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Advanced Medium STOL Transport

The Advanced Medium STOL Transport (AMST) was a prototype development program launched in the early to design and test a new tactical aircraft with enhanced short take-off and landing () capabilities, specifically intended to replace aging platforms such as the , C-7 Caribou, and . The initiative emphasized operations from austere, semi-prepared airstrips as short as 2,000 feet while carrying a 27,000-pound , addressing limitations in existing aircraft for intratheater mobility and rapid deployment in contested environments. The program's origins traced back to studies in the late 1960s and early 1970s, including Project Forecast in 1963 and endorsements for technology following challenges with vertical/short take-off and landing () concepts, culminating in a formal request for proposals (RFP) issued in 1972. Approved by in September 1972 with an initial research, development, test, and evaluation (RDT&E) budget of $200 million, the effort awarded contracts in July 1973 to two competitors: for the YC-14 and McDonnell Douglas for the YC-15. Each contractor built two prototypes, focusing on innovative powered-lift systems using off-the-shelf engines to achieve the required without exotic new . The Boeing YC-14 employed a twin-engine configuration with upper surface blowing, where high-bypass turbofans mounted above the wings directed airflow over the wing's upper surface via the Coanda effect to augment lift, enabling low-speed handling and reduced noise. In contrast, the McDonnell Douglas YC-15 used a four-engine setup with externally blown flaps, in which engine exhaust was vectored over the trailing-edge flaps to enhance lift during takeoff and landing. Flight testing commenced in 1975, with the YC-15 achieving its first flight in August 1975 and the YC-14 in August 1976; both met or exceeded STOL goals, including balanced field lengths under 2,000 feet and successful airdrop demonstrations, while incorporating features like supercritical wings, thrust reversers, and advanced noise suppression. Despite these successes, the AMST program faced funding reductions—from $65.4 million to $25 million in fiscal year 1974—and evolving strategic requirements influenced by events like the 1973 , which prioritized longer-range strategic over pure tactical STOL. On December 10, 1979, the formally canceled the effort via Program Management Directive No. R-Q 6131(3), redirecting resources to the C-X program for a larger strategic/tactical hybrid. The AMST's legacy endured through its technological contributions, particularly from the YC-15, which informed the McDonnell Douglas (later ) C-17 Globemaster III's design, including externally systems, short-field performance (e.g., 3,500-foot takeoffs at reduced weights), and dual-role capabilities for payloads up to 170,900 pounds over approximately 2,400 nautical miles with substantial payloads. This "fly-before-you-buy" prototyping approach also shaped the C-17's acquisition strategy, leading to its first flight in 1991 and operational deployment by 1995.

Program Development

Origins and Requirements

The experiences of the during the , particularly the challenges of resupplying forward bases like using existing tactical airlifters on short and unprepared runways, underscored the need for improved capabilities within the (TAC). This operational feedback from the late prompted TAC to initiate studies for a next-generation medium transport to enhance intratheater airlift without fully overlapping strategic roles. On May 6, 1970, TAC formalized these needs through Required Operational Capability (ROC) 52-69, establishing specifications for a medium transport designed to replace the aging C-130 fleet while addressing gaps in forward-area logistics for contested environments. The core mission profile required carrying a 27,000-pound over a 400 radius in operations, emphasizing reliability in austere conditions. Key performance parameters included STOL operations from 2,000-foot runways at 95°F, a of approximately 200,000 pounds, a speed of 400 knots, and field lengths under 2,000 feet for both takeoff and landing to support rapid deployment in tactical scenarios. These metrics prioritized conceptual advancements in powered-lift systems and boundary-layer control over exhaustive numerical optimization, aiming for a versatile platform that could handle 27,000 pounds in STOL missions while maintaining a 2,000-nautical-mile ferry range. The program's focus remained on tactical utility, avoiding the heavier payloads and longer ranges of strategic airlifters like the C-141. This foundational ROC directly informed the subsequent request for proposals issued in 1972.

Request for Proposals

The Air Force's Aeronautical Systems Division issued the Request for Proposals (RFP) for the Advanced Medium Transport (AMST) program on January 24, 1972. This solicitation sought innovative designs for a medium-lift tactical transport to succeed the C-130E and C-130H variants, emphasizing advanced short takeoff and landing () performance capable of operations from austere 2,000-foot runways with payloads of 27,000 pounds. The RFP parameters were shaped by earlier analyses, including the 1971 Advanced Tactical Transport study, which assessed requirements for enhanced tactical airlift in contested environments and informed specifications for STOL efficiency, reliability, and . These built upon initial operational needs outlined in the Tactical Air Command's Required Operational Capability document from May 1970, which highlighted gaps in existing transports' field performance. Nine companies were solicited for proposals, with submissions evaluated through a competitive completed by December 1972. Notable respondents included , McDonnell Douglas, , Fairchild Industries, and Bell Aerospace, each proposing configurations leveraging powered-lift technologies such as externally blown flaps or vectored thrust. Proposals were assessed primarily on technical feasibility—focusing on capabilities, system reliability, and overall design innovation—alongside cost realism, producibility, and logistics support, under a design-to-cost target of $5 million per unit for the 300th production aircraft in 1972 dollars. This weighted approach prioritized sound technical solutions over lowest bid price to balance performance gains with affordability constraints.

Prototype Contracts and Design Phase

Following the downselect from five initial proposals based on the 's Request for Proposals criteria, the awarded demonstration contracts on November 10, 1972, to and McDonnell Douglas for prototype development under the Advanced Medium STOL Transport program. received a $96.2 million cost-plus-fixed-fee contract to build two YC-14 prototypes, while McDonnell Douglas was awarded $119.4 million (with $86.1 million from the under a cost-sharing arrangement) for two YC-15 prototypes; each contract included provisions for design, fabrication, and testing. The subsequent design phase, spanning approximately 18 months from early 1973 to mid-1975, emphasized engineering efforts to integrate advanced technologies, including high-lift devices for enhanced low-speed performance and optimized propulsion systems to meet operational requirements for austere airfields. This period involved detailed preliminary analyses in Phase I (completed December 1972) and ongoing refinement in Phase II starting January 1973, culminating in design freezes—October 1973 for the YC-14 and February 1973 for the YC-15—to guide prototype construction. The USAF allocated a total of about $200 million in research, development, test, and evaluation funding for the AMST program through 1979, supporting the fly-before-buy approach to reduce technical risks by validating designs through actual flight demonstrations prior to any production commitment. Key milestones included preliminary design reviews in late 1972 and subsequent assessments in 1974, which affirmed the prototypes' alignment with the program's core goal of achieving a 2,000-foot field length for a 27,000-pound under hot-day conditions.

Prototypes

Boeing YC-14

The Boeing YC-14 prototype, developed as part of the U.S. Air Force's Advanced Medium STOL Transport (AMST) program, conducted its maiden flight on August 9, 1976, departing from Boeing Field in Seattle, Washington. Featuring a high-wing configuration with a T-tail, the aircraft incorporated a supercritical wing designed to enhance low-speed efficiency and reduce drag during STOL operations. This design emphasized powered lift systems to meet AMST requirements for short-field performance while maintaining tactical transport capabilities. The YC-14's propulsion system consisted of two CF6-50D high-bypass engines, each providing 51,000 lbf of , strategically mounted above and slightly forward of the . This over-wing placement enabled upper surface blowing (USB), directing engine exhaust over the 's upper surface and trailing-edge flaps to augment lift via the Coanda effect. Complementing this were systems, including leading-edge slats and blown flaps, which optimized airflow attachment at high angles of attack. These STOL mechanisms allowed the YC-14 to achieve a takeoff distance of approximately 1,500 feet and a landing distance of 1,500 feet while carrying a 27,000-pound payload, demonstrating its potential for operations on austere airfields. The aircraft measured 129 feet in wingspan, 132 feet in length, and had an empty weight of 117,500 pounds. It was configured to transport up to 150 troops in conventional roles or 80 paratroopers, supporting rapid deployment of personnel and equipment in contested environments.

McDonnell Douglas YC-15

The was developed as part of the U.S. Air Force's Advanced Medium STOL Transport (AMST) program to create a tactical airlifter capable of operating from short, unprepared runways while sharing operational goals with the competing prototype. The first prototype (72-1875) made its on August 26, 1975, departing from the company's facility in , and landing at after a 2.5-hour test. It featured a low-wing configuration with a section, full-span leading-edge slats for improved low-speed lift, and double-slotted trailing-edge flaps spanning 75% of the wing that extended up to 46 degrees to enhance high-lift performance during short-field operations. The aircraft's propulsion system consisted of four podded JT8D-17 high-bypass engines mounted in a low, forward position on the wings, each delivering 16,000 lbf (71 kN) of static thrust at sea level. These engines powered an externally blown flap (EBF) lift-augmentation system, in which the double-slotted flaps were positioned to penetrate and deflect the engine exhaust downward, generating additional lift through vectored thrust without relying on engine . This configuration, combined with advanced analog flight control systems including direct lift control, enabled precise handling for maneuvers and contributed to the YC-15's operational flexibility in austere environments. Under loaded conditions at a gross weight of approximately 150,000 pounds, the YC-15 achieved performance with takeoff and landing field lengths of less than 2,000 feet at under standard atmospheric conditions, supported by approach speeds as low as 98 mph. The prototypes measured 124 feet 3 inches in length, with the first having a 110-foot 3-inch and the second extended to 132 feet 7 inches for improved low-speed characteristics; empty weight was around 105,000 pounds, and it offered capacity for up to 150 troops or 80 paratroopers in conventional roles, with a maximum of 53,000 pounds (conventional) or 27,000 pounds () in a rear-loading configuration.

Testing and Evaluation

Flight Testing

The flight testing phase of the Advanced Medium STOL Transport program involved rigorous operational evaluations of the and prototypes to validate their short takeoff and landing capabilities in various conditions. These tests, conducted primarily by U.S. Air Force personnel in collaboration with the contractors, focused on demonstrating the aircraft's suitability for tactical missions at austere airfields. The YC-14's initial prototype underwent 29 flights totaling 67 hours by 1978, encompassing key demonstrations at to showcase its low-speed handling and powered-lift performance. A milestone in this effort was the 's first demonstration in 1977, which highlighted its ability to operate from short, unprepared runways. The second YC-14 prototype achieved its first flight in 1977, helping the program surpass 500 hours of accumulated flight time overall. In parallel, the prototypes logged over 700 hours of flight time by the program's conclusion, with significant testing performed on 2,000-foot runways to replicate forward base operations. A notable milestone for the YC-15 occurred in during aileron reversal tests, which assessed control surface effectiveness at high angles of attack and dynamic pressures. Joint U.S. evaluations of both prototypes ran from 1977 to 1979, integrating contractor-conducted flights with military oversight to ensure comprehensive assessment of performance. These efforts included hot/high altitude tests at , simulating challenging environmental conditions typical of operational theaters. The prototypes' innovative aerodynamic designs, such as the YC-14's upper surface blowing system and the YC-15's externally blown flaps, directly enabled the scope and success of these flight demonstrations.

Performance Assessments

The and prototypes both surpassed the Advanced Medium STOL Transport (AMST) program's primary short takeoff and () goal of a 2,000-foot critical field length under standard conditions. evaluations revealed that corresponding landing field lengths for both aircraft also fell below the specification, demonstrating effective powered-lift configurations for austere airfield operations. In payload-range assessments, the prototypes met intratheater tactical requirements for carrying substantial payloads over hundreds of nautical miles. The YC-14 exhibited superior low-speed handling characteristics, enhancing maneuverability during approach and departure phases. Conversely, the YC-15 demonstrated better overall , contributing to its operational versatility. U.S. Air Force evaluations in 1979 concluded that both were technically viable for production, having met core and payload criteria, though refinements were recommended to address extensions, integration, and reductions for full-scale deployment. These assessments underscored the prototypes' success in advancing medium capabilities while highlighting areas for optimization prior to any transition to operational service.

Cancellation and Legacy

Program Termination

The Advanced Medium STOL Transport (AMST) program was formally cancelled on December 10, 1979, through Program Management Directive No. R-Q 6131(3) issued by the U.S. Air Force. This decision came after the prototypes had demonstrated strong performance in , satisfying most AMST requirements, but external fiscal pressures proved insurmountable. The primary drivers for termination included severe budget constraints in the 1980 defense appropriations under the Carter administration, which emphasized reductions in military spending to address inflation and economic challenges. Additionally, shifting strategic priorities amid escalating tensions redirected resources toward strategic airlift capabilities rather than tactical transports like the AMST, rendering the program's high unit costs uneconomical in the broader context. Politics and evolving defense needs further contributed to the program's end, as the focus moved away from replacing aging tactical aircraft. In the immediate aftermath, both the and prototypes were placed in storage, with no production contracts awarded to either manufacturer. The cancellation marked a to a new C-X program for strategic airlift, incorporating lessons from the AMST without further development of the existing prototypes.

Technological Influence

The data and technologies developed under the Advanced Medium STOL Transport (AMST) program directly informed the U.S. Air Force's C-X program initiated in 1981, providing foundational research that shaped the requirements for a next-generation tactical and strategic airlifter. This evolution culminated in the McDonnell Douglas C-17 Globemaster III, which incorporated similar STOL capabilities, including externally blown flaps to enhance lift during short-field operations on austere airfields. Key technological transfers from the AMST prototypes bridged to the C-17's design, with the Boeing YC-14's supercritical wing configuration—optimized for transonic efficiency through extensive wind tunnel testing—contributing to the C-17's improved aerodynamic performance, range, and fuel economy. Similarly, the McDonnell Douglas YC-15's boundary layer control techniques, which energized airflow over high-lift surfaces to reduce drag and boost low-speed lift, influenced the C-17's advanced flap systems for superior STOL handling. These elements were validated through the prototypes' flight testing, ensuring the C-17's ability to meet dual-role airlift demands without excessive complexity. Beyond direct military applications, AMST findings influenced 1980s U.S. tactical airlift studies by demonstrating the feasibility of versatile, short-field transports that could support rapid deployment doctrines like , emphasizing direct delivery to forward areas. The program's emphasis on dual civil-military potential also inspired commercial concepts, such as McDonnell Douglas's proposed MD-17 freighter, which leveraged technologies for operations in civilian markets. Following the 1979 cancellation—which enabled resource reallocation toward the C-X initiative—the AMST prototypes were placed in storage at the 309th Aerospace Maintenance and Regeneration Group (AMARG) at Davis-Monthan Air Force Base. One YC-15 (serial 72-1875) was relocated to the in 1981 for static display but moved to in 2008, where it is on display at the Flight Test Historical Foundation's Century Circle; the second (72-1876) remained at AMARG until it was scrapped in 2012. Both YC-14 prototypes are preserved, with one at AMARG and the other at the .

References

  1. [1]
    [PDF] Advanced Medium STOL Transportation Prototypes - GAO
    STATUS OF ADVANCED MEDIUM SIOL TRANSPORT PROTOTYPES. 1. SYSTEM DESCRIPTION AND STATUS. 2. COMING EVENTS. 3. COST. 4. CONTRACT DATA. 6. SCHEDULE.
  2. [2]
    Advanced Medium STOL Transport (AMST) YC-14 and YC-15
    Jul 7, 2011 · In 1972, the Air Force issued a request for proposals (RFP) for an Advanced Medium STOL Transport (AMST) that would ultimately replace the C-130 ...
  3. [3]
    None
    Below is a merged summary of the AMST Program, C-17 origins, and related requirements based on the provided segments. To retain all information in a dense and organized manner, I will use a combination of narrative text for context and a table in CSV format to capture the detailed requirements and specifications across the segments. The narrative will provide an overview, while the table will consolidate specific requirements (payload, range, speed, runway performance, and weights) for clarity and completeness.
  4. [4]
    [PDF] de fen e ytenm - DTIC
    4 9 Department of the Army, Required Operational Capability (ROC) for an Advanced Medium STOL Transport (ARST), 5 January 1976, p. 4. I ır r--. T. -w, w. -- p.
  5. [5]
    [PDF] Weapon System Jeopardy! The Answer is: "The C-17." - DTIC
    Apr 15, 2023 · the continuing influence lack of program commitment has had on the C-17 program. ... The AMST program was a new approach for acquisition programs.
  6. [6]
    [PDF] September 11, 2001 W e Remember - Air Force Historical Foundation
    Sep 11, 2001 · By May 1970, TAC had finalized a required operational capability (ROC, 52-69) statement for a medium STOL transport. The command sought a rapid ...
  7. [7]
    [PDF] 19790017864.pdf - NASA Technical Reports Server (NTRS)
    The USB concept was first investigated by NASA i ,i 1959, and is used on the Boeing YC-14 airplane in addition to the QSRA. ... 1500 feet, respectively.
  8. [8]
    Boeing YC-14 - Pima Air & Space Museum
    3 flight crew, 150 troops. Manufacturer Boeing. Markings Boeing/Air Force Flight Test Center, Edwards AFB, California, 1977. Serial Number 72-1873. DesignationMissing: first date exact
  9. [9]
    Boeing YC-14 - The Aviation Zone
    The first Boeing YC-14 (#72-1873) took to the skies on 9 August 1976 and soon proved to have admirable performance. Two aircraft were built, the second ...Missing: flight exact
  10. [10]
    McDonnell Douglas YC-15 - The Aviation Zone
    First flown on 26 August 1975, a 600-hour test program followed. Funding cuts eventually cancelled the AMST program in 1979. Both the YC-14 and the YC-15 ...
  11. [11]
    [PDF] YC-15 EBF (Externally-Blown Flap) STOL (Short Takeoff and ... - DTIC
    The flaps are designed to penetrate the engine exhaust and deflect the engine efflux downward at the same angle as the flap.Missing: features slats
  12. [12]
    McDonnell Douglas YC-15 Landing - Boeing Images
    The YC-15 introduced a number of innovative features, such as externally blown flaps, which used double-slotted flaps to direct part of the jet exhaust ...
  13. [13]
    External Blowing Flap Technology on the USAF McDonnell Douglas ...
    The YC-15 will be the first aircraft to employ the externally blown flap (EBF)-powered lift system. Since the success of the aircraft to a large extent is ...
  14. [14]
    [PDF] 19780016132.pdf
    Air Force AMST Prototype Program is the conduct of flight research experiments on the AMST prototype aircraft, the Boeing YC-14 and Douglas YC-15. These.Missing: contract | Show results with:contract
  15. [15]
    YC-15 Advanced Medium STOL Transport (AMST)
    Jul 7, 2011 · The McDonnell Douglas YC-15 Advanced Medium STOL (Short-Takeoff and Landing) ... length of 2,000 ft at a landing weight of 150,000 lb.
  16. [16]
    McDonnell Douglas YC-15 Tactical Airlifter Transport Aircraft Prototype
    The USAF developed the "Advanced Medium STOL Transport" (AMST) program around the new requirement seeking an all-modern, medium-lift, tactically-minded form.Missing: details | Show results with:details
  17. [17]
    YC-14 Advanced Medium STOL Transport (AMST)
    Jul 7, 2011 · When the Air Force RFP for the AMST prototypes was released in January 1972, it called for the very impressive capability of operations into ...Missing: details | Show results with:details<|control11|><|separator|>
  18. [18]
    McDonnell Douglas YC-15 Flight Demonstration - Boeing Images
    The McDonnell Douglas YC-15 was a wide-body transport aircraft for service on short, undeveloped airfields.Missing: specifications dimensions capacity
  19. [19]
    [PDF] NASA Technical Reports Server (NTRS)
    Lake, Calif) Journal of Aircraft, vol 15, Mar 1978, p 137-142 12 refs ... Four phases of the YC-15 test program are described, with attention to Phase ...
  20. [20]
    [PDF] Airport Performance Estimation for Powered Lift Aircraft - DTIC
    The program was used to predict the takeoff and landing character- istics of the Advanced Medium STOL Transport (AMST) aircraft, the YC-14 and YC-15. Due to the ...
  21. [21]
    AJACS carries Air Force hopes for heavylift | News | Flight Global
    Jan 14, 2008 · The Advanced Medium STOL Transport programme was cancelled in 1979 when the air force shifted its focus from tactical to strategic airlift.
  22. [22]
    The AMSTProgram's Lasting Legacy - jstor
    Developing the STOL should receive the “highest priority” in the Air Force's fiscal year 1972 budget, the report stated.<|control11|><|separator|>
  23. [23]
    [PDF] High-Lift Systems on Commercial Subsonic Airliners
    slat panels form the wing leading edge during cruise. For low-speed ... YC-15 traiIing-edge flap. The Fowler motion progression of the upside-down ...
  24. [24]
    The Air Force/Boeing Advanced Medium STOL Transport Prototype
    Jul 21, 2018 · MODERNIZATION OF TACTICAL AIRLIFT is a subject that has been much studied and debated over the past 10 years.
  25. [25]
    McDonnell Douglas YC-15 | Military Wiki - Fandom
    After the flight test program, the two aircraft were stored at the AMARC, located at Davis-Monthan Air Force Base. 72-1875 was subsequently moved to the nearby ...
  26. [26]
    View topic - McDonnell Douglas YC-15 (72-1876) scrapped
    Apr 21, 2012 · The McDonnell Douglas YC-15 (72-1876) was scrapped between March and April of this year. The aircraft had been sitting in Celebrity Row.
  27. [27]
    Boeing YC-14 - Wikipedia
    It was Boeing's entrant into the United States Air Force's Advanced Medium STOL Transport (AMST) competition, which aimed to replace the Lockheed C-130 Hercules ...