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Four sealing methods for encapsulating samples in 1 cm diameter thin-walled sample tubes were designed, along with a set of tests for characterization and evaluation of .Four sealing methods for encapsulating samples in 1 cm diameter thin-walled .
This work describes the develop-ment, testing, and characterization of sealing methods designed to encapsulate and preserve the science integ-rity of samples in thin-walled sample . Four sealing methods for encapsulating samples in 1 cm diameter thin-walled sample tubes were designed, along with a set of tests for characterization and evaluation of .Seal Testing: Helium leak tests were run on clean sample tubes and tubes dipped in MMS Mars simulant before and after thermal cycling between -135 C and +55 C. The crimped tube, SMA .
The objective of this task is to develop and validate a sample tube sealing method to Technology Readiness Level 5 for possible future sample return missions. The sealing method will be .Abstract: Four sealing methods for encapsulating samples in 1 cm diameter thin-walled sample tubes were designed, along with a set of tests for characterization and evaluation of sample . Four sealing methods for encapsulating samples in 1 cm diameter thin-walled sample tubes were designed, along with a set of tests for characterization and evaluation of sample preservation. Systems engineering Ph.D. student Paulo Younse, a robotics engineer within the Robotic Systems Group at NASA’s Jet Propulsion Laboratory, helped develop the sealing mechanism for the sample tubes Perseverance .
The MArs CApture and ReOrientatioN for Earth return (MACARONE Concept) architecture would perform three primary functions: 1) OS capture from Mars orbit, 2) OS orientation to orient the . This paper outlines a unique approach integrating experimental methods, finite element modeling, and statistical models to develop a mechanically activated hermetic seal for .
2.1. Mars 2020 flight-like sample tubes. We measured six flight-like Mars 2020 sample tubes paired with their corresponding seals (Table 1; Fig. 1).These sealed sample tubes, which were provided by NASA's Jet Propulsion Laboratory (JPL), were all assembled at JPL by using aseptic flight procedures (ISO 5 cleanroom) and sealed at various temperatures under .DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .
Paulo Younse is a robotics engineer in the Robotic Systems Group at NASA’s Jet Propulsion Laboratory in Pasadena, CA. . Previous projects include development of the Mars 2020 rover sample caching architecture and sample tube hermetic seals, work on unmanned underwater vehicles at the Boeing Company, and visual navigation and control for .DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine A. Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles .
One of the primary mission objectives for the Mars 2020 rover is to drill rock core samples and store them in tubes that could be retrieved and returned to Earth on subsequent missions. A major challenge to the success of this mission is achieving hermetic-level seals on the tubes that contain the rock samples in order to preserve relevant science data. . Objective ot this project was to investigate sealing methods for encapsulating samples in 1 cm diameter thin-walled sample tubes applicable to future proposed Mars Sample Return Techniques implemented include a spring energized Teflon sleeve plug, a crimped tube seal, a heat-activated shape memory alloy plug, a shape memory alloy activated cap, a solder . A sample acquisition and caching architecture has been developed for the proposed Mars 2020 mission that acquires samples directly into sample tubes in coring bits.
Systems engineering Ph.D. student helped to develop
DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel Floyd Berisford and Pradeep Bhandari and Charles J. . Several NASA rovers and landers have been on Mars and performed successful in-situ exploration. Returning Martian samples to Earth for extensive analysis is of great interest to the planetary science community. Current Mars sample return architecture would require leaving the acquired samples on Mars for years before being retrieved by subsequent mission.
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Teams across multiple NASA centers and the European Space Agency are working together to prepare a set of missions that would return the samples being collec.DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .
Request PDF | FE simulation of SMA seal for Mars sample return | Several NASA rovers and landers have been on Mars and performed successful in-situ exploration. Returning Martian samples to Earth .DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel Floyd Berisford and Pradeep Bhandari and Charles J. . Sealing methods for encapsulating samples in 1 cm diameter thin-walled sample tubes applicable to future proposed Mars Sample Return missions were investigated based on power requirements .DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .
DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. . Prototypes have been developed of potential hermetic sample sealing techniques for encapsulating samples in a ≈1-cm-diameter thin-walled sample tube that are compatible with IMSAH (Integrated Mars Sample Acquisition and Handling) architecture. Techniques include a heat-activated, finned, shape memory alloy plug; a contracting shape memory alloy activated .
DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .
DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .
Four sealing methods for encapsulating samples in 1 cm diameter thin-walled sample tubes were designed, along with a set of tests for characterization and evaluation of sample preservation capability for the proposed Mars Sample Return (MSR) campaign. The sealing methods include a finned shape memory alloy (SMA) plug, expanding torque plug, contracting SMA ring cap, .DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .
Sample tube seal testing for Mars Sample Return
DOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample ReturnDOI: 10.1109/AERO.2014.6836223 Corpus ID: 39531193; Sample tube seal testing for Mars Sample Return @article{Younse2014SampleTS, title={Sample tube seal testing for Mars Sample Return}, author={Paulo J. Younse and Katherine Acord and David C. Aveline and Xiaoqi Bao and Luther W. Beegle and Daniel F. Berisford and Pradeep Bhandari and Charles J. .
Sample tube seal testing for Mars Sample Return
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tube seal testing mars sample return younse|Sample Capture and Orientation Technologies for Potential