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  • 1
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    Overview of NASA Glenn Seal Program (2002)
    In:  CASI
    Details
    Publication Date: 2004-12-03
    Description: NASA Glenn hosted the Seals/Secondary Air System Workshop on October 30-31, 2001. Each year NASA and our industry and university partners share their respective seal technology developments. We use these workshops as a technical forum to exchange recent advancements and "lessons-learned" in advancing seal technology and solving problems of common interest. As in the past we are publishing two volumes. Volume I will be publicly available and individual papers will be made available on-line through the web page address listed at the end of this chapter. Volume II will be restricted under International Traffic and Arms Regulations (I.T.A.R.) and/or Export Administration Regulations (E.A.R.).
    Keywords: Mechanical Engineering
    Type: 2001 NASA Seal/Secondary Air System Workshop; Volume 1; 25-52; NASA/CP-2002-211911/VOL1
    Format: text
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    NASA TECHNICAL REPORTS
  • 2
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    Pressure Balanced, Low Hysteresis Finger Seal Test Results (2000)
    In:  CASI
    Details
    Publication Date: 2016-06-07
    Description: The purpose of this presentation is to demonstrate: low cost photoetching fabrication technique; pressure balanced finger seal design; and finger seal operation. The tests and analyses includes: finger seal air leakage analysis; rotor-run out and endurance tests; and extensive analytical work and rig testing.
    Keywords: Mechanical Engineering
    Type: 1999 NASA Seal/Secondary Air System Workshop; Volume 1; 175-196; NASA/CP-2000-210472/VOL1
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 3
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    Preliminary Assessment of Seals for Dust Mitigation of Mechanical Components for Lunar Surface Systems (2010)
    In:  CASI
    Details
    Publication Date: 2018-06-11
    Description: Component tests were conducted on spring-loaded Teflon seals to determine their performance in keeping lunar simulant out of mechanical component gearbox, motor, and bearing housings. Baseline tests were run in a dry-room without simulant for 10,000 cycles to determine wear effects of the seal against either anodized aluminum or stainless steel shafts. Repeat tests were conducted using lunar simulants JSC-1A and LHT-2M. Finally, tests were conducted with and without simulant in vacuum at ambient temperature. Preliminary results indicate minimal seal and shaft wear through 10,000 cycles, and more importantly, no simulant was observed to pass through the seal-shaft interface. Future endurance tests are planned at relevant NASA Lunar Surface System architecture shaft sizes and operating conditions.
    Keywords: Space Sciences (General)
    Type: Proceedings of the 40th Aerospace Mechanisms Symposium; 309-316; NASA/CP-2010-216272
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 4
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    Continued Investigation of Leakage and Power Loss Test Results for Competing Turbine Engine Seals (2007)
    In:  CASI
    Details
    Publication Date: 2018-06-06
    Description: Seal leakage decreases with increasing surface speed due to reduced clearances from disk centrifugal growth. Annular and labyrinth seal leakage are 2-3 times greater than brush and finger seal leakage. Seal leakage rates increase with increasing temperature because of seal clearance growth due to different coefficients of thermal expansion between the seal and test disk. Seal power loss is not strongly affected by inlet temperature. Seal power loss increases with increasing surface speed, seal pressure differential, mass flow rate or flow factor, and radial clearance. The brush and finger seals had nearly the same power loss. Annular and labyrinth seal power loss were higher than finger or brush seal power loss. The brush seal power loss was the lowest and 15-30% lower than annular and labyrinth seal power loss.
    Keywords: Mechanical Engineering
    Type: 2006 NASA Seal/Secondary Air System Workshop; Volume 1; 171-192; NASA/CP-2007-214995/VOL1
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 5
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    Overview of NASA Glenn Seal Project (2006)
    In:  CASI
    Details
    Publication Date: 2018-06-06
    Description: NASA Glenn is currently performing seal research supporting both advanced turbine engine development and advanced space vehicle/propulsion system development. Studies have shown that decreasing parasitic leakage through applying advanced seals will increase turbine engine performance and decrease operating costs. Studies have also shown that higher temperature, long life seals are critical in meeting next generation space vehicle and propulsion system goals in the areas of performance, reusability, safety, and cost. NASA Glenn is developing seal technology and providing technical consultation for the Agency s key aero- and space technology development programs.
    Keywords: Space Transportation and Safety
    Type: 2005 NASA Seal/Secondary Air System Workshop, Volume 1; 45-78; NASA/CP-2006-214383/VOL1
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 6
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    Dynamic Analysis of Spur Gear Transmissions (DANST). PC Version 3.00 User Manual (1996)
    In:  CASI
    Details
    Publication Date: 2019-06-28
    Description: DANST is a FORTRAN computer program for static and dynamic analysis of spur gear systems. The program can be used for parametric studies to predict the static transmission error, dynamic load, tooth bending stress and other properties of spur gears as they are influenced by operating speed, torque, stiffness, damping, inertia, and tooth profile. DANST performs geometric modeling and dynamic analysis for low- or high-contact-ratio spur gears. DANST can simulate gear systems with contact ratios ranging from one to three. It was designed to be easy to use and it is extensively documented in several previous reports and by comments in the source code. This report describes installing and using a new PC version of DANST, covers input data requirements and presents examples.
    Keywords: Computer Programming and Software
    Type: NASA-TM-107291 , E-10367 , NAS 1.15:107291 , AD-A313207 , ARL-TR-1189
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 7
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    Overview of NASA Glenn Seal Program (2003)
    In:  CASI
    Details
    Publication Date: 2018-06-06
    Description: The Seal Team is divided into four primary areas. These areas include turbine engine seal development, structural seal development, acoustic seal development, and adaptive seal development. The turbine seal area focuses on high temperature, high speed shaft seals for secondary air system flow management. The structural seal area focuses on high temperature, resilient structural seals required to accommodate large structural distortions for both space- and aero-applications. Our goal in the acoustic seal project is to develop non-contacting, low leakage seals exploiting the principles of advanced acoustics. We are currently investigating a new acoustic field known as Resonant Macrosonic Synthesis (RMS) to see if we can harness the large acoustic standing pressure waves to form an effective air-barrier/seal. Our goal in the adaptive seal project is to develop advanced sealing approaches for minimizing blade-tip (shroud) or interstage seal leakage. We are planning on applying either rub-avoidance or regeneration clearance control concepts (including smart structures and materials) to promote higher turbine engine efficiency and longer service lives.
    Keywords: Research and Support Facilities (Air)
    Type: 2002 NASA Seal/Secondary Air System Workshop; Volume 1; 35-58; NASA/CP-2003-212458/VOL1
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 8
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    New High-Temperature Turbine Seal Rig Fabricated (2000)
    In:  CASI
    Details
    Publication Date: 2018-06-05
    Description: Current NASA program goals for aircraft engines and vehicle performance include reducing direct operating costs for commercial aircraft by 3 percent in large engines and 5 percent in regional engines, reducing engine fuel burn up to 10 percent, and reducing engine oxides of nitrogen emissions by more than 50 percent. Significant advancements in current gas turbine engines and engine components, such as seals, are required to meet these goals. Specifically, advanced seals have been identified as critical in meeting engine goals for specific fuel consumption, thrust-to-weight ratio, emissions, durability, and operating costs. In a direct effort to address and make progress toward these goals, researchers at the NASA Glenn Research Center at Lewis Field have developed a unique high-temperature, high-speed engine seal test rig to evaluate seals under the temperature, speed, and pressure conditions anticipated for next generation turbine engines. This new seal test rig has capabilities beyond those of any existing seal rigs. It can test air seals (i.e., labyrinth, brush, and new seal concepts) at temperatures of up to 1500 F and pressures up to 100 psid (even higher pressures are possible at lower temperatures), and at all surface speeds anticipated in future NASA (Ultra Efficient Engine Technology, UEET, and Integrated High-Performance Turbine Engine Technology, IHPTET) engine programs. In addition, seals can be tested offset from the rotor centerline, in the rotor runout condition, and with simulated mission profiles. Support for this new rig was provided by NASA Glenn, the U.S. Air Force, and the U.S. Army.
    Keywords: Research and Support Facilities (Air)
    Type: Research and Technology 1999; NASA/TM-2000-209639
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 9
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    New High-Temperature Turbine Seal Rig Installed (2001)
    In:  CASI
    Details
    Publication Date: 2018-06-02
    Description: Current NASA program goals for aircraft engines and vehicle performance include reducing direct operating costs for commercial aircraft by 3 percent in large engines and 5 percent in regional engines, reducing engine fuel burn up to 10 percent, and reducing engine oxides of nitrogen emissions by more than 50 percent. Significant advancements in current gas turbine engines and engine components, such as seals, are required to meet these goals. Specifically, advanced seals have been identified as critical in meeting engine goals for specific fuel consumption, thrust-to-weight ratio, emissions, durability, and operating costs. In a direct effort to address and make progress toward these goals, researchers at the NASA Glenn Research Center have developed a unique high-temperature, high-speed engine seal test rig to evaluate seals under the temperature, speed, and pressure conditions anticipated for next-generation turbine engines. Newly installed, this seal test rig has capabilities beyond those of any existing seal rigs. It can test air seals (i.e., labyrinth, brush, and new seal concepts) at temperatures of up to 1500 F and pressures up to 100 psid (even higher pressures are possible at lower temperatures), and at all surface speeds anticipated in future NASA (Ultra-Efficient Engine Technology, UEET) and Integrated High-Performance Turbine Engine Technology (IHPTET) engine programs. In addition, seals can be tested offset from the rotor centerline, in the rotor runout condition, and with simulated mission profiles. Support for this new rig was provided by Glenn, the U.S. Air Force, and the U.S. Army.
    Keywords: Research and Support Facilities (Air)
    Type: Research and Technology 2000; NASA/TM-2001-210605
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 10
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    Overview of NASA Glenn Seal Developments (2004)
    In:  CASI
    Details
    Publication Date: 2018-06-06
    Description: Turbine engine studies have shown that reducing high pressure turbine (HPT) blade tip clearances will reduce fuel burn, lower emissions, retain exhaust gas temperature margin and increase range. Dr. Lattime presented the design and development status of a new Active Clearance Control Test rig aimed at demonstrating advanced ACC approaches and sensors. Mr. Melcher presented controls considerations for turbine active clearance control. Mr. Geisheimer of Radatech presented an overview of their microwave blade tip sensor technology. Microwave tip sensors show promise of operation in the extreme gas temperatures present in the HPT location. Mr. Justak presented an overview of non-contacting seal developments at Advanced Technologies Group. Dr. Braun presented investigations into a non-contacting finger seal under development by NASA GRC and University of Akron. Dr. Stango presented analytical assessments of the effects of flow-induced radial loads on brush seal behavior. Mr. Flaherty presented innovative seal and seal fabrication developments at FlowServ. Mr. Chappel presented abradable seal developments at Technetics. Dr. Daniels presented an overview of NASA GRC s acoustic seal developments. NASA is investigating the ability to harness high amplitude acoustic waves, possible through a new field of acoustics called Resonant Macrosonic Synthesis, to effect a non-contacting, low leakage seal. Dr. Daniels presented early results showing the ability to restrict flow via acoustic pressures. Dr. Athavale presented numerical results simulating the flow blocking capability of a pre-prototype acoustic seal.
    Keywords: Aircraft Propulsion and Power
    Type: 2003 NASA Seal/Secondary Air System Workshop, Volume 1; 19-42; NASA/CP-2004-212963/VOL1
    Format: application/pdf
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    NASA TECHNICAL REPORTS
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