Ares Decelerator System Heavy Air Drop Test Program

King, R.H.; Wolf, Dean; Hengel, John E.

doi:10.2514/6.2011-2504

Cited by 2 publications

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“…This reposition event would impart additional force and rotational rates, which if performed at the optimum time, would 'pitch' the PCDTV off of and clear of the platform. The concept for the new (intermediate reposition) element of the test technique came from an architecture that was being implemented by another program, the NASA Ares Jumbo Drop Test Vehicle (JDTV) 5 . The Ares test technique included a midair separation of the JDTV from its extraction platform.…”

Section: Figure 4 the Cdt-2 Ptv Attitude At Programmer Deploymentmentioning

confidence: 99%

Orion Boiler Plate Airdrop Test System

Machin

Evans

2013

AIAA Aerodynamic Decelerator Systems (ADS) Conference

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On the 29th of February 2012 the Orion Capsule Parachute Assembly System (CPAS) project attempted to perform an airdrop test of a boilerplate test article for the second time. The first attempt (Cluster Development Test 2, July 2008) to deliver a similar boilerplate from a C-17 using the Low Velocity Air Drop (LVAD) technique resulted in the programmer parachute failing to properly inflate, the test article failing to achieve the desired test initiation conditions, and the test article a total loss. This paper will pick up where the CDT-2 failure investigation left off 1 , describing the test technique that was adopted, and outline the modeling that was performed to gain confidence that the second attempt would be successful. The second boiler plate test (Cluster Development Test 3-3) was indeed a complete success and has subsequently been repeated several times, allowing the CPAS project to proceed with the full scale system level development testing required to integrate the hardware to the first Entry Flight Test vehicle as well as go into the Critical Design Review with minimum risk and a mature design.

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Section: Figure 4 the Cdt-2 Ptv Attitude At Programmer Deploymentmentioning

confidence: 99%

Orion Boiler Plate Airdrop Test System

Machin

Evans

2013

AIAA Aerodynamic Decelerator Systems (ADS) Conference

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Extraction and Separation Modeling of Orion Test Vehicles with ADAMS Simulation

Fraire

Anderson

Cuthbert

2013

AIAA Aerodynamic Decelerator Systems (ADS) Conference

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The Capsule Parachute Assembly System (CPAS) project has increased efforts to demonstrate the performance of fully integrated parachute systems at both higher dynamic pressures and in the presence of wake fields using a Parachute Compartment Drop Test Vehicle (PCDTV) and a Parachute Test Vehicle (PTV), respectively. Modeling the extraction and separation events has proven challenging and an understanding of the physics is required to reduce the risk of separation malfunctions. The need for extraction and separation modeling is critical to a successful CPAS test campaign. Current PTV-alone simulations, such as Decelerator System Simulation (DSS), require accurate initial conditions (ICs) drawn from a separation model. Automatic Dynamic Analysis of Mechanical Systems (ADAMS), a Commercial off the Shelf (COTS) tool, was employed to provide insight into the multi-body six degree of freedom (DOF) interaction between parachute test hardware and external and internal forces. Components of the model include a composite extraction parachute, primary vehicle (PTV or PCDTV), platform cradle, a release mechanism, aircraft ramp, and a programmer parachute with attach points. Independent aerodynamic forces were applied to the mated test vehicle/platform cradle and the separated test vehicle and platform cradle. The aero coefficients were determined from real time lookup tables which were functions of both angle of attack (α) and sideslip (β). The atmospheric properties were also determined from a real time lookup table characteristic of the Yuma Proving Grounds (YPG) atmosphere relative to the planned test month. Representative geometries were constructed in ADAMS with measured mass properties generated for each independent vehicle. Derived smart separation parameters were included in ADAMS as sensors with defined pitch and pitch rate criteria used to refine inputs to analogous avionics systems for optimal separation conditions. Key design variables were dispersed in a Monte Carlo analysis to provide the maximum expected range of the state variables at programmer deployment to be used as ICs in DSS. Extensive comparisons were made with Decelerator System Simulation Application (DSSA) to validate the mated portion of the ADAMS extraction trajectory. Results of the comparisons improved the fidelity of ADAMS with a ramp pitch profile update from DSSA. Post-test reconstructions resulted in improvements to extraction parachute drag area knock-down factors, extraction line modeling, and the inclusion of ball-to-socket attachments used as a release mechanism on the PTV. Modeling of two Extraction parachutes was based on United States Air Force (USAF) tow test data and integrated into ADAMS for nominal and Monte Carlo trajectory assessments. Video overlay of ADAMS animations and actual C-12 chase plane test videos supported analysis and observation efforts of extraction and separation events. The COTS ADAMS simulation has been integrated with NASA based simulations to provide complete end to end trajectories with a focus on the extra...

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Ares Decelerator System Heavy Air Drop Test Program

Cited by 2 publications

References 0 publications

Orion Boiler Plate Airdrop Test System

Orion Boiler Plate Airdrop Test System

Extraction and Separation Modeling of Orion Test Vehicles with ADAMS Simulation

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