Holloman High Speed Test Track to start ARRW testing from next year

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HOLLOMAN AIR FORCE BASE, N.M. --
In preparation for an increased demand of its services over the next decade, including work slated to begin next year, the 846th Test Squadron at Holloman Air Force Base, New Mexico, is working to get its hypersonic sled testing program up to speed.
To accomplish upcoming testing, the 846 TS, which is a unit of the 704th Test Group of the Arnold Engineering Development Complex, is continuing a series of preparatory rocket sled tests that began last year at the Holloman High Speed Test Track, or HHSTT.
The tests are part of an initiative known as the Hypersonic Readiness (HSR) program. The planning stages for this program began around four years ago, with the first sled test conducted last summer.

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The HSR program is an in-house project to prepare the 846 TS to carry out the Hypersonic Test and Evaluation Investment Portfolio (HyTIP), Air-Launched Rapid Response Weapon (ARRW) and other anticipated recovered hypersonic sled tests. The HSR program currently consists of multiple dynamic sled test velocities, sled designs, environments and different braking media.
“Due to current DOD priorities, it is expected that the frequency and complexity of hypersonic testing will increase over the next 10 years at HHSTT,” said Lee Powell, Capability Development Lead .

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Powell added that sled testing in support of HyTIP is planned for 2021, starting with weather effects testing, such as simulated rain encounter. Such testing in support of ARRW is expected to get underway the following year.
With this expected uptick in testing at the HHSTT and the testing already set to occur in the next calendar year, it was necessary for the 846 TS to revive, develop and rehearse hypersonic monorail sled test capabilities. The HSR program is primarily focused on the hypersonic 9-inch monorail sled test capability and includes the revival of old, as well as the development of new, high-speed braking capabilities.
“Historical hypersonic sled braking techniques have been retired and current braking methods do not allow entry at the speeds required to recover hypersonic monorail sleds,” Powell said.
Before the HyTIP missions slated for next year and the subsequent ARRW missions are carried out, alternative high-speed braking methods and workforce training must be developed and demonstrated. The HSR effort mainly consists of the development of rail-top braking methods to ensure the sleds launched during testing can be recovered on the rail for post-test analysis.

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Four tests have been conducted at the HHSTT as part of the HSR program thus far, the first occurring on June 26, 2019, and the most recent on Aug. 6, 2020. The tests have called for the acceleration of a monorail sled to the supersonic or hypersonic regime. The sleds then coast from peak to speeds ranging from 2,299 feet per second to 2,900 feet per second before entering braking. A new braking wedge design was developed and used on the sleds to interact with rail-top water bag braking and induce a momentum exchange to slow the sled during the testing.

In addition to studying braking performance, the fourth and most recent test called for the sled to be exposed to a 400-foot section of the newly-upgraded 6,000-foot HHSTT “rainfield,” a sprinkler head system designed to simulate natural rain.
“The basic concept was to demonstrate exposure of a developmental material to a ‘rain environment’ in order to test the effects of water droplets hitting a test article at hypersonic velocities; think about the understanding of whether a missile will survive being launched through a rain cloud,” said Bryan Sinkovec, Capability Development Program manager. “The HHSTT rainfield was recently upgraded with a state-of-the-art fiber optic control and data collection system in time to support the 2021 HyTIP missions.”
After exposure to the rainfield, the sled was projected to enter braking at 2,900 feet per second, but it entered much faster than planned.
The three prior tests were considered successful in determining the effectiveness of the new sled design. Each test resulted in safely-recovered sleds from the rail. The fourth test was considered a partial success because the sled departed the rail prematurely and was not recovered. However, some sled performance data was acquired.
At nearly 51,000 feet, the HHSTT is the longest facility of its type in the world. The rocket sled track, which is operated by the 846 TS, serves as a critical link between laboratory-type investigations and full-scale flight tests by simulating selected portions of the flight environment under accurately programmed and instrumented conditions. The sleds which serve as the test vehicles are accelerated to mission velocities by means of solid rocket motors, frequently in multi-stage operation.
Sinkovec said the experimental sled tests comprising the HSR program are designed to push the limits of the HHSTT, adding that regardless of whether they result in complete successes, knowledge is always gained from the tests.
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“Each mission has provided knowledge on sled performance, the first three being successful and the fourth not fully but still providing useful information,” Sinkovec said. “There is a failure investigation underway looking at the potential issues that led to sled loss, and the results of this investigation are expected to provide insight on how to improve when a path forward is developed, whether that be a direct repeat of the latest mission or an alternative path forward.”
The tests are also proving important for the expertise being collected throughout the HSR program. Prior to the test conducted last June, the last recovered hypersonic mission was conducted at the HHSTT in 2004. Powell said the majority of personnel who were active during the pinnacle of monorail hypersonic testing are no longer at the HHSTT, leaving a workforce with limited experience in recovered hypersonic sled runs.

“This led to a need to assess, validate and improve performance aspects that are specific to recovered monorail sled runs, such as hypersonic sled survivability and performance, data collection at high speeds requiring high sample rates, and tight sled design and manufacturing tolerances,” Powell said. “It is also necessary to capture and document this corporate knowledge to prevent the loss of expertise in the future.”

The HSR program is expected to continue into the spring of 2021 and wrap up prior to the HyTIP sled tests set to begin around summer 2021.
The 2018 National Defense Strategy acknowledges the need to apply additional resources to accelerate force modernization programs in order to “solidify our competitive advantage.” Powell said the current and future capabilities of the HHSTT will “bridge a critical gap” in DOD test facilities in support of these modernization efforts.
“DOD’s modernization roadmap for nuclear forces, missile defense, hypersonic weapons, penetrating weapons and other critical capabilities will rely on HHSTT enhancements and test capacity,” he said. “These programs require timely and relevant test data to verify lethality effects, impact survivability, aerothermal and weather effects, separation dynamics, guidance system performance, sensor performance and other key performance metrics.

“Test results also serve to validate modeling and simulation efforts, ensuring critical edge-of-envelope conditions are accurately characterized. Robust ground testing can identify serious deficiencies before incurring orders-of-magnitude greater costs in flight test, production or operations.”
Along with a focus on modernizing key capabilities, the National Defense Strategy also calls for cultivation of the DOD’s civilian workforce expertise. Sinkovec said the HSR program directly supports each of these insertions and others.

“The HHSTT strives to provide the world’s best rocket sled test team and offer capabilities that are not offered anywhere else in the world,” Sinkovec said. “There are ground test facilities and even other tracks in this state, country and world, but recovered hypersonic monorail testing is something that cannot be done anywhere else in the world due to the HHSTT’s unmatched length and alignment.”


 

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