Sierra Nevada to supply US Army with intel-gathering jets in $554M deal

On the same subject

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  January 21, 2020 | International, Aerospace

  Le Falcon ne fait plus les affaires de Dassault

  Alors que Dassault Aviation profite à plein de ses contrats à l'export dans le militaire, il fait grise mine dans le civil. Comme prévu, le groupe a livré 26 Rafale en 2019, contre 12 en 2018. Mais il n'a pas atteint son objectif dans le civil, avec seulement 40 avions d'affaires Falcon livrés, contre 41 en 2018, soit cinq appareils de moins qu'attendu. Seule consolation : avec également 40 Falcon commandés l'an dernier, Dassault parvient à stabiliser son carnet de commandes dans le civil (53 appareils). Entre un marché de l'aviation d'affaires chahuté et disputé et l'annulation du Falcon 5X en raison des difficultés rencontrées par Safran sur le moteur Silvercrest, le risque de pertes de parts de marché est bien réel. Mais l'avionneur peut se féliciter de son modèle dual : malgré sa décélération persistante dans le civil, son chiffre d'affaires en 2019 devrait être très supérieur à celui de 2018, à 5,1 milliards d'euros. En outre, Dassault pourrait dévoiler cette année un nouveau Falcon... https://www.usinenouvelle.com/article/le-falcon-ne-fait-plus-les-affaires-de-dassault.N918869

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  May 19, 2020 | International, Aerospace

  Air Force’s Roper: 3D Printing ‘Going Like Gangbusters’

  "I've been so passionate about bringing in additive manufacturing, and small batch digital manufacturing, to help on aircraft parts availability," Air Force acquisition head Will Roper says. By THERESA HITCHENSon May 15, 2020 at 12:54 PM WASHINGTON: The Air and Space Forces are speeding efforts to adopt 3D printing as a major pillar of force sustainment, now making critical spare parts for weapon systems such as engine components for fighters and rockets. “Additive and advanced manufacturing [has] been going like gangbusters across the Air Force and Space Force — printing thousands of parts for airplanes,” Air Force acquisition head Will Roper said yesterday. “We're starting to print parts for satellites, including propulsion.” And today, the Air Force Rapid Sustainability Office (RSO) announced that it had reached a first milestone in its collaboration with General Electric to 3D print metal engine parts for aircraft — printing a metal sump pump for F-110 engines used by both F-15 and F-16 fighter jets. According to the announcement, the next phase of the program — Phase 1B , now being planned — will involve a family of parts on the TF34 engine, which has been in service for more than 40 years. “The collaborative effort between the US Air Force and GE shows great promise toward the adoption of metal 3D printed parts as an option to solve the US Air Force's current and future sustainment challenges,” Col. Benjamin Boehm, director of propulsion at the Air Force Life Cycle Management Center (AFLCMC) said in a press release. “This capability provides an alternate method to source parts for legacy propulsion systems throughout their life cycle, especially when faced with a diminishing supplier base or when infrequent demands or low volume orders are not attractive to traditional manufacturers.” GE originally approached the Air Force with the idea of a collaboration on 3D printed parts in 2019, and in April this year the service brought in the Defense Logistics Agency to help certify the GE-made parts for airworthiness. ALCMC, as we reported way back in September at the Air Force Association shindig, has also been pushing to get its depots around the country certified to print their own spare parts, beginning with those not critical to life and death. Air Force leaders see additive manufacturing as key to resolving the service's serious problems in maintaining aging aircraft and infrastructure and lowering costs. That said, the new 3D sump pump cover is an important piece of the engine. “Compared to other parts on the F110 engine, the sump cover might have lower functionality, but is incredibly important. It needs to be durable, form a seal and it needs to work for the entire engine to function – which is of course critical on a single engine aircraft like the F-16,” said James Bonar, engineering manager at GE Additive. The RSO-GE program is using a spiral development model, increasing the complexity and scale of parts printing with each phase. “In this program, complexity involves moving from simpler part identification, progressing to part and family of parts consolidation and eventually tackling complex components and systems, such as common core heat exchangers,” the press release said. Roper told reporters yesterday in a Zoom briefing that due to the COVID-19 pandemic, RSO has transformed its planned Advanced Manufacturing Olympics, originally planned to coincide with the now-postponed Tokyo Summer Olympics in late July, to a virtual event to be held November. It will allow 3D printing companies to show off their wares to potential service customers via a number of challenges, including a “printer shoot-off” and a “Box of Parts” challenge where manufacturers will compete to create a drone part without a blueprint. “We have been growing our network of small batch makers across the Air Force and Space Force,” Roper said. “I've been so passionate about bringing in additive manufacturing, and small batch digital manufacturing, to help on aircraft parts availability.” The COVID-19 crises has proven the “additive” value of tapping into a network of small manufacturers as the Air Force has scrambled to obtain personal protective equipment for airmen at far-flung bases, he explained. Because many large producers of items like face masks are overwhelmed, the service set up the “Air Force Rapid Advanced Manufacturing Portal,” or “AFRAMP,” as a method of finding and vetting small producers to meet service needs. “It's a portal where small batch manufacturers can make their capabilities known — show what they're able to produce — we vet them, and that then allows these small companies in aggregate to add up to large batch manufacturing,” Roper said. “We've already delivered over 11,000, different PPE devices to seven air bases that wouldn't have otherwise been able to get access for personal protective gear.” His hope is to expand that portal to other types of advanced manufacturing in the future. “I'm excited about scaling it up beyond just personal protective gear, and really having it be a one-stop-shop in the government for companies that can make things in small quantity — that can't mass produce, but can produce in mass if they're added up with a lot of their other sister companies.” https://breakingdefense.com/2020/05/air-forces-roper-3d-printing-going-like-gangbusters/

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  August 25, 2020 | International, Aerospace

  US Army awards air-launched effects contracts for future helicopters

  By: Jen Judson WASHINGTON — The U.S. Army has awarded 10 contracts worth a total of $29.75 million to companies to provide mature technologies in the realm of air-launched effects, or ALE, for future vertical lift aircraft that are expected to come online around 2030, service aviation officials have told Defense News. Raytheon, Alliant Techsystems Operations of Northridge, California, and Area-I of Marietta, Georgia, were awarded contracts to develop air vehicles. L3 Technologies, Rockwell Collins and Aurora Flight Services Corporation were awarded contracts to provide mission systems. And Raytheon, Leonardo Electronics US Inc., Technology Service Corporation of Huntsville, Alabama, and Alliant Techsystems Operations LLC of Northridge, California, received contracts to provide ALE payloads. Through ALE, the Army hopes to provide current and future vertical lift fleets with “the eyes and ears” to penetrate enemy territory while manned aircraft are able to maintain standoff out of range of enemy attack, Brig. Gen. Wally Rugen, who is in charge of the Army's FVL modernization efforts, said in an exclusive interview with Defense News. “To do that, that has a whole host of capabilities embedded in it, and I would say it's not just the eyes and ears, but it's also, what we are finding, is the mouth, so our ability to communicate by bringing mesh network capabilities, by bringing an ability to hear in the electronic spectrum, and, again, the ability to collect in that spectrum so we can find, fix and finish on pacing threats,” he added. The Army plans to take these already technically mature capabilities through additional technology maturation, Col. Scott Anderson, the unmanned aircraft systems project manager for the Army's Program Executive Office for Aviation, said in the same interview. “We're looking for high technology readiness levels, so best of breed,” he said, “that we can buy and then we don't have to develop, spend a lot of developmental dollars getting ready to get out the door in a prototype.” The air vehicle, payloads and missions systems will all fit into a government-owned architecture by fiscal 2024. The service will first look at each major component of ALE individually, rather than as a whole system, to assess readiness, Anderson said. That will run through most of 2021. Then in 2022, the Army will take those capabilities and bring them together into a full system prototype working with Georgia Tech, which is helping the service write the underpinnings of the reference architecture, he added. In the final phase, the Army will integrate the system onto a platform, first targeting the Gray Eagle and AH-64 Apache attack helicopter. Ultimately the ALE capabilities to come out of the effort will be targeted for the Future Attack Reconnaissance Aircraft (FARA) ecosystem, Anderson said. The Army is planning to field both FARA and a Future Long-Range Attack Aircraft (FLRAA) in the early 2030s. “We want to mature the [ALE] ecosystem and then have it ready to hand off to FARA in full bloom,” Rugen added. The Army has been looking at ALE since roughly late 2017, Rugen said, and has been working to refine the associated capabilities development documents for several years. Army Futures Command Commander Gen. Mike Murray signed an abbreviated capabilities development document in May. The service has been pleased with what it has seen so far in live prototype experimentation and physics-based modeling within the science and technology community and is prepared to move quickly on the effort, Rugen said. The Army selected Area-I's ALTIUS, the Air-Launched, Tube-Integrated Unmanned System, to launch from a rotary-wing test aircraft — a UH-60 Black Hawk — and was able to demonstrate the concept from a high altitude in August 2018. Then the service demonstrated the concept again during a ground robotic breach exercise at Yakima Air Base in Washington state in 2019 as well as a launch from a Black Hawk flying at a lower altitude — roughly 100 feet or less. In March, at Yuma Proving Ground, Arizona, the Army demonstrated multiple ALEs launched from a Black Hawk at very low altitudes to “maintain masking,” Rugen said. “We got our mesh network extended out to about 60 kilometers, so we were pretty happy with, again, the requirements pace and the experimentation pace with that.” The program will evolve beyond 2024 as the capability will align more closely with fitting into future formations. The Army could award future contracts to integrate the capability or could establish follow-on Other Transaction Authority contracts — which is the type of contract mechanism used for the 10 awardees that allows the Army to move faster to rapidly prototype. “We have the contractual mechanisms” to be “flexible and responsive,” which is key in a program like ALE, Joe Giunta, executive director of Army Contracting Command at Redstone Arsenal, Alabama, said. Instead of looking for a vendor that could deliver every aspect of a system, “we can harvest from across multiple different vendors, who bring, if you will, the best characteristics,” Patrick Mason, the deputy PEO for Army Aviation, added. “Then as they merge into our government reference architecture and our open system approach, we are then able to bring those together to create a much more capable product,” he said, that “fits into the longer term on how we can modify that as technology comes along and we can ramp on increases in technologies as we get out into the '23, '24 time frame and then further into the future as we look out to FY30 and the fielding of FARA, FLRAA and the full establishment of the FVL ecosystem.” The Army released a notice to industry Aug. 12 looking for input on technology that could further advance the capability of ALE against sophisticated adversaries with plans to host an industry day in September. While the service will prototype mature technologies in the near term, Mason said, “when you look at the '25 and '26 time frame, there will be better technologies that are developed around the payload side of the house, advancements in air vehicles or advancements in the missions systems.” The RFI is “looking at the next increment that is out there as we move from now in 2020 to what we would have as a residual capability in '24 to what we could move to in 2030,” Mason said. https://www.defensenews.com/land/2020/08/24/army-awards-air-launched-effects-contracts-for-future-helicopters/