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Development and Capabilities of Unique Structural Seal Test Rigs (2002)

DeMange, Jeffrey J. ; Steinetz, Bruce M. ; Breen, Daniel P. ; [et al.]

In: CASI

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Publication Date: 2004-12-03

Description: High temperature structural seals are necessary in many aerospace and aeronautical applications to minimize any detrimental effects originating from undesired leakage. The NASA Glenn Research Center has been and continues to be a pioneer in the development and evaluation of these types of seals. The current focus for the development of structural seals is for the 3rd Generation Reusable Launch Vehicle (RLV), which is scheduled to replace the current space shuttle system around 2025. Specific areas of development under this program include seals for propulsion systems (such as the hypersonic air-breathing ISTAR engine concept based upon Rocket Based Combined Cycle technology) and control surface seals for spacecraft including the autonomous rescue X-38 Crew Return Vehicle and the X-37 Space Maneuver Vehicle.

Keywords: Research and Support Facilities (Air)

Type: 2001 NASA Seal/Secondary Air System Workshop; Volume 1; 301-314; NASA/CP-2002-211911/VOL1

Format: text

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Overview of NASA Glenn Seal Program (2002)

Daniels, Christopher C. ; DeMange, Jeffrey J. ; Dunlap, Patrick H., Jr. ; [et al.]

In: CASI

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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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Feasibility Assessment of Thermal Barriers for RSRM Nozzle Joint Locations (1999)

Steinetz, Bruce M. ; Dunlap, Patrick H., Jr.

In: CASI

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Publication Date: 2004-12-03

Description: Solid rockets, including the Space Shuttle solid rocket motor, are generally manufactured in large segments which are then shipped to their final destination where they are assembled. These large segments are sealed with a system of primary and secondary 0-rings to contain combustion gases inside the rocket which are at pressures of up to 900 psi and temperatures of up to 5500 F. The seals are protected from hot combustion gases by thick layers of phenolic insulation and by joint-filling compounds between these layers. Recently, though, routine inspections of nozzle-to-case joints in the Shuttle solid rocket motors during disassembly revealed erosion of the primary O-rings. Jets of hot gas leaked through gaps in the joint-filling compound between the layers of insulation and impinged on the O-rings. This is not supposed to take place, so NASA and Thiokol, the manufacturer of the rockets, initiated an investigation and found that design improvements could be made in this joint. One such improvement would involve using NASA Lewis braided thermal barriers as another level of protection for the O-ring seals against the hot combustion gases.

Keywords: Spacecraft Propulsion and Power

Type: 1998 NASA Seal/Secondary Air System Workshop; Volume 1; 205-217; NASA/CP-1999-208916/VOL1

Format: text

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Third Generation RLV Structural Seal Development Programs at NASA GRC (2002)

Dunlap, Patrick H., Jr. ; Steinetz, Bruce M. ; DeMange, Jeffrey J.

In: CASI

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Publication Date: 2004-12-03

Description: NASA GRC's work on high temperature structural seal development began in the late 1980's and early 1990's under the NASP (National Aero-Space Plane) project. Bruce Steinetz led the in-house propulsion system seal development program and oversaw industry efforts for propulsion system and airframe seal development for this vehicle. a propulsion system seal location in the NASP engine is shown. The seals were located along the edge of a movable panel in the engine to seal the gap between the panel and adjacent engine sidewalls. More recently, we worked with Rocketdyne on high temperature seals for the linear aerospike engine ramps. In applications such as the former X-33 program, multiple aerospike engine modules would be installed side by side on the vehicle. Seals are required in between adjacent engine modules along the edges and base of the engines. The seals have to withstand the extreme temperatures produced byt he thrusters at the top of the ramps while accommodating large deflections between adjacent ramps. We came up with several promising seal concepts for this application and shared them with Rocketdyne.

Keywords: Mechanical Engineering

Type: 2001 NASA Seal/Secondary Air System Workshop; Volume 1; 285-299; NASA/CP-2002-211911/VOL1

Format: text

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Analyses of Control Surface Seal Tested in the Ames Arc Jet Tunnel (Panel Test Facility) (2002)

Robbie, Malcolm G. ; Dunlap, Patrick H., Jr. ; Breen, Daniel P. ; [et al.]

In: CASI

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Publication Date: 2004-12-03

Description: The contents include: 1) Rope Seal; 2) Improvements to porous medial simulation in CFD-ACE+; 3) Porous media heat transfer validation case-stead-state and transient flat plate; 4) Simulation of GRC cold flow seal test fixture; 5) Simulation of calibration plate in the Panel Test Facility (PTF); and 6) Simulation of rope seal test in the PTF. This paper is in viewgraph form.

Keywords: Mechanical Engineering

Type: 2001 NASA Seal/Secondary Air System Workshop; Volume 1; 315-339; NASA/CP-2002-211911/VOL1

Format: text

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Rudder/Fin Seal Investigations for the X-38 Re-Entry Vehicle (2001)

Curry, Donald M. ; Dunlap, Patrick H., Jr. ; Steinetz, Bruce M.

In: CASI

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Publication Date: 2004-12-03

Description: NASA is currently developing the X-38 vehicle that will be used to demonstrate the technologies required for a crew return vehicle (CRV) for the International Space Station (ISS). The CRV will serve both as an ambulance for medical emergencies and as an evacuation vehicle for the Space Station. Control surfaces on the X-38 (body flaps and rudders/fins) require high temperature seals to limit hot gas ingestion and transfer of heat to underlying low-temperature structures to prevent over-temperature of these structures and possible loss of the vehicle. NASA's Johnson Space Center (JSC) and Glenn Research Center (GRC) are working together to develop and evaluate seals for the rudder/fin control surfaces. The specific objectives of this study are to measure seal flow rates, resiliency, and unit loads in as-received and temperature-exposed conditions and compare the measured results to property goals where applicable. Areas for future work would then be identified.

Keywords: Mechanical Engineering

Type: 2000 NASA Seal/Secondary Air System Workshop; Volume 1; 315-330; NASA/CP-2001-211208/VOL1

Format: text

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Development of Thermal Barriers For Solid Rocket Motor Nozzle Joints (2000)

Steinetz, Bruce M. ; Dunlap, Patrick H., Jr.

In: CASI

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Publication Date: 2016-06-07

Description: Joints in the Space Shuttle solid rocket motors are sealed by O-rings to contain combustion gases inside the rocket that reach pressures of up to 900 psi and temperatures of up to 5500 F. To provide protection for the O-rings, the motors are insulated with either phenolic or rubber insulation. Gaps in the joints leading up to the O-rings are filled with polysulfide joint-fill compounds as an additional level of protection. The current RSRM nozzle-to-case joint design incorporating primary, secondary, and wiper O-rings experiences gas paths through the joint-fill compound to the innermost wiper O-ring in about one out of every seven motors. Although this does not pose a safety hazard to the motor, it is an undesirable condition that NASA and rocket manufacturer Thiokol want to eliminate. Each nozzle-to-case joint gas path results in extensive reviews and evaluation before flights can be resumed. Thiokol and NASA Marshall are currently working to improve the nozzle-to-case joint design by implementing a more reliable J-leg design that has been used successfully in the field and igniter joint. They are also planning to incorporate the NASA Glenn braided carbon fiber thermal barrier into the joint. The thermal barrier would act as an additional level of protection for the O-rings and allow the elimination of the joint-fill compound from the joint.

Keywords: Spacecraft Propulsion and Power

Type: 1999 NASA Seal/Secondary Air System Workshop; Volume 1; 299-315; NASA/CP-2000-210472/VOL1

Format: application/pdf

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Apollo Seals: A Basis for the Crew Exploration Vehicle Seals (2007)

Daniels, Christopher C. ; Steinetz, Bruce M. ; Dunlap, Patrick H., Jr. ; [et al.]

In: CASI

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Publication Date: 2018-06-06

Description: NASA s Vision for Space Exploration Replace the Space Shuttle for missions to ISS. Return to the Moon. Allow manned exploration of Mars. Apollo-like configuration. Blunt-body heat shield. Conical backshell. CEV requires seal development. Prevent ingestion of reentry gases. Prevent loss of habitable atmosphere.

Keywords: Mechanical Engineering

Type: 2006 NASA Seal/Secondary Air System Workshop; Volume 1; 415-442; NASA/CP-2007-214995/VOL1

Format: application/pdf

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Overview of LIDS Docking and Berthing System Seals (2007)

Steinetz, Bruce M. ; Smith, Ian ; Oswald, Jay J. ; [et al.]

In: CASI

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Publication Date: 2018-06-06

Description: This viewgraph presentation describes the Low Impact Docking System (LIDS) docking and berthing system seals. The contents include: 1) Description of the Application: Low Impact Docking System (LIDS); 2) LIDS Seal Locations: Vehicle Undocked (Hatch Closed); 3) LIDS Seal Locations: Mechanical Pass Thru; 4) LIDS Seal Locations: Electrical and Pyro Connectors; 5) LIDS Seal Locations: Vehicle Docked (Hatches Open); 6) LIDS Seal Locations: Main Interface Seal; 7) Main Interface Seal Challenges and Specifications; 8) Approach; 9) Seal Concepts Under Development/Evaluation; 10) Elastomer Material Evaluations; 11) Evaluation of Relevant Seal Properties; 12) Medium-Scale (12") Gask-O-Seal Compression Tests; 13) Medium-Scale Compression Results; 14) Adhesion Forces of Elliptical Top Gask-o-seals; 15) Medium-Scale Seals; 16) Medium-Scale Leakage Results: Effect of Configuration; 17) Full Scale LIDS Seal Test Rig Development; 18) Materials International Space Station Experiment (MISSE 6A and 6B); and 19) Schedule.

Keywords: Mechanical Engineering

Type: 2006 NASA Seal/Secondary Air System Workshop; Volume 1; 349-371; NASA/CP-2007-214995/VOL1

Format: application/pdf

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Apollo Seals: A Basis for the Crew Exploration Vehicle Seals (2007)

Daniels, Christopher C. ; Dunlap, Patrick H., Jr. ; Steinetz, Bruce M. ; [et al.]

In: CASI

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Publication Date: 2018-06-06

Description: The National Aeronautics and Space Administration is currently designing the Crew Exploration Vehicle (CEV) as a replacement for the Space Shuttle for manned missions to the International Space Station, as a command module for returning astronauts to the moon, and as an earth reentry vehicle for the final leg of manned missions to the moon and Mars. The CEV resembles a scaled-up version of the heritage Apollo vehicle; however, the CEV seal requirements are different than those from Apollo because of its different mission requirements. A review is presented of some of the seals used on the Apollo spacecraft for the gap between the heat shield and backshell and for penetrations through the heat shield, docking hatches, windows, and the capsule pressure hull.

Keywords: Spacecraft Design, Testing and Performance

Format: application/pdf

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