F-35 Joint Strike Fighter

asianobserve

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Cyprus Deployment Tested UK F-35 Capabilities

A year after their arrival to home shores, Britain’s Lockheed Martin F-35 operations are gathering pace.

The nine-strong fleet, joined by an additional six aircraft on July 16, were declared operational in January, then deployed overseas and performed their first operational missions over Syria.

The flights over Syria were the culmination of Exercise Lightning Dawn, which saw six of the B-model short-takeoff-and-landing versions of the F-35 sent to RAF Akrotiri in Cyprus, proving the ability to deploy the aircraft to a remote location away from the normal logistics chain.

The UK also sent a deployable operations facility to support the Cyprus mission.

British F-35s flew 16 missions over Syria and Iraq as part of anti-Islamic State group mission.

“Lightning Dawn was a proof of concept,” says Wing Commander John Butcher, who is commanding the Royal Air Force’s 617 Sqdn., the first British front line unit to fly the F-35.

“We were assessing the many elements that support Lightning at range, mission support systems as well as getting spares out to Akrotiri,” he says.

At Akrotiri the F-35s flew a range of air-to-air and air-to-ground exercises, “the whole gambit,” Butcher says, routinely flying four-ship training missions.

Flying from Cyprus, even while their counterparts in the Eurofighter Typhooncommunity were flying live missions, provided a “stable test” environment.

“It’s a little like a science experiment, you know what good looks like,” says Butcher, “If you go where other combat aircraft are operating, you can really do an assessment about how you are performing. . . . It is a stable and known environment for us to go to.”

Among the components being proven was a deployable operations facility, a large secure unit containing the classified computer servers and other systems and equipment to support UK F-35 operations. The facility was flown to Cyprus by four Boeing C-17 airlifters.



The UK now has 15 F-35s based in mainland Britain, following the arrival of aircraft to form a training unit, 207 Sqdn. on July 16. Credit: Sgt. Steve Buckley/Royal Air Force



Butcher says the footprint of F-35 deployments is scalable. In Cyprus the aircraft deployed with a spares pack, but the squadron also leaned on the wider F-35 global support system.

“The [global support] system now works as advertised,” says Butcher. “If we start working NATO operations in the future and you are flying with an F-35 partner, you want that ability to help each other out and keep each other operating.”

As the F-35s returned from Cyprus, two of the British aircraft visited the Italian Air Force’s F-35 base at Amendola, where they flew with F-35s from Italy and the U.S.

During that visit, which used virtually no logistics footprint, one of the aircraft required a spare that was available in Amendola’s base spares pack, and that part was made available in a “few hours,” says Butcher.

Squadron pilots, including Butcher, also flew a joint exercise with U.S. and Israeli F-35s during the deployment, with the F-35’s flying a prebriefed mission against simulated threats. The F-35s came out on top, notes Butcher.

While in Cyprus, the F-35s recorded their highest flying rate since they were moved to the UK, and the squadron flew 50% more missions than originally planned.

“We had cleared out a lot of scheduled maintenance for the first month [of the deployment], so we were able to hit the ground running,” says Butcher. “We had done a lot of research to understand what we needed to do to operate at range, and we are confident we got the formula.”

Once the exercise element of the deployment was complete, the F-35s went on to fly 16 sorties over Syria equipped with Raytheon Paveway IV precision guided bombs and AIM-120 advanced medium-range air-to-air missiles (Amraam) for self-defense, although no ordnance was dropped.

“We were very happy with how [the F-35] performed. . . . The big eyes and ears of the aircraft were wide open,” says Butcher.

“You are not just using a single sensor at a time; the aircraft systems are breaking down the information and delivering it to the pilot in good order,” he adds.

Since returning from Cyprus, the F-35s have begun using the new £550 million ($690 million) Project Anvil facilities built for the F-35 at their main operating base at Marham, England. These include training facilities, a refurbished runway and vertical landing pads. The arrival on July 16 of the additional six aircraft, including the UK’s newest aircraft, its 18th of the type, paves the way for the establishment of the operational conversion unit, 207 Sqdn. on Aug. 1. The first pilot courses are due to commence in September. Three of the 18 are based at Edwards AFB, California.

The arrival of 207 Sqdn.’s aircraft is representative of the growing F-35 presence on British soil.

In February, construction work began on new facilities to support U.S. Air Force F-35s at RAF Lakenheath, which will be home to 54 F-35s operated across two squadrons. The first F-35As will arrive in late 2021 and operate alongside two units flying the F-15E Strike Eagle and another flying the F-15C Eagle. The addition of the two F-35 units will grow Lakenheath’s 49th Fighter Wing by an additional 1,244 personnel, the first of which will begin arriving in early 2021.

Basing the F-35 at Lakenheath is a “great opportunity to reinforce our strategic relationship with the UK and in particular with the Royal Air Force at Marham,” says Gen. Jeffrey Harrigian, commander of the U.S. Air Force in Europe.

“Recent deployments [of the F-35] have reinforced how we are going to operate with our partners here [in Europe],” he tells Aviation Week. “So to be so close to our partners at Marham, we can not only work together from an operational perspective, but garner their lessons and share ours, and really focus on how we best interoperate to achieve the effects we are required to deliver.”

http://m.aviationweek.com/combat-aircraft/cyprus-deployment-tested-uk-f-35-capabilities
 

asianobserve

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The F-35 stealth fighter is getting a very long-range missile that can blind an enemy's air defenses




    • Lockheed Martin was recently awarded a $34.7 million contract to modify the F-35 weapons bay to carry "aft heavy weaponry."
    • The weaponry referenced in the announcement is the Advanced Anti-Radiation Guided Missile — Extended Range (AARGM-ER), which is designed to eliminate enemy radar systems at range (est. to ne in excess of 120 miles), Aviation Week reported.
    • The weapon would potentially give the F-35 the ability to operate in contested areas, such as those defended by Russian and Chinese anti-access area-denial capabilities.
https://www.businessinsider.com/f-35-long-range-missile-to-blind-enemy-air-defenses-2019-7
 

asianobserve

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Japan wants to be an official F-35 partner. The Pentagon plans to say no.

Sources say Japan’s request to join the partnership creates major political headaches for the Pentagon, with fears it would cause new tensions among the international production base for the joint strike fighter and open the door for other customer nations to demand a greater role in future capability development.

https://www.defensenews.com/global/...al-f-35-partner-the-pentagon-plans-to-say-no/
 

asianobserve

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Here’s Everything We Know About The Alleged Israeli Air Force F-35 Air Strike on an Iranian Base in Iraqg



On July 19 and again on Jul. 28, the Israeli Air Force carried out air strikes on Iranian warehouses storing arms and missiles at Camp Ashraf, north-east of Baghdad, in Iraq. What is more, during the first raid, the base was struck by an F-35I Adir stealth jet. This is what Israeli media outlets are reporting after the London-based Arabic newspaper Asharq Al-Awsat broke the news, citing Western diplomats, on Jul. 30.

Little details about the air strikes have been disclosed (none of those have been officially confirmed) so far. For sure the air strikes targeted a base deep inside the Iraqi airspace: some 80 km from the Iranian border. And this represents a sign that Israel has expanded the scope of its anti-Iranian operations in the region. Indeed, “Over the past year, an number of strikes targeting the Iranian Revolutionary Guards and the Lebanese militia Hezbollah in Syria were attributed to Israel,” Haaretz reported. But this is the first time the IAF strikes targets so close to the Iranian border.

Provided the F-35I Adir jets (most probably more than one but we can’t be sure) were really used in one or both the air strikes, it would also be interesting to understant the route they followed and, above all, the support they got: for instance, the distance between Nevatim Air Base and Camp Ashraf is in excess of 1,000 km: aerial refueling would probably be required for the jets, supposedly in “stealth mode” and without external fuel tanks, to reach their targets and safely return home.

It’s not the first time a foreign (Arabic) media outlet reports the involvement of the Adir in missions over Syria, Iraq or Iran.

Last year the news of an alleged Israeli F-35 mission over Iran spread through the social media. According to an “informed source” who talked to Kuwaiti Al-Jarida newspapertwo Adir stealth jets flew undetected over Syria and Iraq and snuck into the Iranian airspace, flying reconnaissance missions over the Iranian cities Bandar Abbas, Esfahan and Shiraz.

This is what I wrote to debunk the claim:

There are many weird things:

First of all the source. Al-Jarida is often used to deliver Israeli propaganda/PSYOPS messages, according to several sources. For instance, here’s how Haaretz commented a previous scoop of the Kuwaiti outlet (again, highlight mine):

“Al-Jarida, which in recent years had broken exclusive stories from Israel, quoted a source in Jerusalem as saying that “there is an American-Israeli agreement” that Soleimani is a “threat to the two countries’ interests in the region.” It is generally assumed in the Arab world that the paper is used as an Israeli platform for conveying messages to other countries in the Middle East.

Then, the Israeli Air Force operates more than seven F-35s (at least 9) and their range (about 2,000 km) does not allow the aircraft in stealth mode (i.e. without external fuel tanks) to fly to Iran, twice, without stopover or aerial refueling.

[…]

And, above all, although the involvement of the F-35 in real missions has been considered “imminent” by some analystssince the Israeli Air Force declared its first F-35 “Adir” operational on Dec. 6, 2017, it’s highly unlikely such a mission, if real, would be leaked.

[…]

There have been a series of unconfirmed rumors that the F-35Is have been used to attack Syrian targets, but there is no confirmation that the jets have flown any combat missions yet. The mission over Iran seems to be just one of these: a bogus claim most probably spread on purpose as part of some sort of PSYOPS aimed at threatening Israel’s enemies.

The main difference today is that the Israeli F-35s have had their “baptism of fire” as officially confirmed by the IAF Chief on May 22, 2018.

Here’s what I’ve written last year, commenting the combat debut of the Adir(most of the commentary still applies to today’s news):

With no more details as to where and how the Adir were committed, it’s hard to make any further analysis. For sure, what can be said is that the IAF has proved once again its ability to pioneer combat testing of new aircraft. Although we don’t know the real stategic value of the missions undertaken by the 5th generation aircraft, it’s clear the Israeli have considered the sorties worth the risk. A risk that has become more real on Feb. 10, 2018, when one F-16I Sufa that had entered the Syrian airspace to strike Iranian targets in response to an Iranian drone that had violated the Israeli airspace (before being shot down by an AH-64 Apache helicopter) was targeted by the Syrian Air Defenses and crashed after a large long-range outdated SA-5 missile (one of 27 fired against the jets), hit the Israeli F-16. In that case, in spite the on board warning system of the F-16I alerted the crew of the incoming threat, the pilot and navigator failed to deploy countermeasures.

Although the IAF determined the loss of the Sufa was caused by a “professional error” many sources suggested that the first downing of an IAF jet to the enemy fire since the First Lebanon War could accelerate the commitment of the stealthy F-35Is for the subsequent missions.

What kind of missions? Hard to say. We can’t but speculate here but unless there was some really critical target to hit in a heavily defended airspace, the F-35s might have been initially involved as part of larger “packages” that included other special mission aircraft and EW (Electronic Warfare) support where the Adir jets would also (or mostly) exploit their ELINT abilities to detect, geolocate and classify enemy‘s systems. In fact, along with its Low Observability feature, the F-35 provides the decision makers high-end electronic intelligence gathering sensors combined with advanced sensor fusion capabilities to create a single integrated picture of the battlefield: in other words, not only can the F-35 conduct an air strike delivering bombs but it can also direct air strikes of other aircraft using standoff weapons. The F-35s are known to be able to carry out a dual role: “combat battlefield coordinators,” collecting, managing and distributing intelligence data while also acting as “kinetic attack platforms,” able to drop their ordnance on the targets and pass targeting data to older 4th Gen. aircraft via Link-16, if needed. More or less the same task considered for the USMC F-35B that have flown this kind of missions in exercises against high-end threats in 2016.

[…]

There have been a series of unconfirmed rumors that the F-35Is have been used to attack Syrian targets, but there is no confirmation that the jets have flown any combat missions yet. The mission over Iran seems to be just one of these: a bogus claim most probably spread on purpose as part of some sort of PSYOPS aimed at threatening Israel’s enemies.

So, the new reports seem to suggest the Israeli F-35s were used in combat for a long range strike not far from the Iranian border. We can’t say much but we can just highlight a couple of things:

  1. the target location would probably require aerial refueling (or external fuel tanks that we don’t know anything about) – even though stand-off weapons were used. The published combat radius of the F-35A is 590NM. The distance (straight line) between Nevatim and the target area is about 520NM. Considered that the route from departure to target is not straight but a path that takes into consideration civilian and military airports, airways, navaids, etc, as well as threats, it safe to say the aircraft, without AAR, with stand off weapons, would still operate at the edge of their combat radius. Possible but unlikely. An AAR (in friendly airspace) is more than likely.
  2. it’s not clear whether one or more F-35I Adir jets were involved
  3. based on the Arabic newspaper report, the type of involvement of the F-35 was probably “kinetic” (meaning that the aircraft dropped bombs) rather than “passive” (as an intelligence gathering platform).
  4. the participation of the F-35s in the air strikes has not been officially acknowledged.
Let’s wait and see if the F-35 participation in the strike is confirmed. Hopefully, more details will emerge in the following days.

https://theaviationist.com/2019/07/...e-f-35-air-strike-on-an-iranian-base-in-iraq/

 

StealthFlanker

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]One criticism – among many – of the Lockheed Martin F-35 Lightning II is that the fighter lacks the range needed to conduct long-range stealth strike missions. While Lockheed Martin has studied adding external fuel tanks to extend the aircraft's range, slinging the bulky hardware under the F-35 would ruin its minimal radar cross section, giving away the stealth fighter's chief advantage.

In place of extra onboard fuel, the US Navy (USN) has boosted the flight endurance of its F-35C variant by using its Boeing F/A-18E/F Super Hornet as a substitute in-flight refuelling tanker. The service is also funding the development of four Boeing MQ-25A Stingray unmanned in-flight refuelling tankers for $805 million

Still, the F-35's range handicap remains particularly dangerous for hypothetical combat operations against mainland China – shorter endurance might mean that air bases, in-flight refuelling tankers and aircraft carriers have to be deployed within the threat envelope of Chinese defences. In addition, it reduces the number of potential bases from which the F-35 can operate effectively.

The F-35A used by the US Air Force (USAF) has an internal fuel tank capacity of 8,280kg (18,300lb) and a range of 1,200nm (2,200km). The USN’s F-35C has an internal fuel tank capacity of 9,000kg and a range of 1,200nm. The US Marine Corps' short take-off and vertical-landing F-35B has a fuel capacity of 6,130kg and the shortest range of the three types, at only 900nm.

The USAF is looking at how the F-35 can do more with its fuel capacity. One important effort is the service's Adaptive Engine Transition Program, which aims to create a novel engine that has not only more power, but also more fuel economy.

Adaptive engines work by varying the volume of air flow that bypasses the turbine core by opening a third stream when flying in cruise mode. This third flow – in addition to core flow and bypass flow – increases the engine's efficiency in producing thrust and also creates a new heat sink within the engine, allowing for further fuel efficiency gains from increased core temperature. The result is an engine that can play the turbofan's efficiency trick of running a large bypass ratio when cruising – while retaining the raw power of a turbojet in other situations.

The concept is not unique to the F-35 programme. As revealed at this summer's Paris air show, Eurofighter Typhoon is researching an enhanced Rolls-Royce EJ200 engine to improve thrust, range and persistence using "adaptive power and cooling techniques".

PERFORMANCE GAIN

The USAF believes adaptive engines could provide 25% improved fuel efficiency, 10% increased thrust, and significantly improved thermal management. GE Aviation and Pratt & Whitney (P&W) were each awarded contracts worth $1 billion in 2016 to develop adaptive engine demonstrators by September 2021. GE Aviation is developing the XA100 demonstrator and P&W the XA101 demonstrator. If the programme is successful, the F-35's P&W F135 engine could be swapped out for one of the new adaptive units in the mid-2020s.

For its part, GE Aviation announced the successful completion of the XA100 detailed design process in February 2019. The company believes the engine could result in a 35% increase in range and a 50% improvement in loiter time. That range improvement applied to the F-35C would add 420nm – taking range for the USN's variant to 1,620nm.

"In the Pacific theatre of operations this is significant, allowing either operations from greater distances or more time to operate at the combat edge," says USAF Major General Larry Stutzriem (retired), now director of research with the Mitchell Institute for Aerospace Studies. "This improvement could also allow F-35s to drop from their tanker support earlier, keeping those extremely vulnerable aircraft further away from adversary defences."

However, a 10% increase in thrust will not be a game-changer for the F-35, he says.

"With respect to improved thrust, there is nothing the F-35 will be enabled to do that it can't do now," says Stutzriem. "That said, many operating features will improve with additional thrust. For example, take-off roll can decrease marginally with additional thrust, and that has positive benefits."

Ultimately, the addition of an adaptive engine could make the stealth fighter more lethal if it extended its range. However, extra range would be unusable if it comes at the cost of the aircraft's mission capability rate, an area where the F-35 already struggles.

Notably, despite several reassurances from Lockheed Martin over the past year, the F-35 will fail to meet an 80% mission capability rate by September 2019, as directed by the US Department of Defense, said defence secretary Mark Esper during his Senate confirmation hearing on 17 July. That 80% mission capability rate goal applies to key combat aircraft, including the F-35, Lockheed Martin F-22, Lockheed Martin F-16 and Boeing F/A-18E/F.

"An important aspect of the adaptive engine design involves reliability and sustainability," says Stutzriem. "The threat environment involving peer competitors demands an increase, not a decrease in overall reliability and availability of engine components."


https://www.flightglobal.com/news/a...s-next-engine-to-reach-for-more-range-459856/
 

asianobserve

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]One criticism – among many – of the Lockheed Martin F-35 Lightning II is that the fighter lacks the range needed to conduct long-range stealth strike missions. While Lockheed Martin has studied adding external fuel tanks to extend the aircraft's range, slinging the bulky hardware under the F-35 would ruin its minimal radar cross section, giving away the stealth fighter's chief advantage.

In place of extra onboard fuel, the US Navy (USN) has boosted the flight endurance of its F-35C variant by using its Boeing F/A-18E/F Super Hornet as a substitute in-flight refuelling tanker. The service is also funding the development of four Boeing MQ-25A Stingray unmanned in-flight refuelling tankers for $805 million

Still, the F-35's range handicap remains particularly dangerous for hypothetical combat operations against mainland China – shorter endurance might mean that air bases, in-flight refuelling tankers and aircraft carriers have to be deployed within the threat envelope of Chinese defences. In addition, it reduces the number of potential bases from which the F-35 can operate effectively.

The F-35A used by the US Air Force (USAF) has an internal fuel tank capacity of 8,280kg (18,300lb) and a range of 1,200nm (2,200km). The USN’s F-35C has an internal fuel tank capacity of 9,000kg and a range of 1,200nm. The US Marine Corps' short take-off and vertical-landing F-35B has a fuel capacity of 6,130kg and the shortest range of the three types, at only 900nm.

The USAF is looking at how the F-35 can do more with its fuel capacity. One important effort is the service's Adaptive Engine Transition Program, which aims to create a novel engine that has not only more power, but also more fuel economy.

Adaptive engines work by varying the volume of air flow that bypasses the turbine core by opening a third stream when flying in cruise mode. This third flow – in addition to core flow and bypass flow – increases the engine's efficiency in producing thrust and also creates a new heat sink within the engine, allowing for further fuel efficiency gains from increased core temperature. The result is an engine that can play the turbofan's efficiency trick of running a large bypass ratio when cruising – while retaining the raw power of a turbojet in other situations.

The concept is not unique to the F-35 programme. As revealed at this summer's Paris air show, Eurofighter Typhoon is researching an enhanced Rolls-Royce EJ200 engine to improve thrust, range and persistence using "adaptive power and cooling techniques".

PERFORMANCE GAIN

The USAF believes adaptive engines could provide 25% improved fuel efficiency, 10% increased thrust, and significantly improved thermal management. GE Aviation and Pratt & Whitney (P&W) were each awarded contracts worth $1 billion in 2016 to develop adaptive engine demonstrators by September 2021. GE Aviation is developing the XA100 demonstrator and P&W the XA101 demonstrator. If the programme is successful, the F-35's P&W F135 engine could be swapped out for one of the new adaptive units in the mid-2020s.

For its part, GE Aviation announced the successful completion of the XA100 detailed design process in February 2019. The company believes the engine could result in a 35% increase in range and a 50% improvement in loiter time. That range improvement applied to the F-35C would add 420nm – taking range for the USN's variant to 1,620nm.

"In the Pacific theatre of operations this is significant, allowing either operations from greater distances or more time to operate at the combat edge," says USAF Major General Larry Stutzriem (retired), now director of research with the Mitchell Institute for Aerospace Studies. "This improvement could also allow F-35s to drop from their tanker support earlier, keeping those extremely vulnerable aircraft further away from adversary defences."

However, a 10% increase in thrust will not be a game-changer for the F-35, he says.

"With respect to improved thrust, there is nothing the F-35 will be enabled to do that it can't do now," says Stutzriem. "That said, many operating features will improve with additional thrust. For example, take-off roll can decrease marginally with additional thrust, and that has positive benefits."

Ultimately, the addition of an adaptive engine could make the stealth fighter more lethal if it extended its range. However, extra range would be unusable if it comes at the cost of the aircraft's mission capability rate, an area where the F-35 already struggles.

Notably, despite several reassurances from Lockheed Martin over the past year, the F-35 will fail to meet an 80% mission capability rate by September 2019, as directed by the US Department of Defense, said defence secretary Mark Esper during his Senate confirmation hearing on 17 July. That 80% mission capability rate goal applies to key combat aircraft, including the F-35, Lockheed Martin F-22, Lockheed Martin F-16 and Boeing F/A-18E/F.

"An important aspect of the adaptive engine design involves reliability and sustainability," says Stutzriem. "The threat environment involving peer competitors demands an increase, not a decrease in overall reliability and availability of engine components."


https://www.flightglobal.com/news/a...s-next-engine-to-reach-for-more-range-459856/

And there is super duper Russia still trying to develop an engine approaching the early 80s tech PW F-119 of the F-22 engines and mid-80s tech in F-135 of the F-35. Meantime, overacting China is still trying to develop a 1970s F-100 class engine. :bplease:
 

asianobserve

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F-35 Track Data Fed To Army Missile Defense System

The U.S. Army and Air Force successfully demonstrated using Lockheed Martin F-35 track data with the Army Integrated Air and Missile Defense (AIAMD) Battle Command System (IBCS) during the Orange Flag exercise in Palmdale, California, and Ft. Bliss, Texas.

This was the first-time live F-35 track data was sent to the IBCS using both the F-35 ground station and the F-35 IBCS adaptation kit, which were both developed by Lockheed Martin, according to a company statement.

“This demonstration represents significant growth in capability for the Army IAMD program and Army for multi-domain operations,” Scott Arnold, vice president and deputy of integrated air and missile defense at Lockheed Martin said in a statement.

This new capability demonstrates AIAMD can gather sensor data from multiple platforms. In 2016, the F-35 and Aegis Combat System demonstrated integration of the F-35 supporting Naval Integrated Fire Control-Counter Air. The F-35 ground station resides at White Sands Missile Range in New Mexico to support AIAMD follow-on developmental testing.

https://aviationweek.com/defense/f-35-track-data-fed-army-missile-defense-system
 

BON PLAN

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]One criticism – among many – of the Lockheed Martin F-35 Lightning II is that the fighter lacks the range needed to conduct long-range stealth strike missions. While Lockheed Martin has studied adding external fuel tanks to extend the aircraft's range, slinging the bulky hardware under the F-35 would ruin its minimal radar cross section, giving away the stealth fighter's chief advantage.

In place of extra onboard fuel, the US Navy (USN) has boosted the flight endurance of its F-35C variant by using its Boeing F/A-18E/F Super Hornet as a substitute in-flight refuelling tanker. The service is also funding the development of four Boeing MQ-25A Stingray unmanned in-flight refuelling tankers for $805 million

Still, the F-35's range handicap remains particularly dangerous for hypothetical combat operations against mainland China – shorter endurance might mean that air bases, in-flight refuelling tankers and aircraft carriers have to be deployed within the threat envelope of Chinese defences. In addition, it reduces the number of potential bases from which the F-35 can operate effectively.

The F-35A used by the US Air Force (USAF) has an internal fuel tank capacity of 8,280kg (18,300lb) and a range of 1,200nm (2,200km). The USN’s F-35C has an internal fuel tank capacity of 9,000kg and a range of 1,200nm. The US Marine Corps' short take-off and vertical-landing F-35B has a fuel capacity of 6,130kg and the shortest range of the three types, at only 900nm.

The USAF is looking at how the F-35 can do more with its fuel capacity. One important effort is the service's Adaptive Engine Transition Program, which aims to create a novel engine that has not only more power, but also more fuel economy.

Adaptive engines work by varying the volume of air flow that bypasses the turbine core by opening a third stream when flying in cruise mode. This third flow – in addition to core flow and bypass flow – increases the engine's efficiency in producing thrust and also creates a new heat sink within the engine, allowing for further fuel efficiency gains from increased core temperature. The result is an engine that can play the turbofan's efficiency trick of running a large bypass ratio when cruising – while retaining the raw power of a turbojet in other situations.

The concept is not unique to the F-35 programme. As revealed at this summer's Paris air show, Eurofighter Typhoon is researching an enhanced Rolls-Royce EJ200 engine to improve thrust, range and persistence using "adaptive power and cooling techniques".

PERFORMANCE GAIN

The USAF believes adaptive engines could provide 25% improved fuel efficiency, 10% increased thrust, and significantly improved thermal management. GE Aviation and Pratt & Whitney (P&W) were each awarded contracts worth $1 billion in 2016 to develop adaptive engine demonstrators by September 2021. GE Aviation is developing the XA100 demonstrator and P&W the XA101 demonstrator. If the programme is successful, the F-35's P&W F135 engine could be swapped out for one of the new adaptive units in the mid-2020s.

For its part, GE Aviation announced the successful completion of the XA100 detailed design process in February 2019. The company believes the engine could result in a 35% increase in range and a 50% improvement in loiter time. That range improvement applied to the F-35C would add 420nm – taking range for the USN's variant to 1,620nm.

"In the Pacific theatre of operations this is significant, allowing either operations from greater distances or more time to operate at the combat edge," says USAF Major General Larry Stutzriem (retired), now director of research with the Mitchell Institute for Aerospace Studies. "This improvement could also allow F-35s to drop from their tanker support earlier, keeping those extremely vulnerable aircraft further away from adversary defences."

However, a 10% increase in thrust will not be a game-changer for the F-35, he says.

"With respect to improved thrust, there is nothing the F-35 will be enabled to do that it can't do now," says Stutzriem. "That said, many operating features will improve with additional thrust. For example, take-off roll can decrease marginally with additional thrust, and that has positive benefits."

Ultimately, the addition of an adaptive engine could make the stealth fighter more lethal if it extended its range. However, extra range would be unusable if it comes at the cost of the aircraft's mission capability rate, an area where the F-35 already struggles.

Notably, despite several reassurances from Lockheed Martin over the past year, the F-35 will fail to meet an 80% mission capability rate by September 2019, as directed by the US Department of Defense, said defence secretary Mark Esper during his Senate confirmation hearing on 17 July. That 80% mission capability rate goal applies to key combat aircraft, including the F-35, Lockheed Martin F-22, Lockheed Martin F-16 and Boeing F/A-18E/F.

"An important aspect of the adaptive engine design involves reliability and sustainability," says Stutzriem. "The threat environment involving peer competitors demands an increase, not a decrease in overall reliability and availability of engine components."


https://www.flightglobal.com/news/a...s-next-engine-to-reach-for-more-range-459856/
Promises, always new promises.
F35 is not FOC 13 years after first pre serial flight.... So one more promise or not will not change the face of a technological disaster.
 

StealthFlanker

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BAE Systems Wins Major F-35 Electronic Warfare Upgrade

Electronic warfare has emerged as the new focus of a larger, multiyear $10 billion makeover of the Lockheed Martin F-35.

Ending a yearlong negotiating process that involved discussions with potential alternative suppliers, Lockheed has selected BAE Systems to deliver a package of upgrades under the Block 4 program to the ASQ-239 electronic warfare/countermeasures subsystem, both companies announced on Aug. 21.

- New upgrade preceded by recent technology insertion
- Block 4 could expand frequency band coverage, add cognitive capability...

...BAE also announced the insertion of a critical new technology into the ASQ-239 to help pave the way for future Block 4 upgrades. In addition to a towed decoy, multiple apertures, and the dispensers and controller for radio-frequency and infrared countermeasures, the ASQ-239 also includes technique generators—called Rack 2A and Rack 2B—to counter electronic threats.

BAE has now inserted the DTIP system into the ASQ-239 to upgrade Racks 2A and 2B. The acronym DTIP is a combination of two other acronyms: DCRTG, for the Digital Channelized Receiver/Techniques Generator, and TIP, for the Tuner Insertion Program. The combination results in a centralized electronic warfare processor that is more powerful, yet smaller. As a result, the DTIP will allow Lockheed to commission BAE to deliver new capabilities under Block 4.

https://aviationweek.com/combat-aircraft/bae-systems-wins-major-f-35-electronic-warfare-upgrade
 

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Marines Considering Flying U.S. F-35Bs Off of Japan’s Largest Warships

Officials in Tokyo have requested Marines deploy F-35B fighters aboard Japan’s largest warships, a U.S. defense official confirmed to USNI News on Friday.

The service is now studying the feasibility of deploying short take-off vertical landing (STOVL) fighters from JS Izumo (DDH-183) and JS Kaga (DDH-184), Japan’s 24,000-ton big deck amphibious.

https://news.usni.org/2019/08/23/ma...ing-u-s-f-35bs-off-of-japans-largest-warships
 

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