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Contamination control program for the Hubble Space Telescope second servicing mission (1997)

Maag, Carl R. ; Hansen, Patricia A.

In: CASI

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Publication Date: 2004-12-03

Description: The integrity and outgassing certification of reflown hardware, maintained between servicing missions while accommodating configuration changes to the hardware, are discussed. The Hubble Space Telescope requires a periodically servicing mission to maintain its scientific capabilities. Servicing carriers are reflown for each servicing mission. The mission contamination control program is unique as it must maintain the current operational capability of the telescope while allowing manned servicing.

Keywords: Optics

Type: ; 135-142

Format: text

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12

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Characterization of a graphite epoxy optical bench during thermal vacuum cycling (1988)

Jenkins, Teresa K. ; Taylor, Daniel M. ; Maag, Carl R. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: In-situ monitoring of the Wide-Field/Planetary Camera, a Hubble Space Telescope science instrument, was performed in a vacuum environment to better understand the formation of ice on cooled optical detectors. Several diagnostic instruments were mounted on an access plate to view the interior of the instrument housing and the graphite epoxy optical bench. The instrumentation chosen and the rationale for choosing the instrumentation are discussed. In addition, the performance of the instrumentation during monitoring operations is discussed.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: NASA, Goddard Space Flight Center, 15th Space Simulation Conference: Support the Highway to Space Through Testing; p 12-25

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13

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On-Orbit Teflon(trademark) FEP Degradation (1999)

Townsend, Jacqueline ; Dever, Joyce A. ; Hansen, Patricia A.

In: CASI

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Publication Date: 2016-06-07

Description: During the Hubble Space Telescope (HST) Second Servicing Mission (SM2), degradation of unsupported Teflon(trademark) FEP (fluorinated ethylene propylene), used as the outer layer of the multi-layer insulation (MLI) blankets, was evident as large cracks on the telescope light shield. A sample of the degraded outer layer was retrieved during the mission and returned to Earth for ground testing and evaluation. The results of the Teflon(trademark) FEP sample evaluation and additional testing of pristine Teflon FEP led the investigative team to theorize that the HST damage was caused by thermal cycling with deep-layer damage from electron and proton radiation which allowed the propagation of cracks along stress concentrations, and that the damage increased with the combined total dose of electrons, protons, UV and x-rays along with thermal cycling. This paper discusses the testing and evaluation of the Teflon(trademark) FEP.

Keywords: Nonmetallic Materials

Type: 20th Space Simulation Conference: The Changing Testing Paradigm; 219-232; NASA/CP-1999-208598

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14

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Hubble Space Telescope Metallized Teflon(registered trademark) FEP Thermal Control Materials: On-Orbit Degradation and Post-Retrieval Analysis (1988)

Hansen, Patricia A. ; Banks, B. ; Wang, L. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: During the Hubble Space Telescope (HST) Second Servicing Mission (SM2), degradation of unsupported Teflon(Registered Trademark) FEP (fluorinated ethylene propylene), used as the outer layer of the multilayer insulation (MLI) blankets, was evident as large cracks on the telescope light shield. A sample of the degraded outer layer was retrieved during the mission and returned to Earth for ground testing and evaluation. The results of the Teflon(Registered Trademark) FEP sample evaluation and additional testing of pristine Teflon(Registered Trademark) FEP led the investigative team to theorize that the HST damage was caused by thermal cycling with deep-layer damage from electron and proton radiation which allowed the propagation of cracks along stress concentrations , and that the damage increased with the combined total dose of electrons, protons, UV and x-rays along with thermal cycling. This paper discusses the testing and evaluation of the retrieved Teflon(Registered Trademark) FEP.

Keywords: Nonmetallic Materials

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15

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Ground-Based Testing of Replacement Thermal Control Materials for the Hubble Space Telescope (1998)

Banks, Bruce A. ; Townsend, Jacqueline A. ; McClendon, Mark W. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: The mechanical and optical properties of the metallized Teflon FEP thermal control materials on the Hubble Space Telescope (HST) have degraded over the nearly seven years the telescope has been in orbit. Given the damage to the outer layer of the multi-layer insulation (MLI) that was apparent during the second servicing mission (SM2), the decision was made to replace the outer layer during subsequent servicing missions. A Failure Review Board was established to investigate the damage to the MLI and identify a replacement material. The replacement material had to meet the stringent thermal requirements of the spacecraft and maintain mechanical integrity for at least ten years. Ten candidate materials were selected and exposed to ten-year HST-equivalent doses of simulated orbital environments. Samples of the candidates were exposed sequentially to low and high energy electrons and protons, atomic oxygen, x-ray radiation, ultraviolet radiation and thermal cycling. Following the exposures, the mechanical integrity and optical properties of the candidates were investigated using Optical Microscopy, Scanning Electron Microscopy (SEM), a Laboratory Portable Spectroreflectometer (LPSR) and a Lambda 9 Spectroreflectometer. Based on the results of these simulations and analyses, the Failure Review Board selected a replacement material and two alternates that showed the highest likelihood of providing the requisite thermal properties and surviving for ten years in orbit.

Keywords: Composite Materials

Type: High Performance Polymers Journal

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16

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Investigation of microgravity effects on solidification phenomena of selected materials (1992)

Maag, Carl R. ; Hansen, Patricia A.

In: CASI

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Publication Date: 2013-08-31

Description: A Get Away Special (GAS) experiment payload to investigate microgravity effects on solidification phenomena of selected experimental samples has been designed for flight. It is intended that the first flight of the assembly will (1) study the p-n junction characteristics for advancing semiconductor device applications, (2) study the effects of gravity-driven convection on the growth of HgCd crystals, (3) compare the textures of the sample which crystallizes in microgravity with those found in chondrite meteorites, and (4) modify glass optical characteristics through divalent oxygen exchange. The space flight experiment consists of many small furnaces. While the experiment payload is in the low gravity environment of orbital flight, the payload controller will sequentially activate the furnaces to heat samples to their melt state and then allow cooling to resolidification in a controlled fashion. The materials processed in the microgravity environment of space will be compared to the same materials processed on earth in a one-gravity environment. This paper discusses the design of all subassemblies (furnance, electronics, and power systems) in the experiment. A complete description of the experimental materials is also presented.

Keywords: MATERIALS PROCESSING

Type: NASA. Goddard Space Flight Center, The 1992 Shuttle Small Payloads Symposium; p 95-101

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17

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Hubble Space Telescope servicing mission scientific instrument protective enclosure design requirements and contamination controls (1994)

Chivatero, Craig J. ; Hedgeland, Randy J. ; Studer, Robert J. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: The Scientific Instrument Protective Enclosures were designed for the Hubble Space Telescope Servicing Missions to provide a beginning environment to a Scientific Instrument during ground and on orbit activities. The Scientific Instruments required very stringent surface cleanliness and molecular outgassing levels to maintain ultraviolet performance. Data from the First Servicing Mission verified that both the Scientific Instruments and Scientific Instrument Protective Enclosures met surface cleanliness level requirements during ground and on-orbit activities.

Keywords: OPTICS

Type: Eighteenth Space Simulation Conference: Space Mission Success Through Testing; p 75-85

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18

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Innovative Contamination Certification of Multi-Mission Flight Hardware (1999)

Triolo, Jack J. ; Hughes, David W. ; Montt, Kristina M. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: Maintaining contamination certification of multi-mission flight hardware is an innovative approach to controlling mission costs. Methods for assessing ground induced degradation between missions have been employed by the Hubble Space Telescope (HST) Project for the multi-mission (servicing) hardware. By maintaining the cleanliness of the hardware between missions, and by controlling the materials added to the hardware during modification and refurbishment both project funding for contamination recertification and schedule have been significantly reduced. These methods will be discussed and HST hardware data will be presented.

Keywords: Spacecraft Design, Testing and Performance

Type: 20th Space Simulation Conference: The Changing Testing Paradigm; 1-13; NASA/CP-1999-208598

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19

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The Swift Project Contamination Control Program: A Case Study of Balancing Cost, Schedule and Risk (2004)

Day, Diane T. ; Secunda, Mark S. ; Hansen, Patricia A. ; [et al.]

In: CASI

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Publication Date: 2018-06-06

Description: The Swift Observatory will be launched in early 2004 to examine the dynamic process of gamma ray burst (GRB) events. The multi-wavelength Observatory will study the GRB afterglow characteristics, which will help to answer fundamental questions about both the structure and the evolution of the universe. The Swift Observatory Contamination Control Program has been developed to aid in ensuring the success of the on-orbit performance of two of the primary instruments: the Ultraviolet and Optical Telescope (UVOT) and the X-Ray Telescope (XRT). During the design phase of the Observatory, the contamination control program evolved and trade studies were performed to assess the risk of contaminating the sensitive UVOT and XRT optics during both pre-launch testing and on-orbit operations, within the constraints of the overall program cost and schedule.

Keywords: Administration and Management

Type: 23rd Space Simulation Conference Proceedings; NASA/CP-2005-212775

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20

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Thermal Control Replacement Materials Evaluated for Durability and Selected for the Hubble Space Telescope (1999)

Hansen, Patricia A. ; Banks, Bruce A. ; deGroh, Kim K.

In: CASI

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Publication Date: 2018-06-05

Description: During the Hubble Space Telescope (HST) second servicing mission, astronauts noticed that the outer layer of the multilayer insulation (MLI) was cracked in many locations around the telescope. The insulation s outer layer is composed of 5-mil (0.127 mm) Teflon FEP (DuPont; fluorinated ethylene propylene) with vapor-deposited aluminum (VDA) on the backside. The MLI blankets, which are used on over 80 percent of the external surface of the telescope, provide passive thermal control for equipment. Two large cracks were observed on the light shield directly above the high gain antenna. The upper light shield crack propagated from a cut placed in the blanket during installation around a handrail standoff. Two cracks propagated almost normal to each other, with the outer layer curling tightly as the cracks propagated. A second much larger vertical crack had started to curl and lift away from the telescope, as seen in the figure. MLI on the equipment bays was cracked extensively also, and in some areas it had pulled away from the bay. Continued degradation of the equipment bay insulation would potentially cause limited observations because of housekeeping boxes; for example, the data interface unit could overheat during some portions of the year, in certain sun angles.

Keywords: Nonmetallic Materials

Type: Research and Technology 1998; NASA/TM-1999-208815

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