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Scramjet programs

Scramjet programs comprise international research and engineering efforts to realize supersonic combustion engines, which propel vehicles at hypersonic speeds exceeding by igniting fuel within that remains supersonic, eschewing mechanical compressors or turbines found in conventional jet engines. These initiatives, driven primarily by and agencies, seek to harness air-breathing propulsion for efficient hypersonic cruise in applications like boost-glide weapons, , and prospective reusable space access vehicles, addressing the inefficiencies of rocket-based systems at high altitudes. Pioneering ground tests in the mid-20th century evolved into flight demonstrations starting with Australia's HyShot in 2002, marking the inaugural -powered , albeit briefly. The advanced the field through NASA's Hyper-X program, where the X-43A vehicle achieved a record air-breathing speed of 9.6 for ten seconds in 2004, validating hydrogen-fueled principles under real flight conditions. Subsequently, the Air Force's X-51A Waverider program demonstrated practical hydrocarbon fueling, sustaining for 210 seconds at + during its 2010 test, the longest such duration to date and a for tactical feasibility. Collaborative efforts like the US-Australian HIFiRE series further probed aerothermodynamics and behaviors through multiple flights up to 8, yielding data on performance and stability essential for scaling. Despite these benchmarks, scramjet programs confront persistent engineering hurdles, including fleeting combustion residence times on the order of milliseconds, extreme thermal loads necessitating , and precise vehicle-engine to avoid phenomena. No fully operational scramjet-powered systems have entered service by 2025, with development constrained by high costs and the strategic imperative to counter peer adversaries' parallel pursuits, underscoring the technology's promise yet elusive maturity for sustained, maneuverable hypersonic operations.

United States

X-15

The X-15 was a rocket-powered hypersonic research aircraft developed jointly by the , the U.S. , and the U.S. to investigate piloted flight at speeds exceeding 5. The program originated from proposals in the mid-1950s, with the first aircraft rolling out of the factory on October 15, 1958, followed by initial powered flights in 1959 and operational research missions continuing until 1968, encompassing nearly 200 flights across three airframes. Powered by a Reaction Motors XLR99 liquid-fueled rocket engine producing up to 57,000 pounds of thrust, the X-15 was air-launched from a B-52 , enabling rapid acceleration to hypersonic velocities for data collection on airframe performance under extreme conditions. Peak performance included a maximum speed of 6.70 (approximately 4,520 at altitude) achieved by the modified X-15A-2 variant during a flight in October 1967, alongside an altitude record of 354,200 feet reached on separate missions. These accomplishments provided the first full-scale, piloted data on hypersonic , where the aircraft encountered dynamic pressures and heating rates far beyond prior or supersonic testing regimes. The X-15's airframe, designed to withstand skin temperatures up to 1,200°F, incorporated Inconel-X heat-resistant steel for leading edges, validating material responses to prolonged hypersonic exposure. Primary research objectives centered on aerodynamic heating, stability, and characteristics at hypersonic speeds, yielding measurements of rates that peaked at 1,300°F on forward surfaces due to and compression of atmospheric air. Flight data illuminated challenges such as transition, interactions, and surface effectiveness in rarified air, informing predictive models for thermal loads and structural integrity in sustained high-Mach environments. Although rocket-propelled, the empirical results on airframe-airflow interactions at these velocities established benchmarks for hypersonic vehicle design, highlighting inefficiencies of carried oxidizers and underscoring the need for integrated propulsion-airframe concepts to extend range and efficiency beyond rocket limitations. This foundational dataset influenced later hypersonic programs by demonstrating feasible piloted control and survivability, thereby supporting conceptual shifts toward air-breathing engines that could ingest atmospheric oxygen for prolonged operation, as opposed to the X-15's finite propellant constraints. The program's real-flight validations of hypersonic phenomena—distinct from ground-based simulations—remain referenced in analyses of thermal protection and aerodynamic predictability for advanced atmospheric-entry and cruise vehicles.

SCRAM

The Supersonic Combustion Ramjet Missile (SCRAM) program, initiated by the (JHU/APL) for the , ran from 1962 to 1978 and focused on validating feasibility for compact, surface-launched hypersonic missiles. Early efforts emphasized ground-based testing of inlets, isolators, fuel injectors, and combustors in connected-pipe wind tunnels simulating 3–8 flows, using , , and borane-based fuels to assess supersonic processes. These tests provided initial on fuel-air mixing and ignition delays in high-speed airstreams, revealing that transverse liquid jet injection struggled with penetration and rapid mixing due to strong shock interactions. Free-jet engine demonstrations, conducted between 1968 and 1974 with a 10-inch-diameter, 360-inch-long, three-module , achieved sustained supersonic at flight 5.2–7.1, yielding net positive over short durations. Ignition was facilitated by additives like triethylaluminum, but exhibited instabilities, including oscillatory modes and uneven flame-holding, attributed to inadequate distribution and thermal choking risks in the short test times available—typically milliseconds in runs. Predicted performance included a 350-nautical-mile range at 7.5 and 100,000 feet altitude, though sea-level 4 operations were limited to 47 nautical miles. Despite these proofs-of-concept, the program's reliance on exotic fuels prone to logistical issues, combined with challenges in and accommodating missile seekers, precluded operational development; it concluded without hardware deployment but supplied foundational insights on supersonic mixing and combustion stability for subsequent U.S. efforts. Test limitations, such as brief flow establishment times, underscored the need for advanced diagnostics and longer-duration facilities in future validations.

National Aero-Space Plane (NASP)

The National Aero-Space Plane (NASP) program, designated X-30, was a joint U.S. Department of Defense and initiative launched in 1986 to develop a reusable, (SSTO) vehicle capable of horizontal takeoff from a conventional and achieving orbital velocities around Mach 25 using air-breathing . The design relied on hydrogen-fueled engines for hypersonic cruise phases, supplemented by augmentation for ascent to orbit, with the vehicle envisioned to transport payloads of up to 13,600 kg to while operating as a Mach 5+ transatmospheric transport in suborbital modes. Program goals emphasized revolutionary advances in , integration, and metallic composites to overcome the inefficiencies of multistage , drawing from prior research under the project. Development efforts focused on ground-based testing of subscale scramjet components and integrated vehicle models, demonstrating feasible mode transitions from ramjet to scramjet operation at Mach 6-8 conditions but struggling with sustained combustion stability and thrust-to-drag ratios at higher speeds due to inherent thermodynamic limits in air-breathing engines. Hydrogen fuel's low density and cryogenic requirements posed additional challenges, including vehicle sizing penalties and cooling demands exceeding material capabilities, as metallic hydrogen tanks and active cooling systems failed to scale without excessive mass fractions. By 1993, after expending approximately $2 billion primarily on materials research and wind tunnel validations, the program revealed fundamental barriers in achieving net positive specific impulse for orbital insertion, prompting restructuring and de facto cancellation as costs escalated beyond projected $5 billion totals without viable flight demonstrator prospects. The NASP's termination underscored causal constraints in thermodynamics—such as dissociation losses at extreme temperatures reducing efficiency—and , where no alloy or composite withstood prolonged aerothermal heating while maintaining structural integrity under . This shifted U.S. hypersonic priorities toward lower-risk, dual-mode applications in sustained cruise vehicles rather than ambitious SSTO concepts, validating empirical ground test data over optimistic theoretical models.

GASL Projectile

General Applied Science Laboratories (GASL), based in , developed a gas gun-launched incorporating a engine to enable hypersonic testing in controlled, short-duration free-flight conditions. The , patented in 1996, featured a propulsion-assisted configuration optimized for launch velocities exceeding , allowing evaluation of engine start-up, airflow capture, and in a compact, artillery-shell-like form factor. Tests were performed using a two-stage at the Arnold Engineering Development Center in , accelerating four-inch-diameter, 20-percent-scale models of conceptual hypersonic missiles to speeds greater than 5. Successful firings occurred on June 20 and July 26, 2001, with the igniting post-launch to generate sufficient to overcome , demonstrating operational viability at simulated hypersonic regimes up to 8. These experiments yielded data on shockwave interactions and inlet compression dynamics during the milliseconds-long flight window, offering empirical benchmarks for models of supersonic airflow management in scramjet forebodies. By isolating phenomena through rapid acceleration without reliance on booster rockets or full vehicles, the approach provided cost-effective insights into pressure recovery and behavior at extreme numbers, informing subsequent design iterations despite limitations in sustained test duration.

Hyper-X

The program, initiated by in 1996, aimed to validate supersonic ramjet (scramjet) propulsion integrated into an for sustained at speeds between 7 and 10. The program developed the X-43A unmanned experimental vehicle, a small, wedge-shaped craft approximately 12 feet long, powered by a hydrogen-fueled engine without , relying on high-speed airflow for compression and . Ground tests and simulations preceded flight demonstrations, focusing on challenges such as fuel-air mixing, stability, and thermal-structural integrity under extreme . Flight testing began with a failure on June 2, 2001, when the first X-43A separated prematurely from its Pegasus booster rocket, leading to vehicle destruction. Success came on March 27, 2004, with the second X-43A achieving 6.83 (approximately 5,000 mph) for about 11 seconds of scramjet-powered flight after air-dropping from a modified B-52 Stratofortress and booster acceleration to over 10. This marked the first free-flight demonstration of scramjet operation at hypersonic speeds, confirming thrust production from supersonic . The program's third and final flight on November 16, 2004, reached 9.68 (nearly 7,000 mph at 110,000 feet altitude) for 10 seconds, establishing a for the fastest air-breathing powered flight. The booster-launched configuration addressed scramjet inlet "starting" difficulties—where shock waves must position correctly for airflow capture—through precise trajectory control and vehicle geometry optimized via computational fluid dynamics. However, flight durations remained brief due to thermal management limits, as leading-edge temperatures exceeded 3,000°F, necessitating ablative materials and short-burn profiles to prevent structural failure. Instrumentation captured data on real-gas effects, boundary layer interactions, and drag reduction techniques, such as fuel-cooled walls, which informed subsequent hypersonic research. Though the program concluded without developing scaled operational systems, its empirical validation of scramjet feasibility influenced defense applications by providing benchmarks for propulsion efficiency and vehicle integration.

FASST

The Flexible Aerospace System Solution for Transformation (FASST) was a Boeing-led conceptual program in the early 2000s, sponsored by and the U.S. , aimed at developing reusable two-stage-to-orbit launch vehicles for responsive space access. The initiative explored combined-cycle to enable horizontal takeoff from runways, targeting payload capacities exceeding 10,000 pounds to while reducing costs compared to traditional vertical-launch rockets. FASST emphasized turbine-based combined-cycle (TBCC) engines for the first stage, integrating modes for to supersonic acceleration (up to approximately 3) with transitions to -like via mechanisms for higher speeds. The second stage employed rocket-based combined-cycle (RBCC) systems with dual-mode / inlets and air-augmented rocket features, facilitating staging at 4 and subsequent hypersonic acceleration to 14 using /LOX fuels. Modeling and component studies addressed mode transition challenges, including variable geometry inlets and ratios to maintain thrust across speed regimes, though modes were deemed impractical for the first stage due to thermal limits. Ground-based efforts, including test bed developments like the Revolutionary Turbine Accelerator, prioritized reliable transitions between turbine and air-breathing modes but faced cancellation in 2004 amid funding reallocations toward non-air-breathing for interplanetary missions. Despite conceptual promise for aircraft-style reusability—such as wing-body fused configurations for operations—FASST was deprioritized owing to the complexities of integrating multiple modes, which offered marginal benefits over dedicated scramjets or rockets for targeted hypersonic applications.

HyFly

The HyFly program, initiated in the early 2000s as a joint effort by the and the U.S. Navy, sought to demonstrate a hypersonic strike missile concept powered by a dual combustion (DCR) engine, integrating mode for lower speeds and mode for hypersonic cruise. The design emphasized compatibility with sea-based launch platforms, targeting sustained speeds up to Mach 6 over ranges of approximately 600 nautical miles to enable rapid naval strikes against time-sensitive targets. Development involved contractors such as and , focusing on end-to-end system integration, including booster propulsion, airframe, and guidance for maritime environments. Ground testing advanced the DCR concept, with a fully integrated missile engine achieving operation at 6.5 in controlled facilities by June 2002, validating , ignition, and generation in a simulated hypersonic . These tests confirmed the engine's potential for transitioning between modes without mechanical changes, addressing key challenges in and at high numbers. However, the program revealed difficulties in scaling to free-flight conditions, including precise booster separation and scramjet startup reliability under dynamic atmospheric pressures. Flight demonstrations, planned as a series starting around 2005, encountered repeated setbacks that underscored integration hurdles with naval-compatible boosters and guidance systems. A February 2008 test from a booster platform resulted in malfunction shortly after ignition, preventing sustained hypersonic operation and leading to vehicle loss in the ; prior attempts in 2006 had similarly failed to achieve full DCR performance due to unrelated booster issues, prompting to consider early termination. These outcomes highlighted persistent challenges in combustion stability and efficiency at operational speeds, falling short of modeled thrust outputs despite ground successes. Following these failures, the HyFly program was canceled in the late , with funds reallocated to more viable hypersonic demonstrators emphasizing proven technologies and reduced integration risks. The effort provided valuable data on DCR viability for sea-launched applications but exposed systemic barriers in achieving reliable transition and naval adaptability, influencing subsequent U.S. programs to prioritize incremental maturation over ambitious dual-mode designs.

Boeing X-51

The Boeing X-51A Waverider was an unmanned demonstrator program led by the U.S. (AFRL) in partnership with the (DARPA), , and Pratt & Whitney Rocketdyne, focused on validating sustained scramjet-powered cruise at speeds exceeding using practical JP-7 hydrocarbon fuel rather than cryogenic alternatives like . The 14-foot-long vehicle featured a design that rode its own shockwave for aerodynamic efficiency, with the engine integrated into the undersurface for air-breathing from to over , targeting durations of up to 300 seconds and ranges potentially exceeding 400 nautical miles. Launched from a B-52 Stratofortress using an MGM-140 booster rocket, the program conducted four test flights over the between 2010 and 2013 to bridge experimental scramjet research toward operational hypersonic systems. The inaugural flight on May 26, 2010, achieved approximately 200 seconds of scramjet operation at and 70,000 feet altitude, marking the longest air-breathing at the time after initial ignition and transition from a booster phase. The second flight on June 13, 2011, lasted 143 seconds under scramjet power before termination due to insufficient acceleration, while the third in August 2012 aborted early from a control fin failure. The final flight on May 1, 2013, set a program record with over 210 seconds of sustained scramjet burn at speeds above , peaking at Mach 5.1 while consuming all onboard fuel, for a total flight exceeding six minutes. These tests successfully demonstrated scramjet ignition via ethylene fuel injection, followed by transition to JP-7 combustion for acceleration and sustained supersonic airflow through the engine, validating the feasibility of hydrocarbon-fueled hypersonic propulsion without exotic additives beyond initial startup. The JP-7 also served as a coolant, circulating through engine channels to manage thermal stresses before injection, though hypersonic conditions imposed extreme heat and pressure loads that tested material limits and regenerative cooling efficacy. While the extended durations advanced prospects for weaponized cruise missiles, the program's multimillion-dollar per-vehicle costs and persistent integration challenges, including thermal management beyond some modeled expectations, constrained it to demonstration rather than scaling to production.

Hypersonic Air-breathing Weapon Concept (HAWC)

The program, led by the in partnership with the U.S. Air Force, developed compact -powered missiles designed for air-launch from tactical platforms. Initiated to demonstrate affordable, manufacturable hypersonic weapons, HAWC focused on vehicles small enough for integration with existing aircraft while achieving sustained + speeds in the atmosphere. The effort prioritized and to validate integration, emphasizing hydrocarbon-fueled engines for operational feasibility over larger-scale demonstrators. Flight tests conducted from 2021 to 2023 confirmed key performance metrics, including hypersonic cruise, maneuverability, and survivability against defenses. The initial free-flight test on September 20, 2021, successfully ignited the after booster separation, propelling the vehicle at speeds exceeding with controlled flight in oxygen-rich conditions that enhance detection evasion. A second test in April 2022 set an endurance record for operation, while the July 2022 flight using a design sustained greater than propulsion over tactical ranges. The final January 2023 test with a missile variant achieved comparable altitude, speed, and range, yielding data on air vehicle feasibility and effectiveness. Northrop Grumman and Raytheon designs incorporated advanced features, such as efficient air compression and , to enable high-speed maneuvers and atmospheric operation without rocket sustainment. These efforts advanced understanding of airflow management and efficiency, supporting dual-mode ramjet- transitions for broader speed envelopes. Test outcomes validated the potential for deployable weapons resilient to advanced air defenses, informing subsequent U.S. hypersonic initiatives while highlighting the challenges of thermal management and material durability at hypersonic velocities.

Hypersonic Attack Cruise Missile (HACM)

The (HACM) is a program to develop an air-launched, -powered hypersonic , initiated in 2022. The weapon is designed to achieve speeds exceeding , enabling it to target fixed, high-value, and time-sensitive assets in contested environments through rapid transit and maneuverability that complicates interception by adversary defenses. In September 2022, the Air Force awarded Raytheon Missiles & Defense a $985 million contract for the design, development, and demonstration phase of HACM. The missile is intended for integration with existing fighter platforms, including the F-15E, to facilitate deployment from air-breathing aircraft without requiring specialized bombers. This approach prioritizes compatibility with current force structure to counter peer competitors like China and Russia by exploiting hypersonic speed for standoff strike capabilities. Program progress has been hampered by technical challenges, including delays in finalizing the missile design and validating hardware components, as highlighted in assessments. Initially targeting initial flight tests in fiscal year 2025, the schedule slipped by approximately one year, with the first of several planned demonstrations now projected for fiscal year 2026. These setbacks have constrained the overall test cadence and deferred timelines for achieving operational readiness.

Mayhem and MACH-TB

The Air Force's Project seeks to develop an uncrewed hypersonic strike-reconnaissance aircraft powered by a engine, capable of speeds exceeding for intelligence, surveillance, and reconnaissance (ISR) as well as strike missions. received a to advance the -powered air vehicle design, which is intended to be air-launched from a carrier aircraft. As of February 2024, the program's status remains uncertain due to funding shortfalls that could delay or alter its trajectory. Complementing such efforts, the Department of Defense's Multi-service Advanced Capability Hypersonics Test Bed (MACH-TB) program, initiated by the in 2022, aims to boost the frequency and affordability of testing using commercial launch platforms and recoverable vehicles. Defense secured a $1.45 billion contract in 2025 to support MACH-TB development, emphasizing low-cost test articles for evaluating hypersonic technologies. The program achieved successful end-to-end flights with test-bed recovery in December 2024 and March 2025, employing the Stratolaunch Talon-A vehicle launched from a carrier aircraft; these marked the first reusable hypersonic aircraft operations in the U.S. since the 1960s X-15 era. MACH-TB's reusable design facilitates iterative testing of components under hypersonic conditions, including propulsion elements like scramjets, by enabling rapid data retrieval and reduced turnaround times between flights compared to expendable systems. This approach supports accelerated prototyping for air-breathing hypersonic systems, addressing prior limitations in U.S. ground- and flight-test infrastructure. While targets operational vehicle maturation, MACH-TB provides foundational experimental enablers for validating thermal management, , and integration challenges in sustained .

Australia

HyShot

The HyShot program, initiated in the late by the University of Queensland's Centre for Hypersonics as part of the Australian Hypersonics Initiative, conducted the world's first successful free-flight tests of a engine operating on supersonic . The initiative involved collaboration among Australian entities including the Defence Science and Technology Organisation (DSTO) and international partners, emphasizing low-cost launches from Woomera to validate ground-based hypersonic data. HyShot's prioritized , featuring a wedge-shaped without active cooling, to demonstrate fundamental feasibility at hypersonic speeds. The program's breakthrough occurred with HyShot II on July 30, 2002, when a Terrier-Orion boosted the payload to approximately Mach 7.6–8.0 at altitudes of 23–35 km. Hydrogen-fueled supersonic combustion was sustained for 6–8 seconds during the ~3-second primary test window, confirming stable operation in a flight despite the engine's passive thermal management limitations, which restricted duration due to material constraints. Post-flight analysis of , including and sensors, verified that the simple enabled efficient air capture and mixing without thermal choking, aligning with prior T4 shock tunnel simulations. This achievement marked a proof-of-concept for air-breathing hypersonic , demonstrating that could ignite and burn fuel supersonically in real flight conditions, though sustained operation required future advancements in cooling and scaling. The low-budget approach—totaling under $1 million per flight—facilitated with collaborators, establishing HyShot as a for subsequent international scramjet validation efforts while highlighting the viability of collaborative, non-proprietary hypersonics research.

HIFiRE

The Hypersonic International Flight Research Experimentation (HIFiRE) program, launched in 2007, represented a joint effort between the Research Laboratory and Australia's to advance through a series of repeatable experiments. The initiative focused on propulsion systems, targeting empirical data on inlet performance, boundary layer transition, and combustion dynamics at to 8, conditions challenging to simulate accurately in ground-based facilities. By employing modular, recoverable vehicles boosted by sounding rockets from the Woomera Test Range, HIFiRE emphasized systematic testing to support reusable hypersonic vehicle designs. HIFiRE conducted flights from HIFiRE-0 in May 2009, which validated the basic flight vehicle design and trajectory, through to HIFiRE-8 by 2017. Key experiments included HIFiRE-2 in May 2012, demonstrating hydrocarbon-fueled operation for about 12 seconds at 6-8 with over 700 sensors capturing data on dual-mode to pure scramjet transition; HIFiRE-5 and -5b in 2010 and 2016, respectively, which measured three-dimensional transition using ; and HIFiRE-4 in July 2017, achieving controlled maneuvers at 8 to assess for glide vehicles. HIFiRE-7 specifically evaluated ignition and thrust at high altitudes, confirming stable supersonic combustion modes. These tests yielded critical insights into inlet starting reliability and , enabling validation of computational models for hypersonic flow phenomena and informing transitions between boost-glide and powered cruise phases. The program's repeatable format, contrasting with one-off demonstrations, facilitated iterative refinements and risk reduction for operational systems. Bilateral cooperation under HIFiRE promoted technology sharing, leveraging Australia's test range expertise and U.S. advancements to enhance allied hypersonic capabilities without reliance on biased institutional narratives.

India

Hypersonic Technology Demonstrator Vehicle (HSTDV)

The Hypersonic Technology Demonstrator Vehicle (HSTDV) is an unmanned scramjet-powered testbed developed by India's Defence Research and Development Organisation (DRDO) to validate air-breathing hypersonic propulsion technologies for potential future cruise missiles and reconnaissance vehicles. Initiated in the early 2000s as part of India's push for indigenous hypersonic capabilities, the program focuses on demonstrating sustained scramjet operation at speeds exceeding Mach 5, using a compact cruise vehicle integrated with a hydrogen-fueled scramjet engine. The HSTDV employs a two-stage solid rocket booster to accelerate the vehicle to scramjet ignition conditions, emphasizing integrated airframe and propulsion design to achieve efficient hypersonic flight in the atmosphere. The program's inaugural flight test occurred on June 12, 2019, off the coast of , where an HSTDV prototype was boosted by an Agni-series-derived solid rocket motor, marking India's entry into in-flight hypersonic experimentation despite prior ground-based validations. A pivotal demonstration followed on September 7, 2020, launched from the facility at 11:03 IST, with the booster elevating the 5.6-meter-long vehicle to approximately 30 kilometers altitude before ignition. The engine sustained combustion for over 20 seconds, enabling cruise at Mach 6 (around 6,600 km/h), validating critical aspects such as autonomous airframe-ramjet , thermal management, and performance under real flight conditions. data confirmed stable flight path adherence and on-board sensor functionality throughout the trajectory. DRDO's efforts in HSTDV underscore India's strategic emphasis on self-reliant defense technologies amid geopolitical tensions in and historical technology sanctions following 1998 nuclear tests, relying on domestic facilities and for optimization. The hydrogen-based design prioritizes high for extended range potential, contrasting with rocket-powered alternatives by enabling atmospheric air intake for combustion. Collaborative inputs from institutions like the supported materials development for extreme heat fluxes exceeding 2,000 K. While the 2020 test achieved key milestones, scaling scramjet endurance beyond brief bursts remains a technical hurdle, with challenges in stability, , and material durability under prolonged hypersonic heating persisting for operational weaponization. Subsequent tests have built on these foundations, but foundational flight validations highlighted the program's progress toward viable hypersonic cruise systems without foreign dependencies.

Recent Scramjet Engine Tests

In January 2025, India's (DRDO), through its (DRDL), conducted a groundbreaking ground test of an active-cooled combustor lasting 120 seconds. This demonstration achieved successful ignition and stable , representing the first such extended operation of an actively cooled system in and validating key technologies for hypersonic propulsion. Advancing from this milestone, DRDO executed a 1,000-second ground test of a sub-scale active-cooled scramjet combustor in April 2025 at the newly established Scramjet Connect Test Facility in Hyderabad. The test confirmed sustained performance under extreme thermal loads, overcoming limitations in heat dissipation and combustion stability that previously constrained scramjet endurance. This duration exceeds prior global benchmarks for ground-based scramjet simulations, enabling maturation of components without flight risks. These ground tests directly support DRDO's efforts on the Extended Trajectory Long Duration Hypersonic Cruise Missile (ET-LDHCM), a -powered targeting 8 velocities for extended-range strikes. By incorporating , the developments mitigate thermal throttling—where excessive heat buildup reduces engine efficiency—and enhance for prolonged operation, critical for operational hypersonic missiles. Such progress bolsters India's hypersonic capabilities amid regional competition from and , where sustained scramjet performance remains a technical hurdle.

China

Early Scramjet Research

China's scramjet research originated in the early 1990s, with substantial progress achieved through state-sponsored programs, including integration with Project 921, the Shenzhou manned initiative that overlapped with hypersonic . These efforts emphasized ground-based validation to establish core competencies in air-breathing propulsion for high-speed flight, driven by strategic imperatives to develop capabilities offsetting conventional military disparities, such as U.S. naval dominance in the . Key experiments were conducted at the Institute of Mechanics, (IMCAS), utilizing facilities like the 187 mm × 300 mm for subscale and testing. Researchers demonstrated supersonic at simulated flight numbers of 4 to 6, employing and fuel mixtures to investigate ignition, holding, and heat release under hypersonic inflow conditions. These subscale tests prioritized empirical data on efficiency and , laying groundwork for operability without reliance on foreign technology transfers. Early investigations also generated data on shock train formation and control within the isolator, critical for mitigating unstart risks in supersonic combustors, through studies of backpressure and effects. However, the classified nature of much of this state-directed R&D—conducted amid opacity in publications—restricted and global verification, with available reports often lacking reproducible details or independent corroboration from non-domestic sources. This , while preserving competitive edges, has fueled regarding the full fidelity of claimed advancements relative to thermodynamic and aerodynamic first principles.

Recent Hypersonic Tests

In September 2025, conducted a of an unidentified hypersonic characterized by a straight , as documented in civilian-recorded footage shared on platforms. The test occurred on September 29 around 6 p.m. local time, producing a distinctive plume pattern visible during twilight, indicative of sustained powered consistent with scramjet-propelled designs rather than ballistic profiles. This demonstration highlights operational maturation toward deployable hypersonic systems, with the missile's low-altitude, direct path suggesting evasion of traditional defenses. China has pursued integrations of hypersonic propulsion with reconnaissance platforms, including the WZ-8 supersonic , which achieves 6–7 speeds via rocket power for intelligence, surveillance, and (ISR) over contested regions like the . analysts anticipate enhancements to the WZ-8 for extended endurance and precision strike capabilities, enabling real-time targeting data for broader hypersonic networks. Such adaptations support deterrence objectives by complicating adversary responses in maritime domains, where rapid ISR could cue anti-ship hypersonic salvos. Advancements in solid-fuel scramjet variants have emphasized reliability through simplified fuel delivery and reduced mechanical complexity compared to liquid systems. Recent ground and subscale flight experiments have validated combustion stability at Mach 4–8, with integrated rocket-scramjet hybrids achieving sustained thrust via solid propellants. In March 2025, a secondary combustion technique doubled scramjet thrust output at Mach 6, addressing ignition and efficiency challenges in operational environments. Open-source intelligence indicates China's test cadence exceeds U.S. equivalents in volume, reflecting accelerated prototyping for fielded weapons amid regional tensions. These efforts prioritize anti-access/area-denial (A2/AD) roles, enhancing strike precision against naval targets without reliance on vulnerable satellite cues.

Russia

Historical Scramjet Efforts

Scramjet research in the originated from early theoretical work on supersonic , with significant advancements pursued in the late period amid military imperatives for hypersonic propulsion. The Central Institute of Aviation Motors (CIAM) led efforts to develop experimental hydrogen-fueled engines, building on concepts dating back decades. By the late 1980s, programs like the hypersonic incorporated elements, leading to the creation of the experimental hypersonic vehicle, which focused on integrating air-breathing engines for sustained high-speed flight. A pivotal achievement came with the Kholod project, an axisymmetric demonstrator initiated at CIAM in the 1970s or earlier and tested in 1991 just before the USSR's dissolution. Launched via a modified booster, the Kholod vehicle successfully ignited its at around 3 and accelerated to 6.41–6.47, demonstrating sustained supersonic and generation at hypersonic speeds for approximately 10–15 seconds. These ground-launched tests validated inlet performance, , and stability under real flight conditions, providing critical data on airflow management and thermal loads. Post-1991, the following the Soviet Union's imposed severe funding shortages on aerospace research, stalling large-scale and shifting focus to simulations and subscale ground facilities. Despite these constraints, institutional knowledge at CIAM and related entities endured, preserving expertise in dual-mode ramjet-scramjet transitions and high-altitude ignition challenges, which later supported hybrid propulsion concepts blending and air-breathing elements. This foundational data on at extreme velocities and altitudes influenced subsequent hypersonic , though progress remained incremental until renewed investments in the .

3M22 Zircon

The (: SS-N-33) is a n-developed hypersonic anti-ship featuring propulsion for the sustained cruise phase following solid-fuel booster acceleration to hypersonic speeds. It achieves maximum velocities of 8-9 (approximately 6,100-6,900 mph), with an estimated range exceeding 1,000 km when operating at altitudes up to 28 km. The design incorporates active and seekers for , enabling evasive maneuvers that exploit hypersonic sheaths to reduce detectability and complicate interception. Initial serial production and naval deployment commenced in 2022, with integration on Project 22350 frigates such as Admiral Gorshkov and subsequent arming of Yasen-class submarines, including the lead vessel launched in May 2025. The scramjet sustains flight using liquid hydrocarbon fuels, prioritizing operational practicality and storability over cryogenic alternatives like , which supports extended powered flight durations essential for range and maneuverability. First combat employment occurred in February 2024, with forensic analysis of strike debris in confirming use against defended targets, validating its penetration of integrated air defenses despite contested interception reports. This capability enhances Russia's naval options, particularly for saturating carrier groups, where the missile's speed and low-observable trajectory challenge legacy interceptors like systems.

European Programs

France

France's scramjet research, led by the Office National d'Études et de Recherches Aérospatiales (), has emphasized supersonic combustion and combustor design since 1992, primarily to support potential civilian and military air-breathing propulsion applications. The national PREPHA program, active until 1999, involved collaboration among , MBDA France (formerly Aerospatiale), SNECMA, and SEP to develop hydrogen-fueled scramjet components, achieving ground-based simulations equivalent to Mach 7.5 flight conditions at ONERA's Châtillon facility with combustion temperatures up to 2,400 K. These efforts established foundational data on , flame holding, and performance in supersonic flows, using direct-connect test rigs upgraded during the program. In missile applications, scramjet integration has focused on enhancing nuclear-armed air-launched systems for strategic deterrence, with and advancing dual-mode ramjet technologies since the early 2000s to enable seamless transitions from subsonic ( mode, up to 3–4) to supersonic ( mode, beyond 4). This work informed preparatory studies for upgrades to the ASMP-A (Air-Sol Moyenne Portée-Amélioré), a -powered supersonic operational since 2009 with a 500–600 km range and 3 speeds, though its current configuration does not incorporate full operation. 's facilities, including blowdown wind tunnels capable of testing up to 12 equivalents, supplied empirical data on performance, management, and efficiency under these transitional regimes. French priorities have favored nuclear-compatible evolutions over conventional or pure demonstrators, culminating in the ASN4G (Air-Sol Nucléaire de 4ème Génération) program, a hypersonic under development by with support for entry into service around 2035. The ASN4G will employ to reach speeds exceeding 6–7 at altitudes of 20–30 km, replacing the ASMP-A to maintain credible penetration against advanced defenses while carrying a . Despite these advances, has allocated greater resources to boost-glide hypersonic vehicles, such as the VMaX experimental platform tested successfully on June 17, 2023, reflecting a strategic emphasis on for near-term deterrence needs over sustained air-breathing flight.

Germany

The (DLR) has led research emphasizing fundamental aerothermodynamics and subscale ground testing, primarily through facilities like the High Enthalpy Shock Tunnel Göttingen (HEG), which simulates hypersonic conditions up to 7 and beyond for inlet compression and studies. These efforts, active since the early 2000s, prioritize validation of models against experimental data to understand supersonic mixing, flame stabilization, and thermal loads in flows. Key experiments in HEG have replicated Mach 7 inlet flowfields, quantifying viscous effects, interactions, and structures in two-dimensional geometries under dynamic pressures relevant to . Complementary investigations have examined transient phenomena, including upstream-propagating waves triggered by thermal in hydrogen-fueled model combustors, revealing wave speeds exceeding those of equivalent shocks. Such tests, often lasting milliseconds, provide high-fidelity data for refining numerical simulations of initiation and stabilization. DLR's approach has maintained a strong focus on and modeling over full-scale flight demonstrations, with free-piston shock tunnel runs enabling integrated engine evaluations up to 1.5 meters in length without reliance on airborne platforms. This scientific orientation has informed material developments, such as carbon-carbon composites for liners, tested under simulated 7 conditions, but has not translated into independent weapon systems or extensive hypersonic vehicle prototypes. Contributions remain centered on enhancing predictive tools for performance, aligning with broader hypersonic research rather than applied for missiles.

Joint European Initiatives

The LAPCAT project, funded under the European Union's FP6 framework from 2005 to 2008, represented an early multinational effort to develop scramjet-based for hypersonic civilian , aiming to enable 4-8 flight regimes capable of reducing antipodal travel times, such as Brussels to , to under three hours. Involved partners from multiple EU member states, including , , , and , collaborated on conceptual vehicle designs like the Mach 8 MR2, incorporating dual-mode ramjet-scramjet engines to address mode transition challenges during acceleration from subsonic to hypersonic speeds. Ground testing in joint facilities, such as arc-heated wind tunnels, highlighted scaling difficulties in performance and thermal management, with subscale experiments revealing instabilities at high numbers that required refined numerical simulations for mitigation. LAPCAT II, an FP7 successor running from 2008 to 2011 co-funded by the and involving expanded consortia across Europe, built on these findings by focusing on aero-propulsive integration for the MR2 vehicle, including hydrogen-fueled simulations that demonstrated potential gains but underscored material erosion risks under sustained hypersonic conditions. These initiatives pooled computational and experimental resources from national labs, yet progress was hampered by fragmented national priorities and modest funding—totaling around €10 million for LAPCAT II—limiting full-scale validation compared to more centralized U.S. or Russian programs. More recently, the STRATOFLY project under Horizon 2020 (2019-2022), coordinated by Politecnico di Torino with partners from nine EU countries, advanced collaborative scramjet research toward sustainable hypersonic passenger aircraft, conceptualizing the STRATOFLY-MR3 waverider vehicle powered by precooled hybrid turbo-ram-scramjet engines for Mach 8 cruise at 32 km altitude. Emphasizing mode transitions via variable geometry inlets and cryogenic hydrogen storage in multi-bubble tanks, wind tunnel tests and CFD analyses identified persistent challenges in NO_x emission control and structural integrity under thermal loads exceeding 2000 K, though military scramjet applications remained deprioritized in favor of civilian goals. Budget constraints, with €8.9 million allocated, constrained hardware prototyping, illustrating how EU-wide efforts, while fostering knowledge sharing, often lag behind singular national investments due to bureaucratic coordination overhead. Emerging defense-oriented collaborations, such as the Defence Fund-supported DEMETHRA initiated in , explore novel technologies like enhanced supersonic combustion for hypersonic demonstrators, involving cross-border teams to tackle ignition delays and fuel-air mixing inefficiencies. These joint ventures highlight Europe's strategy of resource pooling to overcome individual member states' limitations, though scaled demonstrations remain elusive amid competing fiscal priorities.

Japan

Dual-Mode Scramjet Development

's Acquisition, Technology & Logistics Agency (ATLA) initiated dual-mode development in 2019 to support hypersonic cruise missiles (HCMs) requiring propulsion adaptable to varying flight regimes. Dual-mode engines operate in mode at lower hypersonic speeds (below approximately 4) for efficient acceleration, transitioning to mode for sustained supersonic at and above, enabling longer ranges without rocket boosters beyond initial launch. ATLA awarded (MHI) a to prototype such an , targeting into HCMs for operational deployment by fiscal year 2031. The prototype emphasizes reliability across variable atmospheric and speed conditions through extensive ground testing of combustion stability and mode transition mechanics. In March 2023, Japan achieved net-positive thrust in scramjet ground tests, validating core propulsion performance under simulated hypersonic flows. These tests prioritize fuel-efficient jet fuel combustion to support ground- and sea-launched configurations, contrasting with pure boost-glide systems by allowing powered cruise phases for maneuverability. This effort aligns with Japan's defensive posture against regional threats, including China's expanding hypersonic arsenal, by enhancing standoff capabilities for island chain protection. The HCM's scramjet propulsion integrates with broader hypersonic architectures, such as glide vehicles, to enable precise strikes on high-value targets like naval assets from dispersed launchers, bolstering deterrence without relying solely on ballistic trajectories. Development continues under ATLA-MHI collaboration, with prototypes undergoing iterative validation to address thermal management and inlet efficiency challenges inherent to dual-mode operation.

Challenges and Criticisms

Technical Hurdles

Supersonic in scramjets is inherently unstable due to the short times of airflow, on the order of milliseconds, which promote oscillations and interactions that trigger —a where the system expels upstream, drastically reducing captured airflow and halting sustained . These instabilities arise from acoustic-vortex coupling and flame-holding difficulties in 2-3 flows, often requiring active measures like flameholders or pulsed injection, yet empirical ground tests consistently reveal mode transitions to or engine under nominal . Inlet starting poses a separate barrier, demanding precise internal contraction ratios and variable geometry to swallow the initial oblique shocks without boundary layer spillage, as fixed-geometry designs frequently fail to transition from ramjet-like subsonic to scramjet supersonic modes during acceleration, leading to repeated test aborts in wind tunnels and flight simulations. High thermal loads exacerbate this, with stagnation temperatures exceeding 2000 K at the inlet lip and combustor walls, necessitating regenerative cooling via fuel circulation or exotic composites like carbon-carbon, though dissociation of coolant hydrocarbons under these conditions degrades heat transfer efficiency and risks material ablation without multilayer insulation. Fuel-air mixing remains rate-limited by the supersonic layer's low rates, constraining ratios to below 0.5 for complete within combustor lengths under 1 meter, thereby capping thrust-to-drag ratios below 2 in tested configurations and amplifying drag penalties from unburned struts. At 8 and above, real-gas effects intensify, including air dissociation into oxygen and , which lowers effective specific heat ratios and enthalpies by up to 20%, further eroding as vibrational nonequilibrium delays energy release. These coupled phenomena underscore why no has demonstrated net thrust beyond short-duration bursts in controlled environments.

Economic and Strategic Debates

Scramjet development programs have incurred substantial costs, with the alone projecting over $9 billion in for hypersonic systems like the Navy's Intermediate-Range (IR-CPS) beyond 2027, amid broader Department of Defense hypersonic efforts estimated in the tens of billions across procurement and testing. Analysts have criticized these expenditures as disproportionate, arguing that the marginal velocity advantages of scramjet-powered hypersonic cruise missiles—typically 5-8—offer limited tactical superiority over cheaper or supersonic alternatives for most missions, potentially constituting fiscal overkill in an era of constrained defense budgets. Proponents within the U.S. Department of Defense maintain that scramjets provide a strategic edge in penetrating anti-access/area-denial (A2/AD) networks deployed by adversaries such as and , enabling rapid, unpredictable strikes that evade advanced integrated air defenses through sustained atmospheric flight and maneuverability. However, alternatives like boost-glide vehicles or maneuverable ballistic reentry systems achieve comparable ranges at roughly one-third lower costs, though they sacrifice the powered, low-altitude loitering potential of scramjet , which could prove decisive in high-end peer conflicts where response times and evasion matter most. While the empirical deterrence value in contested environments justifies continued investment despite hype, risks loom large, as technologies—though technically demanding—could diffuse through or partnerships, empowering rogue states or non-state actors with enhanced strike capabilities and escalating global arms races. This tension underscores a core : fiscal versus the imperative of maintaining qualitative superiority against near-peer rivals, with cost-benefit analyses revealing no clear on whether scramjet pursuits yield net strategic returns proportionate to their expense.

Program Failures and Cancellations

The National Aero-Space Plane (NASP) program, a U.S. initiative launched in the to develop a scramjet-powered vehicle capable of 25 flight and horizontal takeoff, was terminated in November 1994 after expenditures exceeded $2 billion without achieving key milestones such as sustained hypersonic or lightweight metallic hydrogen-fueled structures sufficient for orbital insertion. Fundamental barriers included beyond material tolerances and inefficiencies preventing net positive at orbital velocities, rendering the concept physically unviable with contemporaneous technology. The DARPA-led HyFly , focused on a dual-mode demonstrator targeting 6+ speeds with fuels, suffered critical setbacks including two early flight failures unrelated to core but compounded by a February 2008 test where the engine failed to ignite properly due to and anomalies, crashing the vehicle short of objectives. These issues exposed persistent integration challenges between booster separation and transition, leading to cancellation around 2008 without transitioning to operational hardware, despite initial $92 million funding. Successor efforts to the X-51 Waverider, which itself endured multiple anomalies like a 2012 flight termination from control fin and incomplete scramjet power ramp-up, have faced protracted delays in scaling to weaponizable systems owing to unresolved vehicle-airframe integration and thermal-structural fatigue under repeated hypersonic exposures. U.S. reviews post-2013 cited these as primary impediments, stalling direct follow-ons and redirecting resources to modular testing amid recognition that holistic vehicle designs amplify modes beyond isolated engine validation. Across global scramjet endeavors, experimental records reveal ignition and thermal management as recurrent failure vectors, with supersonic transients often preventing stable flameholding due to millisecond-scale mixing limits and dissociation effects, as evidenced in peer-reviewed analyses of over 100 vitiated-air tests. Such empirical shortfalls have prompted shifts toward phased, subscale validation to mitigate risks inherent in coupled aero-thermo-chemical dynamics, contrasting with early programs' top-down ambitions that overlooked these causal constraints.

References

  1. [1]
    Scramjet Propulsion - NASA
    In the supersonic combustion ramjet, or scramjet, the losses associated with slowing the flow would be minimized and the engine could produce net thrust for a ...
  2. [2]
    [PDF] Case Studies in the History of Hypersonic Technology
    --within a decade, the capability to develop small air-launched scramjet or ducted rocket-powered hypersonic cruise missiles capable of reaching Mach 8, having ...
  3. [3]
    U.S. Hypersonic Weapons and Alternatives
    Jan 31, 2023 · But the first successful flight test of a scramjet did not occur until 2002, when Australia's HyShot aircraft flew for a few seconds on a ...Missing: key achievements
  4. [4]
    X-43A Hyper-X - NASA
    Jan 5, 2024 · The Hyper-X program significantly expanded the boundaries of air-breathing flight by being the first to fly a “scramjet”-powered aircraft at ...Missing: key | Show results with:key
  5. [5]
    X-51A Waverider > Air Force > Fact Sheet Display - AF.mil
    The X-51A made history during its first supersonic combustion ramjet-powered hypersonic flight May 26, 2010, off the southern California Pacific coast.
  6. [6]
    [PDF] HIFiRE: an international collaboration to advance the science and ...
    The emphasis of most hypersonic flight test activity over the past decade (e.g., X-43, X-51, and HyFly) has been on technology demonstrations rather than on ...
  7. [7]
    [PDF] Research and Development of Ram/Scramjets and Turboramjets in ...
    Dec 1, 1993 · The material in this publication was assembled to support a Lecture Series under the sponsorship of the Propulsion and Energetics Panel and the.
  8. [8]
    Hypersonic Weapons: Background and Issues for Congress
    Aug 27, 2025 · The United States has actively pursued the development of hypersonic weapons—maneuvering weapons that fly at speeds of at least Mach 5 ...Missing: achievements | Show results with:achievements
  9. [9]
    X-15 Hypersonic Research Program - NASA
    Feb 28, 2014 · This program investigated all aspects of piloted hypersonic flight. Data gained from the X-15 program contributed to the development of the ...Aircraft and Flights · Design and Development · Program History and... · The Aircraft
  10. [10]
    First Factory Rollout of the X-15 Hypersonic Rocket Plane - NASA
    Oct 13, 2023 · Air Force pilot Joe H. Engle joined the X-15 program in June 1963, completing 16 missions. He achieved his highest speed, Mach 5.71, on his 10th ...
  11. [11]
    [PDF] SenSational, iconic, groundbreaking. the X-15 hypersonic ... - NASA
    The X-15 was the fastest, highest-flying piloted plane, reached mach 6.70 and 354,200 ft, and first used simulation and full-pressure suits.
  12. [12]
    X-15 - Hypersonic Research at the Edge of Space - NASA
    Feb 24, 2000 · ... data on hypersonic air flow, aerodynamic heating, control and stability at hypersonic speeds, reaction controls for flight above the ...<|separator|>
  13. [13]
    [EPUB] X-15 Research Results - NASA
    The X-15 is the first airplane to push from supersonic speeds to hypersonic speeds, where the river of airflow heats leading edges to 1300° F. It provided the ...
  14. [14]
    [PDF] The X-15 airplane - Lessons learned
    Over a 9-yr period, the three X-15 air- planes flew almost 200 flights and made major contribu- tions to the understanding of aerodynamic heating, hyper- sonic ...
  15. [15]
    Chapter 6 The X-15 Hypersonic Flight Research Program - NASA
    The X-15 research airplane, which contributed valuable research information in the supersonic and hypersonic speed regime up to the fringes of space.
  16. [16]
    [PDF] preliminary results of aerodynamic heating studies
    One of the primary purposes of the X-15 program is the measurement and analysis of the aerodynamic heating of the airplane in actual flight.
  17. [17]
    [PDF] History of Ramjet and Scramjet Propulsion Development for U.S. ...
    In this article we summarize programs to develop surface-launched and air-launched subsonic combus- tion ramjets and scramjets. Table 1 shows the evolu- tionary ...
  18. [18]
    [PDF] THE BEGINNING OF HYPERSONIC RAMJET RESEARCH AT APL
    Part II, to be published separately, will focus on the research carried out in the 1960s and 1970s on supersonic-combustion ramjets (Scramjets) and in par-.
  19. [19]
    [PDF] NSIAD-91-194 Aerospace Plane Technology
    The National Aero-Space Plane Program, expected to cost more than $5 billion between fiscal years 1986 and 1997, is a joint Department of Defense/National ...
  20. [20]
    [PDF] The National Aero-Space Plane
    The National Aero-Space Plane (NASP) program is a research effort funded by the Department of. Defense (DoD), the National Aeronautics and Space. Administration ...Missing: initiation | Show results with:initiation
  21. [21]
    [PDF] THE NATIONAL AERO-SPACE PLANE Bruce Mendez "Now leaving ...
    At the conclusion of the. 42-month contract period designed to validate the applicability of the new high-risk technology required for the development of the ...Missing: history initiation date
  22. [22]
    [PDF] THE NATIONAL AEROSPACE PLANE PROGRAM
    The NASP program has been carefully orchestrated to achieve the technological advances and integration need- ed to accomplish the goals of the X-30. Five key ...Missing: history date cancellation
  23. [23]
    [PDF] Technology Issues Associated With Fueling the National Aerospace ...
    Both the fuel cooling capacity and density are increased with the use of slush hydrogen and result in significant reductions in size of the vehicle. A national.Missing: scramjet fueled
  24. [24]
    US5485787A - Gas gun launched scramjet test projectile
    A gas gun-launched, propulsion-assisted scramjet projectile adapted to be fired from a gun, preferably at velocities greater than Mach 5.Missing: GASL | Show results with:GASL
  25. [25]
    Hypersonic Scramjet Projectile Flys - Space Daily
    The tests used Arnold Engineering Development Center's two-stage light gas gun to accelerate the projectile to the flight condition through a 130-foot long gun ...Missing: experiments | Show results with:experiments
  26. [26]
    Hypersonics - Northrop Grumman
    GASL performs first shock tunnel tests of hypersonic combustion and builds earliest-known scramjet test complex on Long Island. Northrop Grumman supports the ...
  27. [27]
    A Burning Question | American Scientist
    A little more than a year before, engineers from GASL, a New York company, had successfully flight-tested a scramjet-powered projectile at Arnold Air Force Base ...
  28. [28]
    [PDF] IAF-97-V.4.07 The NASA Hyper-X Program
    The NASA Hyper-X Program employs a low cost approach to design, build, and flight test a series of small, airframe-integrated scramjet powered research vehicles ...
  29. [29]
    [PDF] Overview With Results and Lessons Learned of the X-43A Mach 10 ...
    This paper provides an overview of the final flight of the NASA X-43A project. The project consisted of three flights, two planned for Mach 7 and one for ...Missing: details achievements
  30. [30]
    [PDF] The X-43A Flight Research Program: Lessons Learned on the Road ...
    Although wind-tunnel scramjet engine tests had begun in the late 1950s, before the Hyper-X program there had never been an actual in-flight test of such an ...
  31. [31]
    [PDF] Horizontal Launch - NASA Technical Reports Server (NTRS)
    Flexible aerospace System Solution for transformation (FaSSt) rocket. 5b. Page 23. Prescreening. 9. A VERSATILE CONCEPT FOR ASSURED SPACE ACCESS. 12. New ...
  32. [32]
    [PDF] Modeling and Optimization of TBCC Engine Performance
    “Flexible Aerospace System Solution for Transformation” (FASST) concept is similar to the ICM-3, except utilizing a turbojet-powered 1st-stage and RBCC ...
  33. [33]
    Fully Integrated Scramjet Missile Engine Tested at Mach 6.5
    Jun 12, 2002 · The objective of the HyFly program is to flight-test a missile demonstrator able to cruise at speeds of up to Mach 6 to a range of 600 nautical ...Missing: cancellation | Show results with:cancellation
  34. [34]
    Hypersonics Flight Demonstration program (HyFly)
    Jul 7, 2011 · The objective of the HyFly program is to mature the Dual Combustion Ramjet (DCR) hypersonic missile concept. ... scramjet missile engine.Missing: mode | Show results with:mode
  35. [35]
    APL Technology Cornerstone of First Fully Integrated Hypersonic ...
    Jun 17, 2002 · The APL-invented Dual Combustion Ramjet (DCR) engine concept being tested forms the basis for a hypersonic strike missile concept being ...Missing: launched | Show results with:launched
  36. [36]
    Boeing HyFly - Designation-Systems.Net
    Nov 23, 2009 · The sustainer engine of HyFly is a so-called dual-combustion ramjet (DCR). ... hypersonic speeds – as a "scramjet" (supersonic cumbustion ramjet).Missing: mode | Show results with:mode
  37. [37]
    Boeing's HyFly hypersonic missile fails in bid for Mach 6 - FlightGlobal
    Feb 11, 2008 · An attempt to fly a hypersonic cruise missile demonstrator at Mach 6 has failed, after the scramjet engine powering Boeing's HyFly malfunctioned.
  38. [38]
    Ordinary-fuel scramjet prototype suffers test failure - The Register
    Feb 7, 2008 · An innovative hypersonics programme has suffered a failure, with a prototype scramjet missile failing to perform properly and crashing into the Pacific.Missing: details cancellation
  39. [39]
    HyFly | Secret Projects Forum
    Dec 18, 2006 · DARPA had then considered cancelling the program (which was stupid IMO because neither failure had anything to do with what the vehicle was ...DARPA/Boeing X-51A WaveRider | Page 3 | Secret Projects ForumDARPA Long Range Anti-ship Missile (LRASM)More results from www.secretprojects.co.uk
  40. [40]
    Boeing, Pratt & Whitney Rocketdyne, AFRL, and DARPA partner on ...
    May 17, 2013 · The X-51A program is a collaborative effort of the U.S. Air Force Research Laboratory (AFRL), the Defense Advanced Research Projects Agency ...
  41. [41]
    [PDF] X-51A Scramjet Demonstrator Program: Waverider Ground ... - DTIC
    The successful launch of the longest air-breathing scramjet flight in history was due to the lessons learned during PF1 through PF3. The four live launches.Missing: achievements | Show results with:achievements
  42. [42]
    X-51 Scramjet Engine Demonstrator-WaveRider (SED-WR)
    May 1, 2013 · Each flight vehicle will consist of one Pratt & Whitney scramjet engine, based on technology developed under AFRL/PR's Hydrocarbon Scramjet ...Missing: FASST | Show results with:FASST
  43. [43]
    X-51 Waverider makes historic hypersonic flight
    May 26, 2010 · The previous longest scramjet burn in a flight test was 12 seconds in a NASA X-43. The X-51 launched about 10 a.m. Wednesday from Edwards Air ...
  44. [44]
    Modified X-51A Waverider ready for next hypersonic test - AF.mil
    Mar 16, 2011 · The vehicle failed to accelerate as quickly as anticipated and the flight test had to be terminated after 143 seconds under scramjet power. A ...
  45. [45]
    Test flight of hypersonic X-51A aircraft ends in failure
    Aug 15, 2012 · A closely watched test flight of an experimental aircraft designed to travel up to 3,600 mph ended in disappointment when a part failed, ...
  46. [46]
    Boeing X-51A WaveRider Sets Record with Successful 4th Flight
    May 3, 2013 · The vehicle reached Mach 5.1 powered by its supersonic combustion scramjet engine, which burned all its JP-7 jet fuel. The X-51A made a ...Missing: results | Show results with:results
  47. [47]
    Air Force's X-51A hypersonic aircraft sets record during its final test
    May 3, 2013 · The 14-foot-long (4.3-meter-long), scramjet-powered vehicle hit a top speed of Mach 5.1 during just over six minutes of flight on May 1, the Air Force said.Missing: JP- | Show results with:JP-
  48. [48]
    X-51A Achieves Successful Combustion on JP-7
    Jun 7, 2007 · The X-1 successfully completed its first ignition on ethylene fuel and transition to JP-7-only operation at Mach 5 simulated flight conditions.Missing: silane | Show results with:silane
  49. [49]
    X-51A to demonstrate first practical scramjet | News | Flight Global
    Jul 19, 2007 · Jet fuel will then be introduced, the engine initially burning the JP-7 along with ethylene to boost acceleration then transitioning to jet fuel ...Missing: silane | Show results with:silane
  50. [50]
    HAWC: Hypersonic Air-breathing Weapon Concept - DARPA
    The program intends to emphasize efficient, rapid and affordable flight tests to validate key technologies. HAWC plans to pursue flight demonstrations to ...Missing: 2021 | Show results with:2021
  51. [51]
    DARPA'S Hypersonic Air-breathing Weapon Concept (HAWC ...
    Sep 27, 2021 · The HAWC flight test data will help validate affordable system designs and manufacturing approaches that will field air-breathing hypersonic ...Missing: 2022 | Show results with:2022
  52. [52]
    Third Test Flight for DARPA's HAWC Yields New Performance Data
    Jul 18, 2022 · The HAWC flight test data will help validate affordable system designs and manufacturing approaches that will field air-breathing hypersonic ...Missing: details | Show results with:details
  53. [53]
    DARPA Completes Final Hypersonic Airbreathing Weapon Concept ...
    Feb 7, 2023 · According to DARPA, the missile achieved speed, altitude and range similar to the ones reached by Lockheed Martin's variant of the missile. The ...Missing: details | Show results with:details
  54. [54]
    Next-Generation Scramjet Delivers Hypersonic Propulsion That ...
    Northrop Grumman's next-generation scramjet engine helps solve those challenges. It has already propelled a Hypersonic Air-breathing Weapons Concept (HAWC) ...Missing: 2023-2025 | Show results with:2023-2025
  55. [55]
    Air-breathing hypersonic weapon delivers value and performance
    Jun 8, 2022 · Scramjet-powered hypersonics are designed and built leveraging the digital thread and additive manufacturing, or 3D printing. “Digital design ...
  56. [56]
    Hypersonic Attack Cruise Missile (HACM) - HigherGov
    The program aims to provide the United States with the ability to hold fixed, high-value, and time-sensitive targets at risk in contested environments, ...
  57. [57]
    Air Force Will Soon Fire Mach 5 HACM Hypersonic Missile from ...
    Aug 20, 2025 · ... (HACM), the Mach 5 scram-jet designed to enable precision, high-speed hypersonic air attack from fighter jets or even armed drones in the future.
  58. [58]
    Air Force announces hypersonic missile contract award - AF.mil
    Sep 22, 2022 · The Air Force awarded Raytheon Missiles and Defense a $985,348,124 contract to develop and demonstrate Hypersonic Attack Cruise Missile ...Missing: details | Show results with:details
  59. [59]
    [PDF] GAO-24-106792, HYPERSONIC WEAPONS: DOD Could Reduce ...
    Jul 29, 2024 · The Army delayed delivery—planned for fiscal year 2023—to at least late fiscal year 2024 due to difficulties discovered in flight testing.
  60. [60]
    Hypersonics | Raytheon - RTX
    Mach 5 — covering vast distances in minutes. Hard to stop, they fly and nimbly maneuver ...
  61. [61]
    GAO warns that Air Force's hypersonic cruise missile program is ...
    a two percent increase from the watchdog's 2024 ...
  62. [62]
    HACM Flight Tests Expected in Fiscal '26 After Yearlong Delay
    Aug 18, 2025 · The first flight of the Hypersonic Attack Cruise Missile (HACM) isn't expected until October 2025, according to Air Force budget documents.
  63. [63]
    GAO Highlights Delays in Air Force Hypersonic Cruise Missile ...
    Jun 12, 2025 · Delays in the Air Force's Hypersonic Attack Cruise Missile design hinder flight tests, pushing operational capabilities to fiscal 2027.
  64. [64]
    'Mayhem' Will Be Larger, Multi-Role Air-Breathing Hypersonic ...
    Aug 19, 2020 · The engine will be a scramjet, or supersonic-combustion ramjet. The Air Force may award two novel “multiple-award (indefinite delivery, ...
  65. [65]
    New Hypersonic Strike-Recon Aircraft Effort Eyeing Prototype ...
    Feb 20, 2025 · The launch of the Next Generation Responsive Strike effort follows uncertainty around a previous hypersonic aircraft program called Mayhem.
  66. [66]
    Future Of Mayhem Hypersonic Strike-Recon Aircraft Program Murky
    Feb 16, 2024 · The future of the U.S. Air Force's secretive Mayhem program is uncertain amid a funding issue that could at least lead to a major delay.
  67. [67]
    Pentagon awards Kratos megadeal worth nearly $1.5B for new ...
    Jan 6, 2025 · First initiated by the Navy in 2022, the MACH-TB program intends to create new, low-cost options for testing hypersonic technologies in order to ...
  68. [68]
    Kratos Clinches $1.45B Deal to Provide US Hypersonic Testbed
    Jan 8, 2025 · The US Department of Defense's MACH-TB program was first launched in 2022 to enhance the country's hypersonic capabilities across the armed ...
  69. [69]
    US military flies Talon-A reusable hypersonic test vehicle
    May 6, 2025 · Talon-A test flights are the first time a reusable hypersonic aircraft has been flown in the USA for more than 50 years.Missing: DARPA | Show results with:DARPA
  70. [70]
    https://www.defensemirror.com/news/39432
  71. [71]
    US military taps commercial space firms for hypersonic testing ...
    Mar 6, 2025 · A private equity firm in 2019 acquired Stratolaunch and shifted its focus to hypersonic flight testing, a move that aligned with growing military demand.Missing: DARPA | Show results with:DARPA<|separator|>
  72. [72]
    HyShot program secures place in flight history - UQ News
    Aug 16, 2002 · The aim of the HyShot™ program is to provide the world's first in-flight tests of scramjet technology, validating experiments held in ground ...
  73. [73]
    https://www.abc.net.au/science/articles/2002/07/31/635502.htm
  74. [74]
    [PDF] HyShot-T4Supersonic Combustion Experiments
    The scramjet will be accelerated to Mach 8 using a Terrier-Orion sounding rocket. ... Experiments in the T4 shock tunnel used a nozzle with a Mach number of 6.5.
  75. [75]
    [PDF] Flight Data Analysis of the HYSHOT Flight #2 Scramjet
    During this three second window, starting at t = 537.5 seconds, the Mach number remained between M = 7.75 and 8.0, which is slightly higher than the maximum ...
  76. [76]
    Flight Data Analysis of the HyShot 2 Scramjet Flight Experiment
    The observed jagged appearance of the Mach number time history during the experimental window is believed to be due to lack of conditioning of the accelerometer ...
  77. [77]
    HyShot experiment significance - UQ News
    Jul 27, 2002 · HyShot experiment significance. 27 July 2002. The HyShot experiment involves the world's first flight tests using supersonic combustion. UQ ...Missing: details | Show results with:details
  78. [78]
    https://www.abc.net.au/science/articles/2006/03/23/1598255.htm
  79. [79]
    HIFiRE program | DST - Defence Science and Technology Group
    It aims to explore the fundamental science of hypersonics and the potential for next generation aeronautical systems. Hypersonic flight is flight through the ...
  80. [80]
    AFRL Advances Hypersonic Research Through HIFiRE
    May 23, 2013 · The ultimate goal of HIFiRE is to give researchers the information and tools necessary to achieve practical and affordable hypersonic flight, an ...
  81. [81]
    Hypersonic flight test a success - Defence Ministers
    Jul 10, 2017 · “The experimental flight took place at the Woomera Test Range, South Australia and was part of a joint research program conducted by DST ...Missing: scramjet 2009-2017
  82. [82]
    Joint australia us hypersonic flight research trialled
    This latest flight experiment, known as HIFiRE-7, was conducted to determine how scramjet engines start up at high altitudes and to measure how much thrust is ...
  83. [83]
    [PDF] HIFiRE Direct-Connect Rig (HDCR) Phase I Scramjet Test Results ...
    Flow features such as shocks from the forebody/inlet processing, boundary layer thickness, surface temperatures, and test gas composition are known differences ...
  84. [84]
    Hypersonic Technology Demonstration Vehicle (HSTDV)
    Sep 13, 2021 · DRDO successfully demonstrated the hypersonic air-breathing scramjet technology with the flight test of Hypersonic Technology Demonstration ...Missing: details | Show results with:details
  85. [85]
    India Conducts First Flight Test of Hypersonic Vehicle - Missile Threat
    Jun 13, 2019 · On June 12, India flight tested its Hypersonic Technology Demonstrator Vehicle (HSTDV) off the Odisha coast.Missing: exact | Show results with:exact
  86. [86]
    Hypersonic Technology Demonstrator Vehicle
    Sep 7, 2020 · The hypersonic cruise vehicle was launched using a proven solid rocket motor, which took it to an altitude of 30 kilometres (km), where the ...
  87. [87]
    India successfully flight-tests Hypersonic Technology Demonstration ...
    Sep 7, 2020 · ... DRDO's HSTDV was successfully flight-tested on 7 September. (DRDO). Following separation from the carrier vehicle, the 5.6 m-long HSTDV ...Missing: exact date
  88. [88]
    India test-flies Hypersonic Technology Demonstrator Vehicle - Janes
    Feb 2, 2023 · The HSTDV was tested for the third time with the current test. The first test flight of the HSTDV took place in June 2019. An Agni-1 short-range ...Missing: 2016 | Show results with:2016<|separator|>
  89. [89]
    DRDO conducts Scramjet Engine Ground Test
    DRDL recently developed these technologies and demonstrated a cutting-edge Active Cooled Scramjet Combustor ground test for 120 seconds for the ...
  90. [90]
    DRDO conducts Scramjet Engine Ground Test - ASDNews
    Jan 21, 2025 · DRDL recently developed these technologies and demonstrated a cutting-edge Active Cooled Scramjet Combustor ground test for 120 seconds for the ...
  91. [91]
    How DRDO's recent scramjet test puts India firmly in the hypersonic ...
    Jan 25, 2025 · On September 7, 2020, DRDO successfully demonstrated the hypersonic air-breathing scramjet technology with the flight test of the Hypersonic ...Missing: program | Show results with:program
  92. [92]
    DRDO achieves significant milestone in Scramjet Engine ... - PIB
    Apr 25, 2025 · The ground-test is in continuation of the earlier test reported for 120 seconds in January 2025. With the successful test, the system will be ...
  93. [93]
    Significance of India's 1000-Second Scramjet Engine Test - Idrw.org
    Apr 29, 2025 · On April 25, 2025, the Defence Research and Development Organisation (DRDO) achieved a groundbreaking milestone by conducting a scramjet ...
  94. [94]
    How India's new hypersonic missile can outrun any advanced air ...
    Jul 16, 2025 · In November 2024, DRDO ran a 1,000-second ground test of this scramjet, proving it could handle the extreme heat and speed. The missile can ...
  95. [95]
    India DRDL extended scramjet test - Air Force Technology
    Apr 28, 2025 · India's DRDL has executed an extensive ground test of an active cooled scramjet subscale combustor, surpassing 1000 seconds of operation.<|control11|><|separator|>
  96. [96]
    India Set To Outpace US & China In Air-Breathing Hypersonic Tech ...
    Apr 28, 2025 · Through the HSTDV program, the DRDL successfully overcame most of the critical challenges associated with hypersonic flight, except the problem ...
  97. [97]
    China's Hypersonic Missiles: Methods and Motives - Jamestown
    Jul 30, 2021 · Other organizations heavily involved in hypersonics research include the Chinese Academy of Sciences Institute of Mechanics (中国科学院力学 ...Missing: CBM 1990s
  98. [98]
    Introduction | SpringerLink
    Jan 23, 2020 · During the research, in order to make inlet model as big as possible with the existing 187 × 300 wind tunnel of Institute of Mechanics, the ...
  99. [99]
    Pilot hydrogen enhanced combustion in an ethylene-fueled scramjet ...
    Jan 5, 2021 · This paper describes a numerical and experimental investigation of the combustion process in an ethylene-fueled scramjet combustor.
  100. [100]
    Numerical investigation on shock train control and applications in a ...
    Different factors which help to control the shock train in the scramjet isolator and combustor were analyzed via numerical investigations.Missing: early | Show results with:early
  101. [101]
    China Conducts Test for an Unidentified Hypersonic Missile - TURDEF
    Sep 29, 2025 · A civilian-recorded footage of a hypersonic missile test involving a visibly straight trajectory was shared on the Chinese social media ...Missing: 2020s | Show results with:2020s
  102. [102]
    China's secretive hypersonic test leaves unusual doodle-like plume
    Oct 1, 2025 · China has conducted a noticeable twilight missile test aimed at signaling rather than keeping it secret. On September 29, around 6 pm local ...
  103. [103]
    Chinese Hypersonic Vehicle Programmes - Grey Dynamics
    Experts expect a range of 700-800 km/h [source]. By the mid-2020s, it is expected to be adopted as an anti-ship cruise missile [source]. To date, the Xingkong- ...
  104. [104]
    Research progress on solid-fueled Scramjet - ScienceDirect.com
    This paper presents a comprehensive and systematic review of the research progress on solid-fueled Scramjet in various institutes and universities.
  105. [105]
    Progress and Development of Solid-Fuel Scramjet Technologies
    The solid-fuel scramjet has become a potential power device for hypersonic missiles in the future and has important military application prospects due to ...
  106. [106]
    China tests a hypersonic afterburner, doubling thrust at Mach 6
    Mar 24, 2025 · Researchers have developed an innovative secondary combustion technique to help China win the global hypersonic race.Missing: 2020s | Show results with:2020s
  107. [107]
    P-750 Grom / Kh-90 - GlobalSecurity.org
    Oct 16, 2018 · The GELA was probably linked to the Kh-90 air-launched cruise missile program. As the carrier hypersonic X-90 acts as a strategic bomber Tu-160M.
  108. [108]
    The GELA hypersonic experimental aircraft was presented at the ...
    Aug 22, 2023 · On the basis of the Kh-90 missile project, an experimental hypersonic vehicle, the GELA, was created in the late 1980s and early 1990s.
  109. [109]
    https://www.russianspaceweb.com/kholod.html
  110. [110]
    [PDF] Recent Flight Test Results of the Joint CIAM- NASA Mach 6.5 ...
    Apr 27, 1998 · The primary program objective was the flight-to-ground correlation of measured data with preflight analysis and wind-tunnel tests in Russia and.
  111. [111]
    3M22 Zircon - Missile Defense Advocacy Alliance
    Quick Facts ; Range, 1,000 km ; Warhead Type and Weight, Unknown ; MIRV and Yield, Unknown ; Guidance System/Accuracy, Active and Passive Radar Seeker; Unknown.
  112. [112]
    3M22 Zircon SS-N-33 - Army Recognition
    Aug 25, 2025 · The Zircon has an estimated length of 9 meters (30 feet) and a diameter of 60 cm (24 inches), with an estimated weight of between 3,000 and 4, ...
  113. [113]
    Russia's hypersonic missile with 6,835 mph top speed breaks cover
    Dec 5, 2024 · The 3M22 Zircon, also NATO-coded as SS-N-33, is capable of reaching hypersonic speeds of Mach 9 (around 6,835 mph). This extreme speed allows ...
  114. [114]
    Zircon Missile, Features, Speed, Capacity, Latest News
    Sep 15, 2025 · The 3M22 Zircon, or SS-N-33, is a scramjet-powered maneuvering anti-ship hypersonic cruise missile developed in Russia.
  115. [115]
    Russia showcases hypersonic weapons during Zapad 2025 drills
    Sep 15, 2025 · Powered by a scramjet engine, the 3M22 Zircon is designed as an anti-ship cruise missile capable of reaching speeds up to Mach 9, or more ...Missing: specifications | Show results with:specifications
  116. [116]
    Russia's Zircon Hypersonic Missiles Now Deployed On Frigate ...
    Jan 4, 2023 · The Russian Navy's first Project 22350 frigate, the Admiral Gorshkov, has set out on a deployment armed, in part, with new Zircon hypersonic ...Missing: date | Show results with:date
  117. [117]
    Russia orders additional Tsirkon hypersonic missiles - Naval News
    Nov 15, 2022 · The Russian Defense Ministry has ordered several dozen additional 3M22 Tsirkon hypersonic missiles for the Russian Armed Forces.
  118. [118]
    Russia Launches First Sub with Zircon Hypersonic Missiles
    May 7, 2025 · The Perm will be the first Russian nuclear submarine to be equipped with 3M22 Zircon hypersonic cruise missiles.
  119. [119]
    Is the engine of 3M22 Zircon truly scramjet? - Aviation Stack Exchange
    Sep 8, 2023 · At 2000 kg, the second stage might include 800 kg fuel, 600 kg airframe+engine, 400 kg warhead, and 200 kg guidance. That version is consistent ...
  120. [120]
    The Zircon: How Much of a Threat Does Russia's Hypersonic Missile ...
    Jan 24, 2023 · It could also be the case, as Russian officers have claimed, that the fuel mix on the Zircon is vastly more efficient than other missiles. That ...Missing: mode kerosene
  121. [121]
    Russia uses Zircon hypersonic missile in Ukraine for first time ...
    Feb 12, 2024 · A preliminary analysis concluded that Russia hit Kyiv last week with the hypersonic Zircon missile, its first use in the nearly two-year-old war.
  122. [122]
    Our Best Look At Russia's Shadowy Zircon Hypersonic Missile
    Dec 4, 2024 · Its maximum range is said to be 180 miles, although this is greatly reduced when flying a low-altitude profile. Mockup of Yakhont missile at ...
  123. [123]
    Zircon: Russia's Hypersonic Naval Powerhouse - SOFREP
    Jun 10, 2024 · It has a jet engine that relies on forward motion to drive air into the combustion chamber, at supersonic speed, and mix it with fuel for ...
  124. [124]
    [PDF] Research on Supersonic Combustion and Scramjet Combustors at ...
    An overview of selected ONERA research activities on supersonic combustion and scramjet propulsion for civilian applications since 1992 is presented.
  125. [125]
    French achieve equivalent of Mach 7.5 in scramjet tests - FlightGlobal
    Jan 12, 1999 · The Prepha engine, tested at ground level at Onera's Chatillon facility near Paris, ran at 2,400K (2,127°C), which Novelli says is " ...<|separator|>
  126. [126]
    A98-27897 Scramjet Combustor Design in French PREPHA program
    In the scope of the PREPHA program,. AEROSPATIALE, ONERA, SEP, SNECMA are working together on research concerning supersonic combustion and hydrogen-fueled.
  127. [127]
    [PDF] chapter 1: overview of nato background on scramjet technology
    In France, after the end of the National PREPHA program, MBDA-F and ONERA have taken the initiative in starting further works to preserve the intellectual and ...
  128. [128]
    [PDF] Dual-Mode Ramjet Technology Status of R&T effort led in France
    During the 20 last years, a large Research and. Technology effort has been led by MBDA and. ONERA to develop knowledge on high-speed air.
  129. [129]
    Air-Sol Moyenne Portée (ASMP/ ASMP-A) | Missile Threat - CSIS
    The Air-Sol Moyenne Portée (ASMP/ ASMP-A) is an air-launched land-attack cruise missile that carries a nuclear payload. It is a central component of France's ...
  130. [130]
    ONERA Potential for Scramjet Ground Testing up to Mach 12
    ... scramjet up to around Mach. 12 [2][3][4][5][6]. Existing facilities, mostly developed during the PREPHA, can today be used in France for direct connect tests ...
  131. [131]
    Scramjet Will Power France's Next Nuclear Missile - Aviation Week
    Apr 4, 2019 · A supersonic-combustion ramjet will power a future hypersonic cruise missile planned to replace France's current air-launched nuclear deterrent.Missing: enhancements | Show results with:enhancements
  132. [132]
    France to equip Rafale fighters with hypersonic nuclear missiles
    Mar 19, 2025 · The ASN4G is a fourth-generation air-to-surface hypersonic nuclear missile which will offer enhanced stealth and maneuverability.
  133. [133]
    French Air Force launches first upgraded nuclear missile - AeroTime
    May 28, 2024 · The ASMPA-R program is designed to strengthen France's nuclear deterrent capabilities and ensure the credibility of the air-launched nuclear ...
  134. [134]
    France Plans New Warhead to Equip ASN4G Missile - Aviation Week
    May 6, 2025 · A new nuclear warhead will equip France's new-generation, air-launched missile, documents related to the country's 2025 defense budget have revealed.
  135. [135]
    [PDF] The High Enthalpy Shock Tunnel Göttingen of the German ...
    Oct 31, 2018 · Examples are Mach-Reynolds number simulation in cold hypersonic ground based test facilities, verification and qualification of hot structures ...
  136. [136]
    (PDF) Numerical Validation of a Free-Flying Scramjet Powered ...
    May 26, 2015 · Details regarding the numerical modelling of the flow past the complete and the truncated SSFE configuration (see Figure 1) in HEG free ...
  137. [137]
    Investigation of Two-Dimensional Scramjet Inlet Flowfield at Mach 7
    Investigation of Two-Dimensional Scramjet Inlet Flowfield at Mach 7. J. Häberle and; A. Gülhan. J. Häberle. German Aerospace Center (DLR), 51147 Cologne, ...Missing: program | Show results with:program
  138. [138]
    [PDF] Transient Fluid-Combustion Phenomena in a Model Scramjet
    All experiments were carried out in the HEG (High Enthalpy shock tunnel, Göttingen) facility of the German Aerospace Center (DLR). The HEG is a reflected ...
  139. [139]
    Transient fluid-combustion phenomena in a model scramjet
    Mar 28, 2013 · Both experiments and computations indicate that the primary mechanism responsible for the transient behaviour is thermal choking, though ...
  140. [140]
    Free Flight Testing of a Scramjet Engine in a Large Scale Shock ...
    Jul 2, 2015 · Free Flight Testing of a Scramjet Engine in a Large Scale Shock Tunnel. Klaus Hannemann,; Jan Martinez Schramm,; Sebastian Karl and ...
  141. [141]
    [PDF] Testing of DLR C/C-SiC for HIFiRE 8 Scramjet Combustor
    HIFiRE 8 Objective is to demonstrate 30 seconds of horizontal scramjet powered flight at Mach 7 and 1000 psf (55 kPa) dynamic pressure.Missing: SACH | Show results with:SACH
  142. [142]
    [PDF] German Test Facilities for High Speed Air Breathing Propulsion
    The dual mode scramjet is one option for a new and advanced type of engine to be operated at flight Mach numbers up to M = 8 and above. The efficiency gains of ...
  143. [143]
    ESA - LAPCAT II - European Space Agency
    LAPCAT II is a logical follow-up of the previous, co-funded EC-project LAPCAT I, whose objective was to reduce the duration of antipodal flights.
  144. [144]
    Post-test analysis of the LAPCAT-II subscale scramjet
    Mar 19, 2020 · The European Commission co-funded research project LAPCAT-II [1] explored technological fundamentals of hypersonic air transport. It was found ...
  145. [145]
    ESA - LAPCAT II overview - European Space Agency
    LAPCAT II is a logical follow-up of the previous, co-funded EC-project LAPCAT I, whose objective was to reduce the duration of antipodal flights.
  146. [146]
    Sizing of scramjet vehicles - NASA/ADS
    The current European project LAPCAT II has the ambitious goal to define a conceptual vehicle capable of achieving the antipodal range Brussels-Sydney ...
  147. [147]
    Main Challenges and Goals of the H2020 STRATOFLY Project
    May 29, 2021 · This paper aims at summarizing the main challenges and goals of the STRATOFLY project, highlighting the steps forward with respect to the past European ...
  148. [148]
    STRATOFLY - Dreaming big about future of sustainable – and fast!
    The EU-funded STRATOFLY project proposed: a Mach 8 airliner – a hypersonic aircraft that can go at least 9 500 kilometres per hour, or about eight times the ...Missing: scramjet | Show results with:scramjet
  149. [149]
    [PDF] DEMETHRA - Defence Industry and Space - European Union
    DEMETHRA will investigate three novel scramjet technologies towards a realistic hypersonic vehicle and address the challenges of the supersonic combustion ...
  150. [150]
    Multi-bubble scheme and structural analysis of a hypersonic ...
    The STRATOFLY MR3 vehicle is the main objective of the STRATOFLY project, which aims to develop a hypersonic air breathing concept capable of covering ...
  151. [151]
    Japan's ATLA Developing Hypersonic Anti-Ship Missile - Naval News
    Apr 27, 2020 · The missile aims to be powered by a Dual-Mode Scramjet engine (DMSJ), a combination of ramjet and scramjet (supersonic combustion ramjet) ...Missing: island China
  152. [152]
    Hypersonic Cruise Missile (HCM) / Hyper Velocity Gliding Projectile ...
    Jun 7, 2021 · A hypersonic dual-mode scramjet missile is being developed by Japan, capable of flying five times the speed of sound (Mach 5).
  153. [153]
    Ground-based hypersonic weapons: programmes and development
    Oct 15, 2024 · ATLA has awarded MHI a contract to develop a prototype dual-mode scramjet engine for the weapon's propulsion system. According to ATLA, both ...
  154. [154]
    Japan Says Scramjet Test Yielded Positive Results - Aviation Week
    Mar 16, 2023 · TOKYO—Japan has managed to attain “net-positive thrust” for the scramjet engine that will power its future hypersonic missile.
  155. [155]
    DSEI Japan 2023: Japan accelerates hypersonic missile programme
    Mar 15, 2023 · Japan's Acquisition, Technology & Logistics Agency (ATLA) is accelerating the development of its proposed scramjet-powered hypersonic anti-ship missile.
  156. [156]
    JGSDF Show Ground Launched Hypersonic Strike Missile
    Jun 24, 2025 · Japan is also developing the HCV – Hypersonic Cruise Missile powered by a scramjet engine for even longer-range at higher Mach speeds and ...
  157. [157]
    Investigation of scramjet inlet unstart/restart behavior induced by ...
    Jun 9, 2025 · Unstart disrupts the supersonic airflow entering the scramjet inlet, causing a substantial reduction in the air mass flow needed for combustion ...INTRODUCTION · Scramjet inlet design · Visualizations of the unstart...
  158. [158]
    Numerical study on the start and unstart phenomena in a scramjet ...
    Nov 7, 2019 · The inlet unstart problem is well known to be one of the main causes of various scramjet engine flight test failures [3–6]. Therefore, ...
  159. [159]
    Novel Control of Supersonic Combustion Instability Via Weakly ...
    Apr 28, 2025 · Combustion instability is a critical challenge in the design of scramjet engines. In the process of studying this issue, a novel combustion ...
  160. [160]
    Scramjet Diagnostics - Hanson Research Group - Stanford University
    However, there are several significant unsolved engineering challenges associated with controlling supersonic combustion in scramjet combustors. In the ...
  161. [161]
    [PDF] Investigation of “6X” Scramjet Inlet Configurations
    An unstart condition is where the initial oblique shock significantly passes ahead of the cowl leading edge, thereby lowering the incoming velocity and ...
  162. [162]
    Computational Analysis of Unstart in Variable-Geometry Inlet
    Jan 20, 2021 · The unstart process is a very violent and rapid transient process that significantly reduces the engine performance and can be detrimental to ...
  163. [163]
    Thermal Behavior Inside Scramjet Cooling Channels at Different ...
    Thermal protection is a significant challenge for advanced engines used to power aircraft, rockets, and missiles, especially the scramjet engine. Regenerative ...
  164. [164]
    Heat Management in Supersonic/Hypersonic Vehicles Using ...
    Sep 29, 2021 · A scramjet engine at hypersonic speed warrants stringent cooling requirements to manage its thermal load. ... heat exchanger materials and ...
  165. [165]
    [PDF] Comparison of Several Global Mixing Performance Metrics for High ...
    Enhancing the rate at which fuel and air mix is of paramount importance because it is the rate-limiting step of the combustion process in a scramjet engine [3].
  166. [166]
    Numerical investigation on hydrogen mixing enhancement in a ...
    Oct 16, 2025 · This backflash manifested as transient upstream detonation waves, indicating the flame propagating upstream into the inlet. ... DLR scramjet ...
  167. [167]
    [PDF] AN ANALYSIS BASED ON FIRST PRINCIPLES
    At higher hypersonic speeds (Mach >5), real gas effects such as dissociation and ionization of the molecular constituents of the air are coming into play ...
  168. [168]
    Numerical simulation on the combustion characteristics of scramjet ...
    To investigate the problem of ethylene jet mixing and combustion in the scramjet at high Mach number (Ma = 8), numerical simulations were carried out for ...
  169. [169]
    [PDF] CHAPTER 6: FUEL-AIR MIXING AND COMBUSTION IN SCRAMJETS
    Air exchange rates with the cavity may be low, however, limiting the amount of fuel that can be added. Additional scramjet fuel injector designs continue to be ...Missing: limitations | Show results with:limitations
  170. [170]
    Hypersonic Weapons: DOD Could Reduce Cost and Schedule ...
    Jul 29, 2024 · This report addresses the extent to which DOD's hypersonic efforts are: (1) employing leading practices for product development, (2) identifying ...
  171. [171]
    Hypersonic weapons are mediocre. It's time to stop wasting money ...
    Mar 12, 2024 · ” This analysis also showed that hypersonic weapons “could cost one-third more to procure and field than ballistic missiles of the same ...
  172. [172]
    Hypersonic Overhype - RealClearDefense
    Feb 4, 2025 · A 2023 analysis by the Congressional Budget Office found that hypersonics could cost the U.S. government one-third more to field than ...
  173. [173]
    Hypersonic Missiles: A New Proliferation Challenge
    Mar 26, 2018 · Because of the challenges associated with the technology, this embargo could limit hypersonic missiles to the Big Three for many years. In fact, ...
  174. [174]
    Mach 20 or Bust - Smithsonian Magazine
    After Reagan's State of the Union speech, the media immediately branded the National Aero-Space Plane “the Orient Express.” The program was canceled in 1994, ...
  175. [175]
    Whatever Happened to the National Aero-Space Plane?
    Mar 5, 2012 · But it also ended because of its technological overstretch. For instance, NASA futurist and longstanding advocate of SSTO Ivan Bekey called NASP ...Missing: date | Show results with:date
  176. [176]
    Future of X-51A Test Program Uncertain after Another Failure
    Aug 16, 2012 · The scramjet ignited but failed to make the transition to full power and the mission ended prematurely, the Air Force said. AFRL officials have ...
  177. [177]
    X-51 Waverider: Hypersonic jet ambitions fall short - BBC
    Aug 14, 2012 · The most recent test flight ended in failure on Tuesday when a faulty control fin caused the US Air Force X-51 Waverider jet to lose control and ...
  178. [178]
    X-51A Waverider achieves history in final flight
    May 3, 2013 · As a technology demonstration program, there is no immediate successor to the X-51A program. However, the Air Force will continue hypersonic ...Missing: delays | Show results with:delays
  179. [179]
    [PDF] AIAA 2002-3880 Review of Air Vitiation Effects on Scramjet Ignition ...
    This paper offers a detailed review and analysis of more than 100 papers on the physics and chemistry of scramjet ignition and flameholding combustion.
  180. [180]
    Ignition Transients in a Scramjet Engine with Air Throttling Part II
    The analysis presented in Part I of this study is extended to investigate ignition transients and flame development in an ethylene-fueled scramjet engine.