July 29, 2019 | International, Aerospace
Beyond seven acknowledged projects aimed at developing long-range, maneuvering missiles with a top speed over Mach 5, the U.S. Defense Department is working in classified secrecy on at least two more hypersonic weapon programs, industry officials say.
The mystery of the classified projects—including such details as their development or operational status and any gaps each fills in the Pentagon's unfolding hypersonic weapons architecture—remains unsolved. But a new clue embedded in the LinkedIn profile of a senior Defense Department hypersonic weapons expert may point to the answers.
Seven U.S. hypersonic projects cover air-, land- and sea-based weapons
Pentagon expert's online profile points to existence of two more programs
Greg Sullivan, a well-regarded expert in the high-speed flight community, describes himself on the professional social media platform as an on-site supporter of air-breathing hypersonic weapons to the department's research and engineering arm.
Sullivan's profile also cites his knowledge of “additional hypersonic programs,” which include a nearly comprehensive list of the Pentagon's acknowledged projects. Intriguingly, his original list also included two additional acronyms representing hypersonic programs: “HACM” and “HCCW.” Shortly after Aviation Week inquired to the Air Force Public Affairs office for details about HACM and HCCW, both acronyms were deleted from the LinkedIn page.
The Air Force does not acknowledge the existence of any program named HACM or HCCW, and no reference to either acronym appears in the military's public documents, such as budget materials and press releases.
Two sources say they have heard vague references to the existence of a hypersonic program called HACM, but had no details, including what the acronym means. The HCCW program was not known to any sources or analysts contacted by Aviation Week.
The expert hypersonic community is an unusually tight-knit group, reflecting the technology's mostly experimental status for decades, until its recent rise as one of the Pentagon's top acquisition priorities. The existence of two new acronyms has prompted several speculative guesses.
Richard Hallion, a former Air Force chief historian who specializes in the history of hypersonic technology, noted that the acronym HACM could be interpreted broadly to cover almost any type of hypersonic weapon, including scramjet-powered cruise missiles or air-launched boost-glide systems.
“Well, the H is obviously [for] hypersonic,” says Hallion. “The rest suggests a mix of ‘A' for ‘Advanced' or ‘Air-Breathing' or ‘Air-Launched.' ‘C' for ‘Conventional' or ‘Capability' or ‘Concept,' [and] ‘M' for ‘Missile.'”
The meaning of the HCCW acronym proves even more elusive. For Justin Bronk, a research fellow specializing in airpower at the Royal United Services Institute, one speculative interpretation conforms to his analytical view of a gap in the U.S. military's weapons arsenal. If the acronym stands for “Hypersonic Counter-Cruise Weapon,” Bronk says, HCCW could be a valuable interceptor specifically tailored against high-speed, air-breathing cruise missiles.
Although the exact role and status of HACM and HCCW are unknown, industry officials have repeatedly said that at least two additional classified programs exist beyond the Defense Department's seven acknowledged programs. The public list leaves little room for gaps to be filled by new weapons, as they already span air-, land- and sea-launched options and include two different types of boost-glide systems—winged and biconic—and a scramjet-powered cruise missile.
The plethora of planned hypersonic options are intended to serve tactical and strategic goals. On the tactical level, the Pentagon's war planners will gain a new option for striking mobile missile launchers and countering long-range attacks on the Navy's surface fleet by an adversary with hypersonic anti-ship missiles. The future U.S. inventory of hypersonic missiles also is intended to serve as a deterrent option short of a nuclear response, as adversaries such as China and Russia stock their arsenals with a range of new hypersonic weapons.
The Air Force alone accounts for two of the acknowledged hypersonic weapon programs: a boost-glide system with a winged glide vehicle called the Air-launched Rapid Response Weapon (ARRW). Another called the Hypersonic Conventional Strike Weapon (HCSW) relies on a less-risky biconic glide vehicle.
The ARRW, also known as the Lockheed Martin AGM-183A, is based on the Tactical Boost Glide (TBG) program, a risk-reduction effort funded by DARPA. The same winged glide vehicle also is being adapted for ground launch under DARPA's Operational Fires (OpFires) program. Raytheon says it is developing a more advanced winged glider under the TBG program, which could be fielded as a second-generation version of ARRW.
HCSW, meanwhile, is the air-launched version of a biconic-shaped glider originally designed by Sandia National Laboratories. The Navy and Army are adapting the same original design for the sea-launched Conventional Prompt Strike (CPS) system and the Army's ground-launched Long-Range Hypersonic Weapon (LRHW).
Finally, Raytheon and Lockheed are each designing different scramjet-powered missiles under DARPA's Hypersonic Air-breathing Weapon Concept (HAWC) program. Weaponized versions of HAWC are under study by the Air Force and Navy for air and sea launch. One possible gap in the weapons portfolio is the apparent lack of an operational follow-on program for HAWC, even though Air Force officials say the program is slightly ahead of DARPA's TBG program. The TBG demonstrator is intended to reduce risk for the operational ARRW system, but no such operational follow-on exists publicly for HAWC.
Tom Bussing, vice president of advanced missile systems for Raytheon, acknowledged two hypersonic programs exist that he cannot speak about.
“There are probably six different types of hypersonic programs that we have,” Bussing said in a recent interview. “Some are classified, so I can't speak [about] them because we are not at liberty to announce them.” But he named Raytheon's role in four hypersonic programs: TBG, HAWC, CPS and LRHW.
DARPA has announced Raytheon's involvement as one of two weapon designers for TBG and HAWC, but neither the Navy nor the Army has explained Raytheon's role in CPS and LRHW. The Air Force has announced that Lockheed is the weapon system integrator for the HCSW variant, but no such role has been announced for the Army and Navy versions of the common glide vehicle. So far, Bussing can only acknowledge that Sandia remains the designer of the biconic glider for HCSW, CPS and LRHW.
“That technology has been transitioned over to the CPS program and also to the Army's Long Range Hypersonic Weapon program,” Bussing said. “So we're involved in both, and we're working directly with Sandia.”
The Defense Department has inserted $10.5 billion into a five-year budget plan released in March to develop and field the long list of offensive and defensive hypersonic weapon systems. But a detailed check of the budgets for unclassified programs reveals a significant surplus, which could be used to fund classified projects.
The combined budget accounts for ARRW, HCSW, CPS and LRHW amount to $7.7 billion over the next five years. The Missile Defense Agency's $700 million planned investment in counter-hypersonics raises the five-year spending total to $8.36 billion. DARPA does not release a five-year budget, but proposed to spend $222 million in fiscal 2020 on TBG, HAWC and OpFires. That still leaves an unexplained gap of about $2.5 billion in planned spending by the Defense Department on hypersonic weapons over the next five years.
June 30, 2024 | International, Naval
The legislation overrides an authorization bill from the Armed Services Committee that moves in a different direction on attack-submarine and F-35 buys.
January 24, 2020 | International, Aerospace, Naval, Land, C4ISR, Security
ARMY Brayman Construction Corp., Saxonburg, Pennsylvania, was awarded a $319,592,539 firm-fixed-price contract for labor, rehabilitation of recreational areas, equipment, supervision and modifications to the stilling basin of the Bluestone Dam in Hinton, West Virginia. Bids were solicited via the internet with one received. Work will be performed in Hinton, West Virginia, with an estimated completion date of Jan. 31, 2029. Fiscal 2018 operations and maintenance, civil works funds in the amount of $319,592,539 were obligated at the time of the award. U.S. Army Corps of Engineers, Huntington, West Virginia, is the contracting activity (W91237-20-C-0004). Science Applications International Corp., Reston, Virginia, was awarded a $12,847,708 cost-no-fee and firm-fixed-price contract for information technology support services. Bids were solicited via the internet with six received. Work will be performed in Pyeongtaek, South Korea, with an estimated completion date of Jan. 31, 2025. Fiscal 2020 operations and maintenance, Army funds in the amount of $12,847,708 were obligated at the time of the award. 411th Contracting Support Brigade, Seoul, South Korea, is the contracting activity (W91QVN-20-F-0157). DEFENSE LOGISTICS AGENCY Simulab Corp., Seattle, Washington, has been awarded a maximum $36,000,000 fixed-price with economic-price-adjustment, indefinite-delivery/indefinite-quantity contract for hospital equipment and accessories for the Defense Logistics Agency electronic catalog. This is a five-year contract with no option periods. This was a competitive acquisition with 102 responses received. Location of performance is Washington, with a Jan. 22, 2025, performance completion date. Using military services are Army, Navy, Air Force and Marine Corps. Type of appropriation is fiscal 2020 through 2025 defense working capital funds. The contracting activity is the Defense Logistics Agency Troop Support, Philadelphia, Pennsylvania (SPE2DH-20-D-0029). NAVY PAE Applied Technologies LLC, Arlington, Virginia, is awarded a $32,967,099 modification (P00342) to a previously awarded contract N66604-05-C-1277 to extend the period of performance for six months and increase target cost for Atlantic Undersea Test and Evaluation Center (AUTEC). AUTEC is the Navy's large-area, deep-water, undersea test and evaluation range. Underwater research, testing and evaluation of anti-submarine weapons, sonar tracking and communications are the predominant activities conducted at AUTEC. The contractor performs AUTEC range operations support services and maintenance of facilities and range systems. In addition, the contractor is responsible for operating a self-sufficient one square mile Navy outpost. This modification increases the value of the basic contract by $32,967,099. The new total value is $885,984,261. Work will be performed in Andros Island, Commonwealth of the Bahamas (80%); and West Palm Beach, Florida (20%), and is expected to be completed in September 2020. No funding will be obligated at time of this modification award. The Naval Undersea Warfare Center Newport Division, Newport, Rhode Island, is the contracting activity. https://www.defense.gov/Newsroom/Contracts/Contract/Article/2064381/source/GovDelivery/
December 19, 2018 | International, Aerospace
Hypersonic vehicles fly through the atmosphere at incredibly high speeds, creating intense friction with the surrounding air as they travel at Mach 5 or above – five times faster than sound travels. Developing structures that can withstand furnace-like temperatures at such high speeds is a technical challenge, especially for leading edges that bear the brunt of the heat. To address this thermal challenge, DARPA recently announced its Materials Architectures and Characterization for Hypersonics (MACH) program. The MACH program seeks to develop and demonstrate new design and material solutions for sharp, shape-stable, cooled leading edges for hypersonic vehicles. A Proposers Day describing the program will take place January 22, 2019 in Arlington, Virginia: https://go.usa.gov/xEcEy. “For decades people have studied cooling the hot leading edges of hypersonic vehicles but haven't been able to demonstrate practical concepts in flight,” said Bill Carter, program manager in DARPA's Defense Sciences Office. “The key is developing scalable materials architectures that enable mass transport to spread and reject heat. In recent years we've seen advances in thermal engineering and manufacturing that could enable the design and fabrication of very complex architectures not possible in the past. If successful, we could see a breakthrough in mitigating aerothermal effects at the leading edge that would enhance hypersonic performance.” The MACH program will comprise two technical areas. The first area aims to develop and mature fully integrated passive thermal management system to cool leading edges based on scalable net-shape manufacturing and advanced thermal design. The second technical area will focus on next-generation hypersonic materials research, applying modern high-fidelity computation capabilities to develop new passive and active thermal management concepts, coatings and materials for future cooled hypersonic leading edge applications. Both technical areas will be described in a Broad Agency Announcement solicitation expected in mid-January 2019 on DARPA's FedBizOpps page here: http://go.usa.gov/Dom. The MACH program seeks expertise in thermal engineering and design, advanced computational materials development, architected materials design, fabrication and testing (including net shape fabrication of high temperature metals, ceramics and their composites), hypersonic leading-edge design and performance, and advanced thermal protection systems. Registration details for Proposers Day are available here: http://events.sa-meetings.com/MACHProposersDay. https://www.darpa.mil/news-events/2018-12-17