https://www.militaryaerospace.com/sensors/article/14283258/hypersonic-scramjet-cruise-missiles Military Aerospace Subscribe Magazine Videos White Papers Webcasts Buyer's Guide Awards * Computers Trusted Computing Uncrewed Sensors RF/Analog Power Communications Test Commercial Aerospace ASTech HomeHome TopicsComputersTrusted ComputingUncrewedSensorsRF/AnalogPower CommunicationsTestCommercial AerospaceASTech ResourcesMagazineVideosTech Summit ArchivesASTech SummitWhite Papers WebcastsDefense ExecutiveBuyer's GuideAwardsIntelligent Aerospace User ToolsSubscribeAdvertiseAbout UsContact UsPrivacy PolicyTerms & Conditions https://www.facebook.com/pages/Military-Aerospace-Electronics/ 174732214480 https://www.linkedin.com/showcase/military-&-aerospace-electronics/ https://twitter.com/MilAero * Sensors Raytheon, Northrop Grumman to build Air Force scramjet-powered hypersonic cruise missiles for combat jets Sept. 26, 2022 Hypersonic missiles are exposed to shock, vibration, heat, and thermal shock, which requires designing hardened guidance and navigation technologies. John Keller * * * * * Hacm 26 Sept 2022 EGLIN AIR FORCE BASE, Fla. - U.S. Air Force guided missile experts are asking a team of Raytheon Technologies Corp. and Northrop Grumman Corp. to develop one of the first hypersonic cruise missiles to be in the U.S. inventory. Officials of the Air Force Life Cycle Management Center's Armament Directorate at Eglin Air Force Base, Fla., announced a $985.3 million task order Thursday to the Raytheon Missiles & Defense segment in Tucson, Ariz., to design and develop the Hypersonic Attack Cruise Missile (HACM). This air-launched hypersonic cruise missile, which initially will be carried on the jet fighter-bomber aircraft like the Boeing F-15EX and F-15E Strike Eagle aircraft, is a scramjet-powered hypersonic weapon designed to hold high-value targets at risk in contested environments from standoff distances, Air Force officials. Hypersonic munitions fly through the air at speeds of at least Mach 5, which is 3,836 miles per hour. Some hypersonic munitions under development are expected to fly much faster. Raytheon and the Northrop Grumman Defense Systems segment in McLean, Va., will deliver operationally ready HACM hypersonic cruise missiles to the Air Force. Related: The electronics design challenges of hypersonic flight The hypersonic operating environment involves heavy exposure to shock, vibration, heat, and thermal shock, so its guidance and navigation technologies must be specially hardened to withstand such severe operating conditions. The task order calls for Raytheon and Northrop Grumman to use model-based critical design review, qualification, integration, manufacturing and testing in developing and deploying the HACM hypersonic cruise missile. The Hypersonic Attack Cruise Missile will have scramjet engines, which use high vehicle speed to compress incoming air forcibly before combustion, which enables sustained flight at hypersonic speeds. By traveling at these speeds, hypersonic weapons like HACM can reach their targets more quickly than similar traditional missiles, and potentially evade air defenses. Related: Military researchers ask industry to develop rugged materials for hypersonic radomes and infrared windows Raytheon and Northrop Grumman have worked together since 2019 to develop, produce, and integrate Northrop Grumman's scramjet engines onto Raytheon's air-breathing hypersonic weapons. In 2020, the U.S. Air Force joined Australia in a multi-year project called the Southern Cross Integrated Flight Research Experiment (SCIFiRE) to develop air-breathing hypersonic cruise missile prototypes. The Air Force awarded three 15-month SCIFiRE contracts in June 2021 to Boeing Co., Lockheed Martin Corp., and Raytheon to complete preliminary designs of a hypersonic cruise missile. Related: How to build sensors with rugged enough sensor protection to withstand extreme heat of hypersonic flight The HACM program will bring the Raytheon SCIFiRE prototype design into production for fighter aircraft integration, and deliver two leave-behind assets with operational utility. Through SCIFiRE, the U.S. and Australia will continue collaborating on HACM design and development, including using Australian test sites for the initial all-up-round flight tests. The Air Force plans to deliver a HACM capability with operational utility by 2027. On this task order Raytheon will do the work in Tucson, Ariz., and should be finished by March 2027. For more information contact Raytheon Missiles & Defense online at www.raytheonmissilesanddefense.com, Northrop Grumman Defense Systems at www.northropgrumman.com, or the Air Force Life Cycle Management Center at www.aflcmc.af.mil. Sign up for Military & Aerospace Electronics eNewsletters [ ]SIGN UP Latest in Sensors Hydronalix 26 Sept 2022 Unmanned Navy picks Hydronalix for micro unmanned aircraft, boats, and sensors research in explosives detection John Keller Sept. 26, 2022 Amphenol Rf 26 Sept 2022 Power High-reliability micro-coax connectors for industrial automation and smart meters introduced by Amphenol RF Sept. 26, 2022 Cec 23 Sept 2022 Sensors Navy asks L3Harris to provide signal data processing for shipboard network that blends sensors and weapons John Keller Sept. 23, 2022 Kp 23 Sept 2022 Sensors Multiple-bandwidth sector antennas with dual polarization for wireless telecommunications introduced by KP Sept. 23, 2022 Dbr Radar 22 Sept 2022 Sensors Raytheon takes-on support for expensive surface-search radar aboard surface warships in $160.2 million deal John Keller Sept. 22, 2022 [1640713773] Board Products Communications Displays Electro-Optics Embedded Computers Interconnect Technology Materials Power Control & Conditioning RF & Microwave Software Test & Measurement Trusted Computing View All Companies > Load More Content Military Aerospace https://www.facebook.com/pages/Military-Aerospace-Electronics/ 174732214480 https://www.linkedin.com/showcase/military-&-aerospace-electronics/ https://twitter.com/MilAero * About Us * Contact Us * Advertise * California Do Not Sell * Privacy & Cookie Policy * Terms of Service (c) 2022 Endeavor Business Media, LLC. All rights reserved. Endeavor Business Media Logo