US Navy’s UCLASS / CBARS / MQ-XX / MQ-25 Stingray Program

New photos:

Note in particular how the seams of the ailerons are blended - flexible / morphing skin, or just a flexible seal strip?
 

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Dragon029 said:
New photos:

Note in particular how the seams of the ailerons are blended - flexible / morphing skin, or just a flexible seal strip?

Looks like the same things the F-22 and F-35 use.
 
Dragon029 said:
New photos:
[...]
Source at Twitter: https://twitter.com/defense_news/status/973525458317991936
In a few days Ms Valerie Insinna will published an article at Defence News.
Go read James' story, then head to @defense_news in a couple days and read mine. We have different takes! For now enjoy pretty drone photos.
Twitter: https://twitter.com/ValerieInsinna/status/973531239817859072
 
Flyaway said:
I wonder if NG are still cranking out RQ-180s or if not many were built.

There has been nothing to substantiate that any were ever built or that there was ever any such program.
 
quellish said:
Flyaway said:
I wonder if NG are still cranking out RQ-180s or if not many were built.

There has been nothing to substantiate that any were ever built or that there was ever any such program.

Yes there was being as an Air Force senior member actually referred to in a talk some years back.

https://www.secretprojects.co.uk/forum/index.php/topic,20900.msg223807.html#msg223807
 
Flyaway said:
quellish said:
Flyaway said:
I wonder if NG are still cranking out RQ-180s or if not many were built.

There has been nothing to substantiate that any were ever built or that there was ever any such program.

Yes there was being as an Air Force senior member actually referred to in a talk some years back.

https://www.secretprojects.co.uk/forum/index.php/topic,20900.msg223807.html#msg223807

It wasn't in the talk; it was an inference made by the journalist.
The sum total of actual evidence for it is zero.
 
https://www.youtube.com/watch?v=vp_WfB2yKD4
 
Next week we will know more from 'Aviation Leak'.
Enter the Aquarium: On Monday, March 26, @AviationWeek will exclusively reveal @LockheedMartin Skunk Works’ MQ-25 proposal for the @USNavy’s Stingray competition. Rob Weiss: "We're going out strong, we’re going out confident, and we’re playing to win." @SeaAirSpace #SAS2018 Link: https://t.co/X5BBBTNv4P
 

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flanker said:
The others were posted in high res, but here is the missing one in high res too.

Thx for the pic... It seems that part of the nose gear comes from the Super Hornet.
 

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Twitter: https://twitter.com/JamesDrewNews/status/978061920338096133?s=19
 

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http://aviationweek.com/site-files/aviationweek.com/files/uploads/2018/03/skunksting-2lockheedmartin.jpg
 

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BWB type wing-fuselage design with one engine can be noticed. Asymmetric layout of aerial re-fuel tank can be specified.

At the nose, several sensors are located for (possibly) navigation, simple surveillance, or situation awareness while some antennas are located under the fuselage, and fuel tank is located beside of it.

Landing gears are well designed to secure space for additional payload on the wing, however, attachment of additional payload is uncertain. Inlet duct are not severely distorted, usual for stealth aircraft with loss of engine efficiency, to obtain better cruise efficiency with small loss of duct.

Compare to Boeing's design, it looks lack of canted VT and huge fuselage. It looks similar to the company's previous RQ-180 while Boeing made it looks like Tacit Blue (Although Tacit Blue was from NG)
 
Interestingly LM are saying there is no stealth shaping in their design.

https://mobile.twitter.com/JamesDrewNews/status/978232561913737216
 
litzj said:
BWB type wing-fuselage design with one engine can be noticed. Asymmetric layout of aerial re-fuel tank can be specified.

At the nose, several sensors are located for (possibly) navigation, simple surveillance, or situation awareness while some antennas are located under the fuselage, and fuel tank is located beside of it.

Landing gears are well designed to secure space for additional payload on the wing, however, attachment of additional payload is uncertain. Inlet duct are not severely distorted, usual for stealth aircraft with loss of engine efficiency, to obtain better cruise efficiency with small loss of duct.

Compare to Boeing's design, it looks lack of canted VT and huge fuselage. It looks similar to the company's previous RQ-180 while Boeing made it looks like Tacit Blue (Although Tacit Blue was from NG)

According to the Aviation Week article the nose sensors are cameras that allow ground operators (down below the deck, etc) to see the deck (see deck handlers, etc) with a similar or better field of view than a manned platform would have.

For payload the Lockheed design has 2 hardpoints; one for the Cobham AAR pod, another spare for future equipment such as podded radars or other ISR equipment.
 
Dragon029 said:
litzj said:
BWB type wing-fuselage design with one engine can be noticed. Asymmetric layout of aerial re-fuel tank can be specified.

At the nose, several sensors are located for (possibly) navigation, simple surveillance, or situation awareness while some antennas are located under the fuselage, and fuel tank is located beside of it.

Landing gears are well designed to secure space for additional payload on the wing, however, attachment of additional payload is uncertain. Inlet duct are not severely distorted, usual for stealth aircraft with loss of engine efficiency, to obtain better cruise efficiency with small loss of duct.

Compare to Boeing's design, it looks lack of canted VT and huge fuselage. It looks similar to the company's previous RQ-180 while Boeing made it looks like Tacit Blue (Although Tacit Blue was from NG)

According to the Aviation Week article the nose sensors are cameras that allow ground operators (down below the deck, etc) to see the deck (see deck handlers, etc) with a similar or better field of view than a manned platform would have.

For payload the Lockheed design has 2 hardpoints; one for the Cobham AAR pod, another spare for future equipment such as podded radars or other ISR equipment.

In spite of what LM are saying it doesn’t look like it would require much to be changed to a stealthy ISR role.
 
Mr London 24/7 said:
http://aviationweek.com/site-files/aviationweek.com/files/uploads/2018/03/skunksting-2lockheedmartin.jpg

I'm a little bit disappointed, assuming it is a clean sheet design, tailored to the requirements of CBARS...Without stealth requirements I expected a more eye appealing design, with rounded contours/edges in resemblance of the famous Horten H IX.
 
I am beginning to believe that with the Navy having gone back and forth so many times on this Lockheed, and perhaps even Boeing decided to minimize IR&D and invest in modifying their original proposals which were for a multi-mission craft not as skewed towards the Refueling requirement.
 
Flyaway said:
Interestingly LM are saying there is no stealth shaping in their design.

https://mobile.twitter.com/JamesDrewNews/status/978232561913737216

Sounds like BS to me. Who in their right mind designs a planform-aligned flying wing for a tanker mission if they see no benefit to LO.
More likely they started the design well before LO was de-emphasized. Maybe they're omitting the more cosmetic stealth treatments for now, but it's baked in.

Before someone comes out saying that flying wings have great L/D, please keep in mind that for endurance-type missions it's actually CL^3/2 /CD that matters. So being able to fly at high lift coefficient (which requires a tail) is what sizes the airplane.
 
AeroFranz said:
Flyaway said:
Interestingly LM are saying there is no stealth shaping in their design.

https://mobile.twitter.com/JamesDrewNews/status/978232561913737216

Sounds like BS to me. Who in their right mind designs a planform-aligned flying wing for a tanker mission if they see no benefit to LO.
More likely they started the design well before LO was de-emphasized. Maybe they're omitting the more cosmetic stealth treatments for now, but it's baked in.

Before someone comes out saying that flying wings have great L/D, please keep in mind that for endurance-type missions it's actually CL^3/2 /CD that matters. So being able to fly at high lift coefficient (which requires a tail) is what sizes the airplane.

we should remind that it is naval aircraft. Span of aircraft cannot be as long as ground borne aircraft.

some compromise should done for panform design.

anyway endurance is proportional to L/D while range is proportional to L^3/2 /D as you said
 
Granted these are just CGI but it doesn't appear to have a folding wing.
 
sferrin said:
Granted these are just CGI but it doesn't appear to have a folding wing.

I wonder if any of this UAV actually physically exists or is all just vapourware?
 
KqjRG8f.png


kBiAAdH.jpg
 
Flyaway said:
I wonder if any of this UAV actually physically exists or is all just vapourware?

Per the AWST article, these are CGI. Lockheed didn't want to start fabricating a prototype until the requirements were finalized.
 
AeroFranz said:
Flyaway said:
Interestingly LM are saying there is no stealth shaping in their design.

https://mobile.twitter.com/JamesDrewNews/status/978232561913737216

Sounds like BS to me. Who in their right mind designs a planform-aligned flying wing for a tanker mission if they see no benefit to LO.
More likely they started the design well before LO was de-emphasized. Maybe they're omitting the more cosmetic stealth treatments for now, but it's baked in.

It's not really planform edge aligned. The wingtips are clipped on lines that don't seem to align with any other edges, and the strakes alongside the exhaust don't line up either. The inlet is a nice simple semicircle as well, and seems like a straight shot into the engine . If they "de-stealthed" an older design, they did more than just leave off coatings.
 
Got to wonder whether they're just betting that the Navy changes their requirements again. Flying wing configuration just doesn't really make sense otherwise.
 
The other thing flying wings obviously don't have it's a vertical. You are stressing your flight controls quite a bit to achieve comparable handling qualities to a tailed carrier aircraft.
If I were the configurator on this aircraft (which i'm obviously not, so what do i know...), you'd have to have very convincing arguments to make me design a flying wing for this mission absent ANY LO requirement.
My humble opinion is that they started with LO and got rid of all the stuff they could without completely changing the design. Nozzles and inlets are a (comparatively) low hanging fruit. Same with coatings, doors serrated edges. You can do that and not throw away whatever aero database and controls work was already performed. They can certainly gain a lot of internal volume by getting rid of the serpentine duct and exhaust.

TomS made a valid argument about planform alignment. I don't know if you could start with it and then make local adjustments to get better internal arrangement around the fuselage area or lift distribution on the wing...seems like a lot of work.
 
red admiral said:
Got to wonder whether they're just betting that the Navy changes their requirements again. Flying wing configuration just doesn't really make sense otherwise.

Possibly. Not like the US Navy has shown the clearest direction of travel on what they want so far have they?
 
AeroFranz said:
you'd have to have very convincing arguments to make me design a flying wing for this mission absent ANY LO requirement.
A flying wing holds a lot more fuel for the same deck spot than a traditional aircraft of the same spot size. They are also more fuel efficient so that they can use more of their internal fuel for AAR or achieve longer range in the ISR role.
 
SpudmanWP said:
A flying wing holds a lot more fuel for the same deck spot than a traditional aircraft of the same spot size. They are also more fuel efficient so that they can use more of their internal fuel for AAR or achieve longer range in the ISR role.

Folding wings make the first point moot. Big fuselage more volumetricly efficient.

More efficient - not in practice. A nice high aspect ratio wing with high lift devices that you can trim with a tail seems a far better solution.

Now the lack of vertical stabilisers is really interesting. Very surprised they didn't buy their way on given the usual issues with control on approach and take-off
 
Only a small portion of the outer wing folds, so not much fuel capacity is lost.

Any way you slice it, a flying wing is more fuel efficient (more lift, less drag).

Check the X-47B carrier landings.
 
It is a bit counterintuitive at first, but flying wings don't necessarily have higher L/D.
They can't trim high lift coefficients, so they tend to have lower wingloading/wing area to achieve the same takeoff and landing performance as a tailed aircraft.
That's extra skin friction drag that lowers the L/D. They also tend to have lower aspect ratio because of aeroelastic issues stemming from the first bending mode of the wing being close to the pitch/plunge mode of the fuselage. Get those two close together and you're in serious trouble, so typically flying wings are not given as much aspect ratio. To be fair, active controls go some way towards relieving the problem.

If you remove the LO designs, where everything is sacrificed to signature, there are hardly flying wings out there.
 
Actually, less l/D equates less down wash easing refueling OP... Espcially with a probe and drogue configuration ;) *

Otherwise Spudman said it all: bag more fuel for less deck space.

Don't forget also that this is a robot: the thing has to be stacked up for long before being used.

A drawback? Yes: trapping and go around sequence can be challenging with the inherent high drag of split flap system. But we will see what configuration they choose. Probably that other aero trick would be used.
Who knows?
 
https://www.popularmechanics.com/military/aviation/a19600045/lockheed-martin-unveils-mq-25-stingray-tanker-drone-design-for-the-navy/
Thanks generous PopMech team for posting hi-res renderings
 

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