aircraft carrier hangar; The system was designed to integrate with both the AGM-12 Bullpup missile and the WE.177 free-fall nuclear weapon as needed. The AN/AWG-12 fitted to the FGR.2 was non-foldable and featured a better ground mapping mode, to take into account the attack role for which the type was originally acquired; Allied to this was a Ferranti inertial attack/navigation system (removed when the type was converted to air defense role). It was also configured to be able to control the SUU-23/A weapons module; The FG.1s used by the RAF could also use the weapons pod, but the Royal Navy's FG.1s lacked this capability.

British Phantoms and other Phantoms


F-4K alongside a US Navy F-4J. This shows the extended nose wheel oil of the British aircraft, fitted to increase take-off attitude for operation on Royal Navy aircraft carriers.

Although there were minor differences between the two types of Phantoms built for the United Kingdom, there were many significant differences between the British Phantoms and those built for the United States. The most obvious was the replacement of the Rolls-Royce Spey turbojet with the General Electric J79 turbojet. The Spey was shorter but wider than the J79, which meant that the intakes of the British Phantoms had to be redesigned for higher airflow, making them 20% larger (with a consequent increase in aerodynamic drag) , while the fuselage was widened by 152 mm. The position of the afterburner also meant that the rear of the fuselage had to be made deeper. Auxiliary intake doors were installed in the rear fuselage.

Performance estimates of the British Phantom compared to its American equivalent indicated that the former had a 30% shorter takeoff distance, 20% faster climb to altitude, higher top speed, and longer range. The Spey was more efficient at lower altitudes and had better low-speed acceleration, giving the British Phantoms better range and acceleration, as demonstrated during the 892 NAS' deployment to the Mediterranean aboard USS Saratoga in 1969, when the F-4K was repeatedly faster on deck than the F-4J used by the Americans. It was less efficient at higher altitudes, the British Phantoms lacking speed compared to the J79-powered versions due to the increased drag of the redesigned fuselage. This discrepancy became apparent when the UK obtained the F-4J in 1984; It was considered the best of the three variants to serve in the RAF.



The small size of the Eagle and Ark Royal aircraft carriers, from which the Royal Navy Phantoms were intended to operate, compared to the USN aircraft carriers of the time, meant that the F-4K version required significant structural changes compared to the F-4J. from which he descended and which played a similar role. In addition to the folding nose radome to allow storage in the smaller hangars of British ships, it had to have significantly reinforced landing gear to account for the increased landing weight (British policy was to bring back unused ammunition ). The F-4J featured a nose wheel oleo that extended 51 centimeters (20 in) to provide the correct position for launch from American catapults. The F-4K's nose wheel oleo was extended by 100 centimeters (40 in) to increase takeoff attitude (the nose wheel extension placed the Phantom in a 9° attitude) due to the shorter British catapults. and less powerful. She was also fitted with droopy ailerons, enlarged leading edge flaps and a slotted tailplane, and an increased flap and leading edge blowout, all to improve the lift and operating handling characteristics of the much smaller aircraft carriers. of the Royal Navy.

As the Phantom continued in service, other changes were made, most notably Marconi's ARI.18228 Radar Warning Receiver (RWR) installed on top of the vertical stabilizer of the Phantom FG.1 and FGR.2. in the mid-1970s, but not for the F.

Comparison of aircraft produced in the UK

FG.1; 100 centimeters (40 in) telescopic nose wheel oil; hinged tip radome; wider and shorter engine exhausts; larger air intakes; deeper rear fuselage; Installing RWR on tailfin



FGR.2; without telescopic nose wheel; fixed nose radome; wider and shorter engine exhausts; larger air intakes; deeper rear fuselage; Installing RWR on the tail wing



F.3; 51-centimeter (20-inch) telescoping nosewheel oleo; fixed nose radome; narrower and longer exhausts; narrower air intakes; shallower rear fuselage; no RWR installation in queue

Aircraft production

The first batch of Phantoms produced for the UK received series in the XT range, with a total of 44 production models (20 FG.1 and 24 FGR.2), as well as the four prototypes and two pre-production models being delivered. XT. serial numbers. Most of the UK's purpose-built Phantoms were delivered with series XV. Hand examples (15 F.3) obtained in 1984 received serial publications in the ZE range.
Phantom Locations

The RAF operated the Phantom from several bases in the United Kingdom, Germany and the Falkland Islands during its operational service, while the Royal Navy initially based its Phantom units at its main air station at Yeovilton; Following the dissolution of the FAA's dedicated training squadron, its only operational Phantom squadron subsequently moved to be based at the RAF base at Leuchars.

Bases used by Royal Navy and Royal Air Force Phantom Squadrons
Base Años usados Number of squads
Phantom UK Bases
RNAS Yeovilton Apr 1968 - Sep 1972 3 × RN squadrons
RAF Leuchars Sep 1969 - Ene 1990 1 × RN squadron
3 × RAF squadrons
1 × RAF flight
RAF Coningsby May 1969 - Abr 1987 5 × RAF squadrons
RAF Wattisham Nov 1975 - Sep 1992 3 × RAF squadrons
1 × RAF flight
Phantom bases in Germany (map shows North Rhine-Westphalia)
RAF Laarbruch Dic 1970 - Feb 1976 1 × RAF squadron
RAF Brüggen Jun 1970 - Jun 1976 3 × RAF squadrons
RAF Wildenrath Dic 1976 - Ene 1992 2 × RAF squadrons
Phantom bases in the Malvinas Islands
RAF Stanley Oct 1982 - May 1985 2 × RAF squadrons
RAF Mount Pleasant Mayo 1985 - Junio 1992 1 × RAF squadron
1 × RAF flight

Other Phantom proposals to the UK

Although the Phantom was ordered in 1966, the variants that were eventually built were not the first to be offered to the UK. McDonnell Aircraft had been conducting studies into the possibility of the Royal Navy using the Phantom on its aircraft carriers since 1959.

Other Spey-powered Phantoms

McDonnell concluded that more power than the J79 turbojet could provide was needed to operate from the smaller decks of the British carriers and, as a result, consulted Rolls-Royce as to whether the RB-168 Spey turbofan, then under development for its use on the Blackburn Buccaneer, could be installed on the aircraft. In 1960, McDonnell approached the RAF with its model number 98CJ, which was an F4H-1 (later F-4B) with various modifications, including the installation of the Spey Mk.101 turbofan. McDonnell continued studies, proposing afterburning Mk.101 engines in 1962, while tests of an F-4B fitted with an extendable nose wheel took place aboard USS Forrestal in 1963. In 1964, the company proposed the model 98FC, which was identical to the F Variant -4D but would have been equipped with the RB.168-25R.

RF-4M

A further proposal came after the F-4M order was finalised, and was a result of the UK's need for an aircraft to perform the tactical reconnaissance role. To do this, McDonnell offered two options:

  • The standard F-4M fitted with a reconnaissance pod in place of the centerline fuel tank
  • A modified fuselage, designated RF-4M, with reconnaissance equipment carried internally

Although the RF-4M would have had some advantages, it was discarded since the cost would have been higher, with the consequent purchase of fewer aircraft, while only those that had been modified would have been able to carry out the reconnaissance mission. Ultimately the RAF chose the standard F-4M and external pod, allowing all of its aircraft to perform all designated functions.

F-4 (HL)

Another McDonnell proposal was a variation of the carrier-based Phantom, aiming to improve catapult performance and reduce approach speeds. The F-4 (HL), also known as the Model 98HL, was planned as a Spey-powered aircraft with a longer fuselage and wingspan, less sweep, stabilizers with larger area, and air intakes with auxiliary doors to increase airflow. air at low speeds. This proposal was not carried forward.



Replacement


McDonnell Douglas proposed a variable geometry version of the Phantom, which was offered as a possible replacement for the Phantom.

In the early 1970s the RAF issued an Air Personnel Requirement for the development of a new interceptor intended to replace both the Phantom and Lightning. One of the first proposals was McDonnell Douglas' plan for a Phantom with a variable geometry wing. This was rejected by the RAF due to the fact that there appeared to be little improvement in performance over the existing Phantom, and that it could affect the development of the "multi-role combat aircraft" (MRCA). An alternative idea was to take the MRCA, which became the Panavia Tornado, and develop an interceptor version. The UK partners in the MRCA project showed no enthusiasm for this air defense version of the Tornado, so only the UK began the process, and authorization for what became known as the Tornado Air Defense Variant (ADV). ) aired in March 1976. The initial plan was for the Tornado to replace the two remaining Lightning squadrons, as well as the seven Phantoms squadrons.

While the Tornado was in development, the RAF considered interim measures to replace the Phantom, which had been in service for over a decade by 1980 and was beginning to suffer from fatigue; one proposal was the leasing or purchase of F-15 Eagles to re-equip the 19th and 92nd Squadrons, the units stationed in Germany. Other suggestions were that up to 80 F-15s be acquired, to replace the Phantom and Lightning squadrons that were in service, or even cancel the Tornado entirely and purchase the F-15 with UK adaptations (specifically for the AI.24 developed the Foxhunter radar for the Tornado and the Skyflash air-to-air missile).



The Phantom was replaced in its air defense roles by the Tornado (above) and the Sea Harrier (below).

Ultimately, the F-15 option was not seriously considered, as it was felt that there would be no time or cost savings over the Tornado ADV. It was later decided that the Tornado, once it entered service, would only re-equip three of the Phantom squadrons; two Phantom units would remain in the United Kingdom and two in Germany. Ultimately, the Tornado replaced the Phantom in four squadrons: the two FG.1 units at RAF Leuchars (43 and 111 Squadrons), plus two FGR.2 units (23 and 29 Squadrons), while 56 and 74 Squadrons, and the two Germany based units (19 and 92 Squadrons) retained the Phantom.

In 1963, the Hawker Siddeley P.1127 short take-off and vertical landing (STOVL) prototype made initial landings aboard the Ark Royal, while three years later the pre-production Hawker Siddeley Kestrel (which later became the Harrier), carried carried out a series of extensive tests of HMS Bulwark, which demonstrated the concept of using vertical landing aircraft aboard aircraft carriers. At the same time, the 1966 Defense White Paper had set out plans to withdraw all conventional aircraft carriers from the Royal Navy, which would end the FAA's operation of fixed-wing aircraft from ships at sea, becoming instead in an organization with rotating wings. Because 892 Naval Air Squadron was believed to be the last carrier-based fixed-wing squadron to be commissioned into the FAA, its Phantoms each had a capital letter Omega (O) on their tail fins, intended to symbolizing its place at the end of the Royal Navy's era of fixed-wing aviation.

However, in the 1970s the Royal Navy was developing what was known as the "Through Deck Cruiser", a 20,000 ton ship with a full-length flight deck intended to embark a squadron of large anti-submarine warfare helicopters. Almost as soon as the first ship, HMS Invincible, was ordered, another specification was added to the design: in addition to the helicopters, a small squadron of STOVL aircraft would form part of the air group to act as a long-range deterrent. reconnaissance aircraft. To this end, a navalized version of the Harrier was developed. During the life of the design process, the Sea Harrier's air defense role was augmented with responsibility for maritime reconnaissance and strike missions. In March 1980, 14 months after 892 Naval Air Squadron was decommissioned and its Phantoms handed over to the RAF, 800 Naval Air Squadron was formed as the first operational Sea Harrier squadron.

Aircraft replaced and replaced by the Phantom

Sir Sydney Camm, Hawker's chief designer for many years, once said that no British aircraft could be considered a success until it was able to match the capabilities of the Phantom. In the RAF and Royal Navy, it was the direct replacement in squadron service for a total of four different aircraft types, comprising nine separate variants. In turn, the Phantom was replaced in squadron service by three different aircraft (see table):

Role Aircraft replaced by the Phantom No of squads Date Aircraft that replaced the Phantom No of squads Date
Fleet air defense
Sea Vixen FAW.2 Uno 1969 Sea Harrier FRS.1 Dos 1980
Tactical reconnaissance
Hunter FR.10 Uno 1970 Jaguar GR.1 Siete 1976
Canberra PR.7 Dos
Close Air Support / Tactical Attack
Canberra B.16 Uno 1969 1974
Canberra B(I).8 Uno 1970
Hunter FGA.9 Dos 1969
Air defense
Lightning F.2A Dos 1977 Tornado F.3 Cuatro 1987
Lightning F.3 Cinco 1974
Lightning F.6


Aircraft on display

Preserved UK Phantoms

F-4K Phantom FG.1 XV582

F-4M Phantom FGR.2 XT914

F-4J (UK) Phantom F.3 ZE359

The following list details aircraft that were displayed after service with the Royal Air Force or Royal Navy. The remaining aircraft were lost in accidents or scrapped after retirement.

YF-4K (prototipo)

XT596 Fleet Air Arm Museum, RNAS Yeovilton, Somerset, Inglaterra. 

F-4K

XT597 Bentwaters Cold War Museum, Woodbridge, Suffolk, England, not in display.
XT864 Ulster Aviation Society, Maze-Long Kesh, Lisburn, Northern Ireland.
XV582 South Wales Aviation Museum, St Athan, Wales.
XV586 RNAS Yeovilton, Somerset, England – stored, not on display.

F-4M

XT891 RAF Coningsby, Lincolnshire, England.
XT889 Kbely Museum, Czech Republic.
Bentwaters Cold War Museum XT905, Woodbridge, Suffolk, England, not on public display.
XT914 Wattisham Airfield, Suffolk, England.
XV401 Bentwaters Cold War Museum, Woodbridge, Suffolk, England.
XV406 Solway Aviation Museum, Carlisle Airport, Cumbria, England.
XV408 Tangmere Military Aviation Museum, West Sussex, England.
XV411 Defense Fire Training and Development Centre, Manston Airport, Kent, England, not on public display.
XV415 RAF Boulmer, Alnwick, Northumberland, England.
XV424 Royal Air Force Museum London, Hendon, London, England.
XV470 RAF Akrotiri, Cyprus - stored and not on public display.
XV474 Imperial War Museum Duxford, Cambridgeshire, England.
XV497 Bentwaters Cold War Museum, Woodbridge, Suffolk, England, England.

F-4J (Reino Unido)
ZE359 American Air Museum, Duxford Airfield, Cambridgeshire, England. Painted with USN markings.
ZE360 Defense Firefighter Training and Development Centre, Manston Airport, Kent, England, not on public display.

Future preservation

In October 2019, the British Phantom Aviation Group announced plans to restore two of the remaining Phantoms that are not on public display, with the aim of finding display locations for them. In association with the 74 Squadron Association, the BPAG obtained ZE360, a Phantom F.3 stored at Manston in Kent, and one of two remaining examples, with the ultimate aim of displaying it in its original RAF markings. The other planned restoration is of XT597, one of two pre-production FG.1 aircraft that were used throughout their career by A&AEE. Once restored, this will be part of the BPAG collection.

Specifications (F-4K)


Royal Navy aircraft data since 1945

General characteristics

Crew: 2
Length: 17.55 m (57 ft 7 in)
Wingspan: 38 ft 4.5 in (11.7 m)
Height: 4.9 m (16 ft 1 in)
Empty weight: 31,000 lb (14,061 kg)
Max. takeoff weight: 56,000 lb (25,402 kg)
Powerplant: 2 × Rolls-Royce Spey 203 low-bypass turbofan, 12,140 lbf dry thrust (54 kN), 20,500 lbf afterburner (91.2 kN) each

Performance

Maximum speed: Mach 1.9 (2,231 km/h (1,386 mph)) at 12,190 m (40,000 ft)
Ferry range: 2,816 km
Service ceiling: 60,000 ft (18,300 m)

Armament

Air defense
4 × AIM-7 Sparrow or Skyflash in the fuselage gaps plus 4 × AIM-9 Sidewinders and 2 × Sparrow/Skyflash in the wing pylons
SUU-23/A weapons pod on center pylon (RAF aircraft only)
Strike
Up to 180 68mm SNEB unguided rockets;
Mix of 500 lb, 750 lb and 1000 lb delayed or free fall bombs
Tactical nuclear weapons B28/B43/B57

Avionics

  • Ferranti AN/AWG-11 multimode radar
  • Marconi ARI18228 Radar Warning Receiver
  • Marconi AN/ASN-39A Computer
  • AN/ARN-91 TACAN distance/bearing navigation system
  • Cossor IFF
  • STR-70P radio altimeter


The F.3 retained a high degree of American equipment and was longer, lighter and faster at altitude. The FG.1 and FGR.2 were virtually identical, with the only significant difference, apart from those already mentioned, being the FGR.2's ability to carry the dedicated reconnaissance capsule built by EMI and containing the following:

  • 2 × F.135 forward-facing camera 
  • 4 × F.95 oblique camera
  • Texas Instruments RS700 Infrared Line Scan
  • MEL/EMI Q-Band Side Look Recognition Radar

Phantoms over Malvinas   


Thursday, July 18, 2024

Beagle Crisis: ORBAT of Chilean Northern Forces

Chilean ORBAT in the North of the Country






By the end of 1978, the Chilean armed forces were organized and prepared for potential conflict due to the tensions with Argentina. In the north of the country, Chile's military deployment included several key operational units across the Army, Navy, and Air Force. Here’s a list of these units based on the available information:

Chilean Army (Ejército de Chile)

The Chilean Army's northern command was responsible for defending the northern regions, which are strategic due to their proximity to Peru and Bolivia.

  1. 1st Army Division (Primera División del Ejército)

    • 1st Armored Brigade (Primera Brigada Blindada)
    • 1st Infantry Brigade (Primera Brigada de Infantería)
    • 1st Artillery Group (Primer Grupo de Artillería)
    • 1st Cavalry Regiment (Regimiento de Caballería Blindada Nº 1 "Granaderos")
    • 1st Engineering Regiment (Regimiento de Ingenieros Nº 1 "Atacama")
    • 1st Communications Battalion (Batallón de Comunicaciones Nº 1)
  2. 2nd Army Division (Segunda División del Ejército)

    • 2nd Infantry Brigade (Segunda Brigada de Infantería)
    • 2nd Armored Brigade (Segunda Brigada Blindada)
    • 2nd Artillery Group (Segundo Grupo de Artillería)
    • 2nd Cavalry Regiment (Regimiento de Caballería Blindada Nº 2 "Cazadores")
    • 2nd Engineering Regiment (Regimiento de Ingenieros Nº 2 "Puente Alto")
    • 2nd Communications Battalion (Batallón de Comunicaciones Nº 2)

Chilean Air Force (Fuerza Aérea de Chile)

The Chilean Air Force had several squadrons and air bases in the northern regions to provide air defense and support.

  1. Air Group No. 7 (Grupo de Aviación Nº 7)

    • Base Aérea Cerro Moreno (Cerro Moreno Air Base), Antofagasta
    • Aircraft: F-5E Tiger II, T-37 Tweet trainers, and A-37 Dragonfly light attack aircraft
  2. Air Group No. 8 (Grupo de Aviación Nº 8)

    • Base Aérea Los Cóndores (Los Cóndores Air Base), Iquique
    • Aircraft: F-5E Tiger II, T-37 Tweet trainers, and A-37 Dragonfly light attack aircraft

Chilean Navy (Armada de Chile)

The Chilean Navy maintained a presence in the northern coastal areas, although its primary focus was on the central and southern regions. Naval assets in the north were mainly for coastal defense and patrol duties.

  1. Fourth Naval Zone (Cuarta Zona Naval)
    • Naval Base Iquique
    • Patrol Boats and Coastal Defense Units
    • Naval Infantry Detachments

Summary

The key operational units of the Chilean armed forces in the north of the country by the end of 1978 included:

  • Army Units: 1st and 2nd Army Divisions with their respective brigades, regiments, and support units.
  • Air Force Units: Air Group No. 7 at Cerro Moreno Air Base and Air Group No. 8 at Los Cóndores Air Base, with aircraft including F-5E Tiger II, T-37 Tweet, and A-37 Dragonfly.
  • Navy Units: Fourth Naval Zone with coastal defense assets and naval infantry detachments.

These units were tasked with defending the northern regions of Chile and ensuring readiness in case of escalation with Argentina or any other regional threat.



Monday, July 15, 2024

UK Conflict Hypotheses on the Malvinas/Antarctica Scenario

UK Conflict Hypotheses on the Malvinas Scenario



The Malvinas/Antarctica scenario is a complex geopolitical theater that involves historical claims, strategic military interests, and potential resource exploitation. The primary conflict hypotheses in this region revolve around the sovereignty disputes over the Malvinas Islands and the broader Antarctic territorial claims, both of which have long been sources of tension between the United Kingdom and Argentina.

The United Kingdom has maintained a robust military presence in the Malvinas to deter potential threats and ensure the defense of the islands. The Royal Air Force (RAF) operates from Mount Pleasant Complex, which is equipped with 4 Eurofighter Typhoon jets for air superiority and aerial defense. These aircraft are supported by aerial refueling tankers and transport planes to ensure long-range operational capabilities. Additionally, the RAF provides radar coverage and intelligence, surveillance, and reconnaissance (ISR) support to maintain situational awareness in the region.

The Royal Navy (RN) also plays a critical role in the defense of the Malvinas and the surrounding maritime areas. The presence of a patrol vessel, often a River-class offshore patrol vessel, ensures constant maritime surveillance and enforcement of sovereignty. The RN's Submarine Service provides an additional layer of deterrence and defense with periodic deployments of nuclear-powered submarines (SSNs) to the South Atlantic. These submarines are capable of conducting covert surveillance and, if necessary, launching precision strikes.

The British Army (BA) maintains a permanent garrison on the Malvinas Islands, composed of an infantry company and supporting elements, including engineers and logistics units. This ground force is responsible for defending key infrastructure and responding to any potential land-based threats. They regularly conduct training exercises to remain prepared for a variety of scenarios, including amphibious assaults and counterinsurgency operations.

In light of a potential Argentine re-armament, the UK military's contingency plans are continually updated to account for new capabilities that Argentina may acquire. The purchase of FREMM frigates would significantly enhance the Argentine Navy's surface combat capabilities, posing a greater threat to British maritime operations. These frigates, equipped with advanced anti-air, anti-surface, and anti-submarine warfare systems, would require the RN to increase its own anti-submarine warfare (ASW) efforts and potentially deploy additional surface assets to counterbalance this threat.



The acquisition of F-16 Falcon fighter jets by Argentina would mark a substantial upgrade in their air force capabilities, challenging the air superiority currently held by the RAF's Eurofighter Typhoons. The UK would likely respond by enhancing its air defense posture, possibly deploying additional Typhoons or considering the integration of advanced air defense systems to ensure continued air dominance.

Argentina's investment in Stryker 8x8 armored vehicles would enhance their ground forces' mobility and combat effectiveness, necessitating a review of the BA's ground defense strategies. The UK may need to bolster its garrison with additional armored units or increase the frequency and scale of joint exercises to ensure readiness against a more capable adversary.

The potential acquisition of a San Giorgio-class landing platform dock (LPD) by Argentina would enhance their amphibious assault capabilities, raising concerns about a possible large-scale landing operation. The RN and BA would need to ensure robust coastal defense measures and maintain rapid response capabilities to counter any amphibious threats.

Lastly, the procurement of new diesel-electric submarines (SSKs) by Argentina would challenge the RN's underwater dominance in the region. These submarines would necessitate increased ASW efforts, possibly including the deployment of additional frigates and maritime patrol aircraft equipped with advanced ASW sensors and weaponry.

The UK prepares for contingencies in the Malvinas/Antarctica scenario through a combination of air, maritime, and ground forces, all coordinated to ensure a comprehensive defense posture. The potential re-armament of Argentina with advanced platforms such as FREMM frigates, F-16 Falcons, Stryker 8x8s, San Giorgio-class LPDs, and new SSKs would significantly alter the strategic balance, prompting the UK to adapt its plans and enhance its military capabilities to maintain a credible deterrence and defense posture in the South Atlantic.

 

The United Kingdom assesses several conflict hypotheses regarding the Malvinas Islands scenario to prepare for potential threats and ensure the defense of the islands. These hypotheses take into account historical tensions, geopolitical interests, and military capabilities. Here are some of the primary conflict hypotheses considered by the UK:

1. Renewed Argentine Claims and Military Action

  • Scenario: Argentina renews its sovereignty claims over the Malvinas Islands and decides to take military action to assert control.
  • Considerations: Historical context of the 1982 Malvinas War, current Argentine military capabilities, political climate in Argentina, and international diplomatic support for either side.

2. Increased Regional Tensions

  • Scenario: Rising tensions in the South Atlantic region involving other South American countries could indirectly affect the Malvinas Islands.
  • Considerations: Alliances and regional politics, the role of regional organizations such as Mercosur, and potential support or opposition from neighboring countries.

3. Economic or Resource-Driven Conflict

  • Scenario: Competition over natural resources, such as fishing rights or potential oil reserves around the Malvinas Islands, leads to conflict.
  • Considerations: Economic interests of both the UK and Argentina, international maritime law, and the involvement of multinational corporations.

4. Cyber and Hybrid Warfare

  • Scenario: Non-traditional forms of conflict, such as cyber attacks, disinformation campaigns, or economic pressure, are used to destabilize the UK's control over the Malvinas Islands.
  • Considerations: The capability of both state and non-state actors to conduct cyber operations, the resilience of critical infrastructure in the Malvinas, and public perception management.

5. International Diplomatic Pressure

  • Scenario: Argentina, with support from other countries, exerts diplomatic pressure on international forums to challenge the UK's sovereignty over the Malvinas Islands.
  • Considerations: The role of the United Nations, the influence of major powers like the US and China, and the potential for international sanctions or resolutions.

6. Internal UK Political and Economic Factors

  • Scenario: Domestic political or economic challenges within the UK impact its ability to project power and maintain a strong defense of the Malvinas Islands.
  • Considerations: Defense budget constraints, political will, public opinion, and the impact of other international commitments.

7. Unforeseen Strategic Developments

  • Scenario: Unexpected changes in the global strategic environment, such as new alliances or conflicts elsewhere, shift the focus and resources of the UK.
  • Considerations: Global geopolitical trends, emerging threats, and the strategic priorities of the UK.

Mitigation and Preparedness

  • Military Presence: Maintaining a robust military presence on the islands, including a garrison, air defense systems, and naval assets.
  • Diplomatic Efforts: Engaging in continuous diplomatic efforts to garner international support for the UK's sovereignty over the Malvinas.
  • Intelligence and Surveillance: Enhancing intelligence and surveillance capabilities to detect and deter potential threats early.
  • Infrastructure Development: Investing in critical infrastructure to support both civilian and military needs on the islands.
  • Alliances and Partnerships: Strengthening alliances, particularly with NATO partners, to ensure a collective security response if necessary.

These conflict hypotheses and their corresponding considerations reflect the UK's comprehensive approach to safeguarding the occupied Malvinas Islands against a range of potential threats.


Esteban McLaren recopilation


Friday, July 12, 2024

Argentine Navy: Sarmiento Squadron


Sarmiento Squadron


The "Sarmiento Squadron" is called a set of river warships incorporated during the presidency of Domingo Faustino Sarmiento with the aim of modernizing the Argentine Navy and providing it with a minimum operational capacity against the naval power of the Brazilian Empire.

Background

The importance of the navy of the Brazilian Empire during the Paraguayan War was a lesson for the Argentine Republic and contributed to awakening naval awareness in some of its main leaders.


Domingo Faustino Sarmiento.

When Domingo Faustino Sarmiento assumed the presidency in 1868, he found a complex international situation and few possibilities for maneuver, limited mainly by the lack of a minimum naval power.
Still in campaign, Sarmiento's Minister of War and Navy, Colonel Martín de Gainza, communicated in his memory the state of the navy, stating "I am sorry to have to fulfill the painful duty of informing VVHH that we absolutely lack a squadron. Some ships in bad condition state and some chiefs and officers, although very worthy, do not constitute a squad.
The Paraguayan war ended but tensions began over the demarcation of boundaries with Brazil, Paraguay and Bolivia. Without armed support, Argentine diplomacy headed by Mariano Adrián Varela Cané faced an idealistic negotiation, acting "evangelically" in the words of Estanislao Zeballos, proposing a resolution of the border issue on an equal footing with the defeated. The "Varela Doctrine", synthesized in the phrase "victory does not give rights to the allied nations to declare for themselves, their limits that the treaty indicated" was rejected by Brazil, adopting an aggressive position, supported by a strong occupation army. and a powerful squadron that even occupied the Argentine island of Cerrito (or Atajo) at the confluence of the Paraguay and Paraná rivers.
Sarmiento, determined to break with the diplomacy of his predecessor Bartolomé Miter in his relations with the countries of the region, characterized by his pro-Brazilian attitude, his indifference towards the Pacific countries and his neglect to ensure military balance in the region1 resolved in August In 1870, Varela was replaced by Carlos Tejedor, who harshly demanded that Brazil respect the clauses stipulated in the Triple Alliance treaty.



However, Brazil agreed with the government of Cirilo Rivarola in separate protocols of December 15, 1870 and January 14, 1871, the willingness to reach an exclusive boundary treaty between Brazil and Paraguay, ignoring the Argentine government in clear violation of article 6 of the treaty of the Triple Alliance of May 1, 1865. Brazil also unilaterally decided its borders with Paraguay and even those of Argentina, since it retained the disputed territories for itself and agreed without permission from Buenos Aires that the Argentine limit did not would pass from Pilcomayo.
On January 9, 1872, by the Cotegipe-Lóizaga treaty, the Empire of Brazil kept a third of Paraguay and maintained the occupation armies for five years. Sarmiento considered that the treaty "...will leave Paraguay a Brazilian province, to which the Banda Oriental will be added by the same means, and that of Entre Ríos and Corrientes will soon follow" and that "in a few years we will be part of the Empire, or such a diminished republic that it is not worth claiming even the name."
The growing and serious conflict caused the Brazilian government to encourage the territorial claims of Bolivia and Chile. Between 1872 and 1873, the Chilean Foreign Minister Adolfo Ibáñez y Gutiérrez maintained, with the acquiescence of Brazil, his claims on the Patagonian territory south of the Río Negro (Argentina) and "on the other side of the Andes, especially at the height of Talca and Chillán."


Photo of Minister Manuel Rafael García Aguirre.

Sarmiento Squadron

The evident need for a navy prompted the Argentine Congress to sanction Law No. 498 of May 27, 1872 (on Naval Armament) which authorized the purchase of "three armored warships of the most advanced system and maars suitable for service in waters." of the Republic". To this end, President Domingo Faustino Sarmiento ordered the immediate transfer of his friend Manuel Rafael García Aguirre (until then head of the Argentine legation in Washington) on commission to London in order to make the purchase of the aforementioned ships and supervise their construction. Despite being completely layman in naval matters, García Aguirre approached the task with the greatest zeal and consulted with two former Confederate officers of the United States Civil War, Captains Thomas Jefferson Page3 and Hunter Davidson.
García Aguirre's commitment to the task was such that he did not hesitate to consult with several officers of the British Admiralty, of whom he informed Sarmiento:
"Those in the artillery department could not have treated me better (...) Read the attached strips about battleships; no large, heavily armored ships. They recommend small ships with large cannons that serve as floating batteries and are easy to move from one point to another."

As a result of the experience gained and thanks to the advice received, García Aguirre signed two contracts that culminated in the acquisition of the Los Andes and El Plata Monitors, four 400-ton bombers (Pilcomayo, Bermejo, Constitución and República) and two gunboats (Paraná and Uruguay) of 600 tons.
Finally, the ships that made up the squadron were:


Monitor Los Andes.

Monitors El Plata and Los Andes, 56.68 m long, 13.40 m wide, 3.35 m deep, an average draft of 3.50 m and 1,677 tons of displacement. They had an iron hull with a bow spur and armor of 160 mm of steel,6 255 mm in the main artillery turret, which was powered by steam.
They carried two steam engines (port and starboard) of 750 HP each, with two propellers that allowed them to maintain a cruising speed of 9.5 knots. It transported 120 tons of coal. The tower was mounted with 2 200-pound Armstrong muzzle-loading cannons, two 47 mm light cannons in a covered barbette and 4 37 mm Hotchkiss rapid-firing cannons. Purchased for £85,000 each at the Cammell Laird shipyard in Birkenhead, England, they were incorporated in 1875 under the command of Bartolomé Cordero and Ceferino Ramírez respectively.

 
Gunship Paraná.


Gunship ARA Uruguay in 1874.

 
Gunship Pilcomayo (or its twin Bermejo)

Paraná and Uruguay gunboats, 46.36 m long, 7.63 m wide, 5.40 m deep, with an average draft of 3.5 m and a displacement of 550 tons, with sails (corvette rig) and a 475 HP steam engine, which moved a propeller that allowed them to reach a cruising speed of 10 knots and a maximum of 11. They transported 90 tons of coal that allowed them a range of 1,500 miles. The iron hull was completely lined with teak wood. They mounted 4 7" Vavasseur cannons on iron carriages, one in front of the funnel, one behind and the rest on each side. Acquired for £32,000 each at the Cammell Laird shipyards, they were incorporated into the squadron in 1874 under the command of Ceferino Ramírez and Erasmo Obligado respectively.
Constitution and Republic bombards, modified Rendell class, with 32.33 m in length, 9.19 in beam, 4.50 in depth, 3.20 in medium draft and a displacement of 416 tons.
Mixed ships, with iron hulls, had a single mast rig and used a 400 HP steam engine that drove two twin propellers reaching a cruising speed of 9 knots. They transported 45 tons of coal. They mounted a 240 mm muzzle-loading Armstrong cannon, mounted on a fixed gun carriage on the bow, so it could only fire along the keel line and had to be aimed with rudder strokes. They carried two 80 mm light guns on deck, one on each side. Purchased for £13,678 each at the Cammell Laird shipyard, they joined the squadron in 1876 under the command of Juan Cabassa and Daniel de Solier respectively.
Bombards Pilcomayo and Bermejo, similar to the previous ones, with small differences (a smaller draft, they transported 62 tons of coal that ensured greater autonomy, deck modifications) were incorporated in 1875 under the command of Jorge Hobson Lowry and Francisco de la Cruz, respectively. Both were built at the Rennie&Co shipyard, Greenwich, England (subcontracted by Cammell Laird).
Steam Workshop and Depot for torpedoes and mines Fulminante, with 55 m in length, 9 in beam, 5 in depth, an average draft of 2.28 and a displacement of 620 tons. A mixed vessel, it had a two-masted schooner rig and a Compound-type steam engine with a propeller that reached a speed of 10 knots. It carried 80 tons of coal as fuel. It joined in 1875, remaining stationary under the command of Hunter Davidson. A flotilla of 4 torpedo boats was also incorporated, 2 of them assigned to the Fulminante, the first of the Argentine Navy. The torpedoes were bronze loaded with 65 pounds of dynamite. They were called "boalón" because for use they were placed on the tip of an 8-meter-long iron boom.
Steamers Notices Resguardo and Vigilante, 30 m long, 5.5 m wide, 3.0 m deep, with an average draft of 1.20 m and 100 tons of displacement, carried two 92 HP steam engines that drove two propellers reaching a speed of 7 knots. It transported 16 tons of coal that gave it an autonomy of 6 days. Mixed vessel, it was rigged as a 2-masted paileboat. His helmet was made of iron and he had a strong wooden belt for defense. It mounted a 6-inch Armstrong gun. Acquired for £5,000 from Cammell Laird, they joined the Port Captaincy under the command of the pilot Cándido Chaneton and the pilot Juan Rubaclo, respectively.

 
Armed Transport Steamer Pampa.

Armed transport steamer Pampa, (former Parminghan), acquired in 1870 from Miguel Soler & Cía for $f 50,000.
With a length of 69.44 m, a beam of 7.44, a depth of 3.41, an average draft of 2.00 m and a displacement of 409 tons, it had a mild steel hull, two-masted paileboat rigging, a steam engine of 260 HP with 2 cylinders and 4 boilers, which drove side wheels reaching a maximum speed of 13 knots and 8 knots cruising. She was initially armed with 2 75 mm Krupp cannons.
Some smaller ships: steamship Sirena, tugboat Puerto de Buenos Aires, transport Santa Fe, whaleboat Guarda Costa, boat Talita and Pontón Vanguardia

Complementary measures

On the other hand, despite protests from Brazil, Sarmiento decided to heavily artillery Martín García Island with heavy Rodman coastal cannons that, although they were already outdated (muzzle-loading and smoothbore), due to their high caliber (381 mm, 500 pounds). They were capable of damaging the armor of Imperial monitors and covering the access channels to the interior rivers.
For the purposes of establishing logistical bases and workshops for the ships that were purchased, in October 1873 he obtained funds from Congress for the construction of an arsenal and marine depot in Zárate, which he created in December of that year.
Finally, Sarmiento created the Naval School on October 5, 1872, which initially operated aboard the steamship General Brown under the command of Sergeant Major Clodomiro Urtubey, and which in the first stage was maintained until its dissolution in 1877 as a result of the "rebellion of the capes", being reorganized shortly after in the corvette Uruguay in charge of Martín Guerrico.



All these measures contributed to stopping the estuary from being visited by foreign squadrons in a permanent attitude of pressure and probably facilitated the resolution of the boundary issue in 1875.
However, although the units acquired represented the best that the mixed technology of the time (sail and steam) could offer and even when they operated both in Argentine rivers and on the high seas, even in Antarctic waters, they were in all cases vessels rivers.
On the other hand, the incorporation of the main ships, the monitors, immediately caused Brazil to acquire two more monitors to its squadron, the Javary and the Solimões of 3700 tons, 4 cannons of 250 mm and 2 of 37, incorporated in 1875, while Chile added the Cochrane and the Blanco Encalada, of 4,500 tons, 13 knots and 4 9-inch guns, which would soon be decisive in the war with Peru and Bolivia. Thus, the improvement in the relationship of forces in a short time was again uneven, which would be revealed in 1878 on the occasion of the Py Expedition.

References

1. Gustavo Ferrari, Argentina and its neighbors, in Argentina from the Eighties to the Centennial, Buenos Aires, Sudamericana, 1980, page 671.
2. Manuel Gálvez, Life of Sarmiento.
3. (1808-1902) He was linked to the country before his participation in the Civil War through his exploration trips to the Bermejo and Salado rivers. He actively collaborated in the design and construction of the Los Andes and El Plata monitors
4. Ratto, Héctor: "The first naval commissions abroad", Bulletin of the Naval Center, Volume 58, year page 19.
5. Captain Page once again advised the minister on the construction of which
6. At the height of the belt, a band that surrounds the hull of the boat to protect it.

Bibliography
  • Teodoro Caillet-Bois, Historia Naval Argentina, 1944, Imprenta López, Buenos Aires 
  • Arguindeguy, Pablo E. CL, y Rodríguez, Horacio CL; "Buques de la Armada Argentina 1852-1899 sus comandos y operaciones", Buenos Aires, Instituto Nacional Browniano, 1999. 
  • Héctor Raúl Ratto, José Craviotto, Humberto F. Burzio, Sarmiento y la marina de guerra, Secretaria de Estado de Marina, 1963 
  • Carlos López Urrutia, Historia de la Marina de Chile, Andres Bello, 1969. 
  • Departamento de Estudios Históricos Navales, Historia marítima argentina, Cuántica Editora, 1982.
External links

Wikipedia