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New advances in thermal plasma research (1980)

Chappell, Charles R. ; Baugher, Charles R. ; Horwitz, James L.

American Geophysical Union

In: Reviews of Geophysics. 1980; 18(4): 853. Published 1980 Jan 01. doi: 10.1029/rg018i004p00853.

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Publication Date: 1980-01-01

Print ISSN: 8755-1209

Topics: Geosciences

Published by American Geophysical Union

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ACAP: Acceleration Characterization and Analysis Project (1992)

Baugher, Charles R.

In: CASI

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Publication Date: 2013-08-29

Description: Information on the Acceleration Characterization and Analysis Project presentation to the Vibration Isolation Workshop is given in viewgraph form. Topics covered include the microgravity acceleration requirements curve, a schedule of major microgravity payload flights, and determination of shuttle orbiter center of gravity.

Keywords: MATERIALS PROCESSING

Type: NASA. Lewis Research Center, International Workshop on Vibration Isolation Technology for Microgravity Science Applications; p 295-307

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Video requirements for materials processing experiments in the space station US laboratory (1989)

Baugher, Charles R.

In: CASI

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Publication Date: 2013-08-31

Description: Full utilization of the potential of the materials research on the Space Station can be achieved only if adequate means are available for interactive experimentation between the science facilities and ground-based investigators. Extensive video interfaces linking these three elements are the only alternative for establishing a viable relation. Because of the limit in the downlink capability, a comprehensive complement of on-board video processing, and video compression is needed. The application of video compression will be an absolute necessity since it's effectiveness will directly impact the quantity of data which will be available to ground investigator teams, and their ability to review the effects of process changes and the experiment progress. Video data compression utilization on the Space Station is discussed.

Keywords: MATERIALS PROCESSING

Type: NASA. Goddard Space Flight Center, Proceedings of the Scientific Data Compression Workshop; p 119-126

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Basic features of the STS/Spacelab vibration environment (1994)

Baugher, Charles R. ; Ramachandran, N.

In: CASI

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Publication Date: 2013-08-31

Description: The Space Shuttle acceleration environment is characterized. The acceleration environment is composed of a residual or quasi-steady component and higher frequency components induced by vehicle structural modes and the operation of onboard machinery. Quasi-steady accelerations are generally due to atmospheric drag, gravity gradient effects, and rotational forces. These accelerations tend to vary with the orbital frequency (approx. 10(exp -4) Hz) and have magnitudes less than or equal to 10(exp -6) g(sub 0) (where 1 g(sub 0) is terrestrial gravity). Higher frequency g-jitter is characterized by oscillatory disturbances in the 1-100 Hz range and transient components. Oscillatory accelerations are related to the response of large flexible structures like antennae, the Spacelab module, and the Orbiter itself, and to the operation of rotating machinery. The Orbiter structural modes in the 1-10 Hz range, are excited by oscillatory and transient disturbances and tend to dominate the energy spectrum of the acceleration environment. A comparison of the acceleration measurements from different Space Shuttle missions reveals the characteristic signature of the structural modes of the Orbiter overlaid with mission specific hardware induced disturbances and their harmonics. Transient accelerations are usually attributed to crew activity and Orbiter thruster operations. During crew sleep periods, the acceleration levels are typically on the order of 10(exp -6) g(sub 0) (1 micro-g). Crew work and exercise tend to raise the accelerations to the 10(exp -3) g(sub 0) (1 milli-g) level. Vernier reaction control system firings tend to cause accelerations of 10(exp -4) g(sub 0), while primary reaction control system and Orbiter maneuvering system firings cause accelerations as large as 10(exp -2) g(sub 0). Vibration isolation techniques (both active and passive systems) used during crew exercise have been shown to significantly reduce the acceleration magnitudes.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: Joint Launch + One Year Science Review of USML-1 and USMP-1 with the Microgravity Measurement Group; p 45-64

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5

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Noise power spectral density of the Sundstrand QA-2000 accelerometer (1990)

Grindeland, David ; Baugher, Charles R. ; Peters, Rex

In: CASI

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Publication Date: 2016-03-09

Description: There are no good data on low frequency (less than 0.1 Hz) power spectral density (PSD) for the Q-Flex accelerometer. However, some preliminary stability measurements were made over periods of 12 to 24 hours and demonstrated stability less than 0.5 micro-g over greater than 12 hours. The test data appear to contain significant contributions from temperature variations at that level, so the true sensor contribution may be less than that. If what was seen could be construed as a true random process, it would correspond to about 0.1 micro-g rms over a bandwidth from 10(exp -5) Hz to about 1 Hz. Other studies of low frequency PSD in flexure accelerometers have indicated that material aging effects tend to approximate a first order Markhov process. If we combine such a model with the spectrum obtained at higher frequencies, it suggests the spectrum shown here as a conservative estimate of Q-Flex noise performance.

Keywords: SPACECRAFT INSTRUMENTATION

Type: NASA, Marshall Space Flight Center, Measurement and Characterization of the Acceleration Environment on Board the Space Station; 6 p

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Microgravity acceleration modeling for orbital systems (1990)

Knabe, Walter ; Baugher, Charles R.

In: Other Sources

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Publication Date: 2019-01-25

Description: In view of the decisive importance of a disturbance-free environment on the Space Station, and on other orbital systems, for materials processing experiments, a theoretical and semi-experimental analysis of the acceleration environment to be expected on large orbiting spacecraft was undertaken. A unified model of such spacecraft cannot be established; therefore, a number of sub-models representing major components of typical large spacecraft must be investigated. In order to obtain experimental data of forces, a typical spacecraft - an engineering model of the Spacelab - was suspended on long ropes in a high-bay hangar, and equipped with a number of accelerometers. Active components on the Spacelab (fans, pumps, air conditioners, valves, levers) were operated, and astronautics moved boxes, drawers, sleds, and their own bodies. Generally speaking, the response of the Spacelab structure was very similar to the environment measured on Spacelabs SL-1, SL-2, and D-1. At frequencies in the broad range between 1 and about 100 Hz, acceleration peaks reached values of 10(exp -3) and 10(exp -2) g sub o, and even higher.

Keywords: MATERIALS PROCESSING

Type: NASA, Marshall Space Flight Center, Measurement and Characterization of the Acceleration Environment on Board the Space Station; 1 p

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7

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Development of and flight results from the Space Acceleration Measurement System (SAMS) (1992)

Delombard, Richard ; Finley, Brian D. ; Baugher, Charles R.

In: Other Sources

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Publication Date: 2019-06-28

Description: This paper describes the development of and flight results from the Space Acceleration Measurement System (SAMS) flight units used in the Orbiter middeck, Spacelab module and the Orbiter cargo bay. The SAMS units are general purpose microgravity accelerometers designed to support a variety of science experiments with microgravity acceleration measurements. A total of six flight units have been fabricated; four for use in the Orbiter middeck and Spacelab module, and two for use in the Orbiter cargo bay. The design of the units is briefly described. The initial two flights of SAMS units on STS-40 (June 1991) and STS-43 (August 1991) resulted in 371 megabytes and 2.6 gigabytes of data, respectively. Analytical techniques developed to examine this quantity of acceleration data are described and sample plots of analyzed data are illustrated. Future missions for the SAMS units are listed.

Keywords: SPACECRAFT INSTRUMENTATION

Type: AIAA PAPER 92-0354

Format: text

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8

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First Post-Flight Status Report for the Microgravity Science Glovebox (2003)

Baugher, Charles R., III

In: Other Sources

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Publication Date: 2019-07-18

Description: The Microgravity Science Glovebox (MSG) was launched to the International Space Station (ISS) this year on the second Utilization Flight (UF2). After successful on-orbit activation, the facility began supporting an active microgravity research program. The inaugural NASA experiments operated in the unit were the Solidification Using a Baffle in Sealed Ampoules (SUBSA, A. Ostrogorski, PI), and the Pore Formation and Mobility (PFMI, R. Grugel, PI) experiments. Both of these materials science investigations demonstrated the versatility of the facility through extensive use of telescience. The facility afforded the investigators with the capability of monitoring and operating the experiments in real-time and provided several instances in which the unique combination of scientists and flight crew were able to salvage situations which would have otherwise led to the loss of a science experiment in an unmanned, or automated, environment. The European Space Agency (ESA) also made use of the facility to perform a series of four experiments that were carried to the ISS via a Russian Soyuz and subsequently operated by a Belgium astronaut during a ten day Station visit. This imaginative approach demonstrated the ability of the MSG integration team to handle a rapid integration schedule (approximately seven months) and an intensive operations interval. Interestingly, and thanks to aggressive attention from the crew, the primary limitation to experiment thru-put in these early operational phases is proving to be the restrictions on the up-mass to the Station, rather than the availability of science operations.

Keywords: Spacecraft Design, Testing and Performance

Type: American Inst. of Aeronautics and Astronautics Conference; Jan 05, 2003 - Jan 10, 2003; Reno, NV; United States

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9

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Joint Launch + One Year Science Review of USML-1 and USMP-1 with the Microgravity Measurement Group (1994)

Baugher, Charles R. ; Frazier, Donald. O. ; Ramachandran, N. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This document summarizes from the various investigations their comprehensive results and highlights, and also serves as a combined mission report for the first United States Microgravity Laboratory (USML-1) amd the United States Microgravity Payload (USMP-1). USML-1 included 31 investigations in fluid dynamics, crystal growth, combustion, biotechnology, and technology demonstrations supported by 11 facilities. On the USMP-1 mission, both the MEPHISTO and Lambda Point experiments exceeded by over 100 percent their planned science objectives. The mission was also the first time that acceleration data were down-linked and analyzed in real time.

Keywords: SPACE SCIENCES (GENERAL)

Type: NASA-CP-3272-VOL-1 , M-750-VOL-1 , NAS 1.55:3272-VOL-1 , Sep 22, 1993 - Sep 24, 1993; Huntsville, AL; United States

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Measurement and Characterization of the Acceleration Environment on Board the Space Station (1990)

Baugher, Charles R.

In: CASI

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Publication Date: 2019-07-13

Description: This workshop provides a comprehensive overview of the work and status of each of these areas to provide a basis for establishing a systematic approach to the challenge of avoiding these difficulties during the Space Station era of materials experimentation. The discussions were arranged in the order of: the scientific understanding of the requirements for a micro-gravity environment, a history of acceleration measurements on spacecraft, the state of accelerometer technology, and the current understanding of the predicted Space Station environment.

Keywords: SPACE SCIENCES (GENERAL)

Type: NASA-CP-3088 , M-639 , NAS 1.55:3088 , Aug 11, 1986 - Aug 14, 1986; Guntersville, AL; United States

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