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Development and Application of Microfabricated Chemical Gas Sensors For Aerospace Applications (1990)

Liu, C. C. ; Hall, G. ; Thomas, V. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-18

Description: Aerospace applications require the development of chemical sensors with capabilities beyond those of commercially available sensors. In particular, factors such as minimal sensor size, weight, and power consumption are particularly important. Development areas which have potential aerospace applications include launch vehicle leak detection, engine health monitoring and control, and fire detection. Sensor development for these applications is based on progress in three types of technology: 1) Micromachining and microfabrication (Microsystem) technology to fabricate miniaturized sensors. 2) The use of nanocrystalline materials to develop sensors with improved stability combined with higher sensitivity. 3) The development of high temperature semiconductors, especially silicon carbide. Sensor development for each application involves its own challenges in the fields of materials science and fabrication technology. This paper discusses the needs of space applications and the point-contact sensor technology being developed to address these needs. Sensors to measure hydrogen, hydrocarbons, nitrogen oxides (Nox, carbon monoxide, oxygen, and carbon dioxide are being developed. A description is given of each sensor type and its present stage of development. Demonstration and application these sensor technologies will be described. The demonstrations range from use of a microsystem based hydrogen sensor on the Shuttle to engine demonstration of a nanocrystalline based sensor for NO, detection. It is concluded that microfabricated sensor technology has significant potential for use in a range of aerospace applications.

Keywords: Mechanical Engineering

Format: text

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Sensors and Rotordynamics Health Management Research for Aircraft Turbine Engines (2011)

Lekki, J. ; Abdul-Aziz, A. ; Hunter, G. ; [et al.]

In: CASI

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Publication Date: 2019-08-13

Description: Develop Advanced Sensor Technology and rotordynamic structural diagnostics to address existing Aviation Safety Propulsion Health Management needs as well as proactively begin to address anticipated safety issues for new technologies.

Keywords: Air Transportation and Safety

Type: E-661293 , Aviation Safety Program Annual Technical Meeting; May 10, 2011 - May 12, 2011; St. Louis, MO; United States

Format: application/pdf

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Chemical Gas Sensors for Aeronautic and Space Applications 2 (1998)

Hunter, G. W. ; Chen, L. Y. ; Makel, D. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Aeronautic and Space applications require the development of chemical sensors with capabilities beyond those of commercially available sensors. Areas of most interest include launch vehicle safety monitoring emission monitoring and fire detection. This paper discusses the needs of aeronautic and space applications and the point-contact sensor technology being developed to address these needs. The development of these sensor is based on progress two types of technology: 1) Micro-machining and micro-fabrication technology to fabricate miniaturized sensors. 2) The development of high temperature semiconductors, especially silicon carbide. Sensor development for each application involves its own challenges in the fields of materials science and fabrication technology. The number of dual-use commercial applications of this micro-fabricated gas sensor technology make this area of sensor development a field of significant interest.

Keywords: Life Sciences (General)

Type: NASA/TM-1998-208504 , NAS 1.15:208504 , E-11309 , Sensor Expo; May 19, 1998 - May 21, 1998; San Jose, CA; United States

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Resistance exercise prevents plantar flexor deconditioning during bed rest (1997)

Hunter, G. R. ; Bamman, M. M. ; Greenisen, M. C. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Because resistance exercise (REX) and unloading induce opposing neuromuscular adaptations, we tested the efficacy of REX against the effects of 14 d of bed rest unloading (BRU) on the plantar flexor muscle group. Sixteen men were randomly assigned to no exercise (NOE, N = 8) or REX (N = 8). REX performed 5 sets x 6-10 repetitions to failure of constant resistance concentric/eccentric plantar flexion every other day during BRU. One-repetition maximum (1RM) strength was tested on the training device. The angle-specific torque-velocity relationship across 5 velocities (0, 0.52, 1.05, 1.75, and 2.97 rad.s-1) and the full range-of-motion power-velocity relationship were assessed on a dynamometer. Torque-position analyses identified strength changes at shortened, neutral, and stretched muscle lengths. Concentric and eccentric contractile work were measured across ten repetitions at 1.05 rad.s-1. Maximal neural activation was measured by surface electromyography (EMG). 1RM decreased 9% in NOE and improved 11% in REX (P 〈 0.05). Concentric (0.52 and 1.05 rad.s-1), eccentric (0.52 and 2.97 rad.s-1), and isometric angle-specific torques decreased (P 〈 0.05) in NOE, averaging 18%, 17%, and 13%, respectively. Power dropped (P 〈 0.05) in NOE at three eccentric (21%) and two concentric (14%) velocities. REX protected angle-specific torque and average power at all velocities. Concentric and eccentric strength decreased at stretched (16%) and neutral (17%) muscle lengths (P 〈 0.05) in NOE while REX maintained or improved strength at all joint positions. Concentric (15%) and eccentric (11%) contractile work fell in NOE (P 〈 0.05) but not in REX. Maximal plantar flexor EMG did not change in either group. In summary, constant resistance concentric/eccentric REX completely prevented plantar flexor performance deconditioning induced by BRU. The reported benefits of REX should prove useful in prescribing exercise for astronauts in microgravity and for patients susceptible to functional decline during bed- or chair-bound hospital stays.

Keywords: Life Sciences (General)

Type: Medicine and science in sports and exercise (ISSN 0195-9131); 29; 11; 1462-8

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