United States Military Aviation

[RISING SUN]

Newly Released Video Shows Then Col. Chuck Yeager Losing Control and Crashing an NF-104A At Edwards AFB in 1963
Fantastic footage released by Edwards Air Force Base History Office shows the famous Dec. 10, 1963 “Zoom Flight” incident depicted in “The Right Stuff”.
It’s December 10th, 1963.

Col. Chuck Yeager, Aerospace Research Pilot School Commander, wearing a full pressure suit, straps in the cockpit of a an NF-104A Starfighter (#56-0762) serving as a low-cost “manned spacecraft transition trainer” for test pilots destined to fly the X-15 at Edwards Air Force Base, California, home of the Air Force’s Aerospace Research Pilot School, later renamed U.S. Air Force Test Pilot School.

The NF-104A is one of three heavily modified Starfighters that has just entered service and reach altitudes of about 125,000 feet. It features a 6,000-pound thrust rocket engine at the base of the vertical tail, nose and wingtips’ reaction control thrusters, a larger vertical tail, increased wingspan, as well as tanks to store the rocket propellants, provision for a full pressure suit, a cockpit hand controller to operate the reaction control thrusters, and modified cockpit instrumentation.

The NF-104A is used to perform “Zoom” flights: a typical flight profile sees a level acceleration to Mach 1.9 at 35,000 feet; the rocket engine ignition and on reaching Mach 2.1, a 50-70 degree climb at 3.5 g. The J79 afterburner would start to be throttled down at approximately 70,000 feet followed shortly after by manual fuel cutoff of the main jet engine itself around 85,000 feet. From that point, the pilot began a parabolic arc to the peak altitude, where he would experience zero “g” (or “weightlessness” for about one minute) and use hydrogen peroxide reaction control to handle the aircraft around the pitch, roll and yaw axis, before descending back into denser air where the main engine could be restarted using the windmill restart technique for recovery using a conventional landing. A standard mission would last about 35 minutes from taxi to touchdown.

Today, Yeager was attempting to reach an altitude record.

The mission goes as planned until the rocket-propelled NF-104A reaches 101,595 feet and goes into an uncontrollable yawing and rolling motion. Yeager tries all what he can to recover the plane that is falling back towards the desert below in a flat spin

At 8,500 feet, he decides to eject from the uncontrollable Starfighter.

During the separation from the ejection seat he’s struck in the face by the rocket nozzle while the combination of the red hot nozzle and oxygen in his helmet produced a flame that burned the left side of his neck and set several parachute cords on fire.

Yeager will be hospitalized for two weeks, but he’s alive.

The whole scene is filmed from the ground and the footage has now been released by Edwards Air Force Base History Office:

It was later determined that the unrecoverable flat spin was caused by the execessive angle of attack that “was not necessarily pilot input but a gyroscopic condition set up by engine rotation after shut-down for the zoom.”

The scene is depicted also in the book (and film of the same name) “The Right Stuff”, although most of the facts surrounding the crash have been changed (BTW, the aircraft in the movie is an F-104G…).

Anyway, you can read about Yeager’s experience, in his own words here.

Back to the NF-104A as we explained in a previous article on this subject, another flight almost ended in disaster on June 15, 1971, when Capt. Howard Thompson experienced a rocket engine explosion while trying to lit it at 35,000 feet and Mach 1,15. Thompson was able to perform a safe lading to Edwards AFB using the normal jet engine. Few months later, in December 1971, the last NF-104A flight was performed: the program was terminated as it had been decided that the aerospace training mission would be carried out by NASA.

The first NF-104A #56-0756 is currently on display at Nevada County Air Park, Grass Valley, California wearing the markings of “56-0751. The second NF-104A #56-0760 is mounted on a pole outside the U.S. Air Force Test Pilot School at Edwards AFB.
Newly Released Video Shows Then Col. Chuck Yeager Losing Control and Crashing an NF-104A At Edwards AFB in 1963

 

[RISING SUN]

Visitors To Area 51 Have To Wear "Foggles" That Severely Limit Vision When Moving About
The incredibly tight security measures at work at the Air Force's clandestine flight test center most commonly referred to as Area 51, a place where the government goes to hide and is literally above the law, are legendary, both in lore and actuality. From its own army of private security contractor "camo dudes" to a pocket fleet of uniquely configured Black Hawk helicopters, maintaining the installation's perimeter integrity is a big undertaking, especially as the locale has grown in prominence within pop culture. But inside the fence, things aren't much more hospitable when it comes to accommodating visitors.

You have probably heard of the blue busses with blacked-out windows that move workers to and from the secretive facility or the requirement for passengers to leave their shades down when flying into and out of Groom Lake on one of the famous 'Janet' airliners that service it and other clandestine locales around America's southwest. Even sci-fi-like hand scanners were a staple at highly secure sites on the Nevada Test And Training Range, and certainly Area 51 too, back in the 1980s. But have you ever heard of "foggles?"

The term refers to goggle-like eyewear that have fogged-out wrap-around lenses and a notch or bifocal-like area at the bottom that allows a wearer to see what is immediately in front of and below them. With the vast majority of the goggle's viewing area frosted over, nothing can be made out at any meaningful distance. They also come in darkly tinted types and a few other formats, such as laboratory-style goggles that have similar modifications. They are basically blinders for humans, but ones that are far more restrictive than those that horses use.

Foggles do have a major aviation crossover, which probably explains their adaptation for security use. Their security role may very well have originated from a momentary burst of off-the-shelf genius by someone working on a clandestine aerospace program. Pilots wear similar if not identical devices for instrument training. Basically, it allows them to see just the instrument cluster so as to get accustomed to not relying on outside visual cues when flying the plane on instruments only. This also provides familiarity with the fact that their own instincts will try to trick them without those external visual cues being present. Other devices exist for this application, from 'hoods' to 'visors,' that do pretty much the same thing, but foggles are a bit less cumbersome than some of the other options that may be better suited to performing instrument upset attitude recovery drills and instrument approaches in the cockpit than walking across an unfamiliar aircraft parking ramp.

These devices are often used when infrequent visitors arrive at the installation. In some cases, foggles are put on while onboard the arriving aircraft or bus and are only taken off once inside a secure windowless building. Then, when moving to a destination on base directly related to the individual's visit, such as a particular hangar where a project is being housed, the foggles go back on. Even inside certain hangar areas, they may be worn to keep contractors visiting one program from seeing a competing one or other unknown proprietary technology nearby, if even just by chance. The same can be said for VIP type visitors that don't have the unique clearances required to work at the base.

It's not clear if more regular workers have to wear the glasses under certain circumstances, as well, but it is likely that certain procedures have come and gone depending on changing operational concerns throughout the base's long and bizarre history. The use of foggles may not even be native to just Area 51, either. Similar measures could be used at other highly sensitive sites under various circumstances, even if they are temporary in nature.

So, even if you do get the aerospace industry's equivalent of Willy Wonka's golden ticket and find yourself in a position to visit Area 51 for business, the chances that you will see anything but exactly what you are supposed to see are slim to none.

But maybe they will let you keep the commemorative foggles!
Visitors To Area 51 Have To Wear "Foggles" That Severely Limit Vision When Moving About

 

[RISING SUN]

https://twitter.com/x/status/1210555042719260673

 

[RISING SUN]

https://twitter.com/x/status/1211480731341320193

 

[RISING SUN]

https://twitter.com/x/status/1211712139242684417

 

[RISING SUN]

https://twitter.com/x/status/1214275216689397760

 

[BMD]

F-16 Downs a Cruise Missile with APKWS - Defense Update:

F-16 Downs a Cruise Missile with APKWS
The test can have implications for homeland defense missions, and combined defense of the Arabian Gulf

By

News Desk
-

Dec 24, 2019
2659

On that mission, the aircraft was loaded with two pods each carrying seven guided rockets, plus four AIM-120 AMRAAM air/air missiles. Photo: TSgt John Raven, US Air Force

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The US Air Force successfully demonstrated the intercept of an aerial target using the AGR-20A Advanced Precision Kill Weapon System (APKWS) laser-guided rocket. The test was carried out by the US Air Force Air Combat Command’s 85 Test and Evaluation Squadron Eglin Air Force Base, Fla., on December 19, 2019, providing a proof of concept for using rockets queued from an F-16 targeting pod as viable munitions to perform cruise missile defense.

The BQM-167 target drone that represented a cruise missile was intercepted over the Gulf of Mexico water range using cueing from the targeting pod carried by the F-16. On that mission, the aircraft was loaded with two pods each carrying seven 2.75″ (70 mm) guided rockets, plus four AIM-120 AMRAAM air/air missiles. The test successfully demonstrated shooting a small drone at low altitudes. A single APKWS was required to down the target.

“The test was unprecedented and will shape the future of how the Air Force executes CMD,” said Col. Ryan Messer, commander, 53d Wing. “This is a prime example of how the 53d Wing is using resources readily available to establish innovative ways that enhance combat capabilities for our combat units.” Moving forward, the method could be used to defeat multiple targets representing a more realistic cruise missile attack. “This proof of concept can have implications for homeland defense missions, Combined Defense of the Arabian Gulf, and beyond,” said Messer.

Originally developed as a low cost, low collateral damage air-to-ground weapon for use in Afghanistan and Iraq, adapting the AGR-20A for counter-air use is momentous. At a cost of $30,000, the AGR-20A is about four percent of the cost of an AIM-120 missile commonly used for cruise missile defense. Due to its limited range, Unlike the AMRAAM that can be fired from a long-range, AGR-20A can be used only at short range and in good weather conditions. However, using Millimeter-Wave seekers could enhance its operability at inclement weather conditions. APKWS-II was developed and is produced by BAE Systems.

Other advantages of the AGR-20A are the bigger loadout (more missiles carried by each aircraft) and the ability to load weapons faster than an AIM-120. In 2016 the rocket has been integrated with F-16 and A-10 and US Marine Corps F/A-18D under an urgent operational need and was deployed in Operation Inherent Resolve (fighting ISIS in Iraq and Syria) since 2017. Other fixed-wing integrations include the Airbus AC-235 (the Jordanian gunship) and Embraer Super Tucano (for Lebanon and Nigeria). The weapon has also been exported to or ordered by a number of Middle Eastern countries including Jordan, Lebanon, Qatar, UAE, and Saudi-Arabia, as well as Nigeria.

 

[BMD]

Showtime: The B-1 Bomber's New Missile Could Sink China Or Russia's Navy
January 14, 2020, 4:57 PM GMT

Key Point: Soon we'll be able to fire these rockets from naval ships as well.

America’s future anti-ship missile has completed another successful test.

The successful test of the Long-Range Anti-Ship Missile (LRASM) were announced on May 23 by Lockheed Martin, the missile’s producer. “In the event over the Sea Range at Point Mugu, California,” Lockheed said in a press release, “a U.S. Air Force B-1B from Dyess Air Force Base, Texas, released the pair of LRASMs. The missiles navigated through all planned waypoints, transitioned to mid-course guidance and flew toward the moving maritime target using inputs from the onboard sensors. The missiles then positively identified the intended target and impacted successfully.”

This was the second time that Lockheed used two LRASM missiles against a single, moving ship. “The success of this second dual-LRASM test event speaks volumes,” David Helsel, the LRASM program director at Lockheed said in the press release. It was the seventh consecutive successful test of the LRASM, the most recent one being in March of this year. The LRASM was first tested against a moving target back in 2013.

LRASM is a DARPA and U.S. Navy-funded program meant to provide the U.S. Navy and Air Force with an offensive anti-surface weapon (OASuW) to counter the growing threats from highly-capable adversaries like Russia and China. The program was begun under DARPA in 2009 and leverages existing technology from the Joint Air-to-Surface Standoff Missile Extended Range (JASSM-ER) program. Its development was fast tracked under the Pentagon’s Better Buying Power 3.0 program, with the expectation that it would serve as a stopgap solution to compensate for the Navy’s aging Harpoon anti-ship missiles.

 

[RISING SUN]

https://twitter.com/x/status/1216771939085225985

 

[BMD]

DARPA’s Gremlins program achieves key developmental milestone

DARPA’s Gremlins program achieves key developmental milestone

Dynetics courtesy photo

The Defense Advanced Research Projects Agency (DARPA) and Dynetics have achieved a significant milestone with the development of the new unique Gremlins air vehicle.

Dynetics announced that the new X-61A Gremlins Air Vehicle (GAV) had successfully performed its maiden flight in November 2019.

The test took place at Dugway Proving Ground near Salt Lake City, Utah. Testing operations involved one captive-carry mission aboard a TBM, Inc. C-130A and an airborne launch and free flight of the X-61A that lasted one hour and 41 minutes. The test objectives included:

• Demonstrating a successful launch of the GAV from the C-130;
• Demonstrating a rate capture, wing deployment, cold engine start, and transition to stable, powered flight;
• Collecting data on GAV subsystem operation and performance;
• Verifying air and ground-based command and control systems, including data link performance and handovers between air and ground control;
• Deploying the GAV docking arm;
• Demonstrating the flight termination and ground (parachute) recovery of the GAV (demonstration system only – not part of the operational system).

The X-61A flew as predicted with no anomalies, achieving all test objectives that relate to the operational system. At the end of the mission, the engine was shut down and a drogue chute successfully deployed to terminate flight. Unfortunately, the vehicle was lost during the ground recovery sequence due to a failure to extract the main chute.

Managed out of DARPA’s Tactical Technology Office (TTO), the overarching goal of Gremlins is to accelerate the ability to perform aerial launch and recovery of volley quantities of low-cost, reusable unmanned aerial systems (UASs). This test is the next step toward the completion of the program’s Phase 3 demonstration objectives, which include a final flight test to demonstrate the ability to recover four GAVs in under 30 minutes.

 

[BMD]

US Navy flies F/A-18F Super Hornet with Infrared Search & Track Block II pod

The US Navy (USN) for the first time in late 2019 flew an F/A-18F Super Hornet carrying an Infrared Search & Track (IRST) Block II pod under the centerline of its undercarriage.

The IRST Block II is in the risk reduction phase of development, says Boeing on 15 January. Flights at Boeing’s facilities in the St. Louis, Missouri area are to be used to collect data on how the hardware is performing.

Source: Boeing

Boeing FA-18F Super Hornet with IRST Block II pod

The IRST pod is part of a larger upgrade package for the F/A-18E/F Super Hornets, called Block III conversion.

Infrared search and track sensors can be used to passively detect other aircraft, including stealth aircraft, by looking for a heat signature coming off a jet’s engines. Also, because the sensor is passive – not emitting any type of radiation – it makes it more difficult for an adversary to detect.

With adversaries of the USA building stealth aircraft that are difficult to detect with radar, such as China’s Chengdu J-20 or Russia’s Sukhoi Su-57, IRST pods are becoming increasingly important to US combat aircraft. When the IRST Block II pod is used by two aircraft at once, it can create a targeting solution for an air-to-air missile, Boeing has said.

“The IRST Block II gives the F/A-18 improved optics and processing power, significantly improving pilot situational awareness of the entire battle space,” says Jennifer Tebo, Boeing director of F/A-18 development.

The IRST Block II pod for the F/A-18 Super Hornet is built by Lockheed Martin.

The F/A-18E/F Super Hornet Block III upgrade programme also includes enhanced networking and communication capabilities, conformal fuel tanks that extend the aircraft’s range by about 120nm (222km), a cockpit with a 21in touchscreen display, and a more powerful mission computer.

Boeing expects the IRST Block II pod to be delivered to the USN in 2021. It should reach Initial Operational Capability soon after the service receives it, the company says.

 

[Picdelamirand-oil]

Dassault F1 Agressor in US

 

[Ginvincible]

https://twitter.com/x/status/1221777951861149699

 

[BMD]

A UFO Or America's Newest Stealth Plane? Iran Just Saw Something Fly By At Mach 10

A UFO Or America's Newest Stealth Plane? Iran Just Saw Something Fly By At Mach 10

The Iranians believed the objects were spy drones belonging to the U.S. Central Intelligence Agency, sent to sniff out Tehran’s suspected atomic weapons program. But they attribute to these alleged unmanned aerial vehicles flight characteristics and capabilities far beyond what any known drone can achieve.

 

[BMD]

AFRL XQ-58A Valkyrie expands flight envelope in fourth test

AFRL XQ-58A Valkyrie expands flight envelope in fourth test
by Staff Writers
Wright-Patterson AFB CO (SPX) Jan 27, 2020

The Air Force Research Laboratory and Kratos Defense and Security Solutions, Inc., completed the successful fourth flight of the XQ-58A Valkyrie demonstrator, a long-range, high subsonic unmanned air vehicle, at Yuma Proving Grounds, Arizona, on Jan. 23, 2020. The vehicle is pictured here during a 2019 flight. (U.S. Air Force photo/2nd Lt. Randolph Abaya, 586 Flight Test Squadron.)

The Air Force Research Laboratory, along with partner Kratos Defense and Security Solutions, Inc., completed the successful fourth flight test of the XQ-58A Valkyrie low-cost unmanned air vehicle demonstrator Jan. 23, 2020, at Yuma Proving Ground, Arizona.

During the test event, the Valkyrie demonstrator's flight successfully met all of the test objectives, and the envelope was expanded beyond prior tests before safely landing in the Arizona dessert. According to AFRL XQ-58A Program Manager Michael Wipperman, flying at higher altitude allowed researchers to gather data in an operational environment more representative of real-world flight conditions.

"Flying at this altitude helped us gather important data such as vehicle response to temperature and vibration, which will prepare us as we move toward our next flight test," said Wipperman.

This test event represents a return-to-flight for the XQ-58A, which experienced a mishap upon landing after a successful 90-minute flight in October 2019. Following a Safety Investigation Board probe into the mishap, Wipperman says the resulting information was outbriefed to the convening authority, and the recommendations were taken and approved to ensure the success of this latest test.

"We're very pleased with the outcome of this fourth flight test," said Wipperman." We were able to show recovery for a successful flight at even higher altitudes. Given that we have overcome these challenges, we have confidence that the aircraft can continue its progression into flying in more representative conditions."

Developed as part of AFRL's Low Cost Attritable Aircraft Technology portfolio, the XQ-58A is designed to be a runway-independent, reusable unmanned air vehicle capable of a broad range of operational missions. The XQ-58A was developed through low cost procurement and is designed to be significantly less expensive to operate than traditional piloted or unpiloted vehicles, while capable of achieving the same critical missions. Taking only 2.5 years from contract award to first flight, it is the first example of a class of unmanned air vehicles developed through this time-saving process, which seeks to break the escalating cost trajectory of tactically relevant aircraft.

A total of five flights are planned for the XQ-58A, with objectives that include evaluating system functionality, aerodynamic performance, and launch and recovery systems. The fifth flight, scheduled for later this year, will be a capability demonstration showcasing the ability of the vehicle to support operational needs.

 

[BMD]

Air Force Finally Releases New Images of Stealthy B-21 Future Bomber

Air Force Finally Releases New Images of Stealthy B-21 Future Bomber

This is an artist rendering of a B-21 Raider concept in a hangar at Dyess Air Force Base, Texas. Dyess AFB is one of the bases expected to host the new airframe. (Courtesy graphic by Northrop Grumman)31 Jan 2020Military.com | By Oriana Pawlyk
New photorealistic renderings of the B-21 Long Range Strike Bomber have officially landed.

The Air Force together with the bomber's manufacturer, Northrop Grumman, published three new concepts of the next-generation bomber, showing the stealth aircraft in various hangars at bomber bases across the U.S.

One shows a concept of the B-21 tucked away in a hangar at Ellsworth Air Force Base, South Dakota, currently a B-1B Lancer base; a second shows the aircraft at Whiteman Air Force Base, Missouri, which currently houses the B-2 Spirit; and a final photo presenting the B-21 at Dyess Air Force Base, Texas, also a B-1 base.

Last year, the service announced the B-21's first operational base would be at Ellsworth and would also host the bomber's first formal training unit. Whiteman and Dyess are expected to receive B-21 Raiders "as they become available," the service said at the time.

Related: With B-1 Aging and B-21 Still Years Out, Air Force May Soon Have No Go-To Bomber

The B-21 is still years away. Officials have said first deliveries should begin in the mid-2020s, but have been careful not to broadcast too many other details in order to protect details about the B-21's technology.

While enthusiasts have compared the squat, sleek profile of the B-21 to the B-2 stealth bomber -- also developed by Northrop -- a specialist for military aviation at the Congressional Research Service was quick to point out one potential difference.

Altering the photo's contrast, "it becomes evident that what looks like the 'beak' is the port leading edge. The nose (as depicted) is not as sharp as B-2," Jeremiah "JJ" Gertler tweeted Friday.

The Air Force plans to buy roughly 100 bombers, but could end up purchasing more depending on the service's needs.

Officials are conveying the program's planned milestones and schedule of events to lawmakers on congressional defense committees, as well as top brass at the Pentagon. In August, Vice Chief of Staff Gen. Stephen "Seve" Wilson said he's counting the days until the bomber's first flight in December 2021.

In 2016, the Air Force announced it would name its next-generation LRS-B the Raider after the service's legendary Doolittle Raiders. The late World War II veteran Richard E. Cole, the last surviving Doolittle Raider, made the announcement that year.

The Air Force awarded Northrop the contract, initially worth $21.4 billion, in 2015. Total costs are expected to exceed $55 billion over the life of the program.

 

[_Anonymous_]

Tyler Rogoway (@Aviation_Intel) Tweeted:
This garbage outlet using my images again without permission as banner shots even though I have complained about it numerous times in the past. These things happen, but chronically? Not so much. And it seems always F-15 related reblogs. I've given up, but you all should know. National Interest on Twitter (

https://twitter.com/x/status/1223387854086098945

)

https://twitter.com/x/status/1223457552727306240

https://twitter.com/x/status/1223462777991450628

THREAD!!

seems to be an international issue @Gautam ; @Ashwin ; @hellbent

 

[Ashwin]

Tyler Rogoway (@Aviation_Intel) Tweeted:
This garbage outlet using my images again without permission as banner shots even though I have complained about it numerous times in the past. These things happen, but chronically? Not so much. And it seems always F-15 related reblogs. I've given up, but you all should know. National Interest on Twitter (

https://twitter.com/x/status/1223387854086098945

)

https://twitter.com/x/status/1223457552727306240

https://twitter.com/x/status/1223462777991450628

THREAD!!

seems to be an international issue @Gautam ; @Ashwin ; @hellbent

how can he call garbage garbage? Why is he being jealous ? Why dont he go to their site and critisise ?

 

[_Anonymous_]

how can he call garbage garbage? Why is he being jealous ? Why dont he go to their site and critisise ?

Good points. You've his Twitter handle. Perhaps, you ought to ask him.

 

[RISING SUN]

https://twitter.com/x/status/1223931076944572418