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CURRENT
2012-01-17
Standard
AIR3270A
This SAE Aerospace Information Report (AIR) provides information on the possible methods of sealant removal. The discussion will focus on the methods of sealant removal and give the strengths and weaknesses of each method.
HISTORICAL
2008-01-16
Standard
AIR3270
This SAE Aerospace Information Report (AIR) provides information on the possible methods of sealant removal. The discussion will focus on the methods of sealant removal and give the strengths and weaknesses of each method.
HISTORICAL
1991-04-01
Standard
AIR4275
Standard reference fluids, or test fluids, have long been used to evaluate the effects of hydrocarbon fuels on various materials, such as integral fuel tank sealants. Standard fluids are required because hydrocarbon fuels, such as JP-4, vary widely in composition depending on crude source, refining techniques, and other factors. To ensure reliable and reproducible results when determining the fuel resistance of materials, reference fluids of known composition, using worst case fuel compositions, are used. The current Jet Reference Fluid (JRF) called out in military sealant specifications was developed in the mid-1950s specifically as a JP-4 type test fluid formulation to be used for the accelerated laboratory testing of integral fuel tank sealants. In August 1978, chalking of the polysulfide sealant in integral fuel tanks of some new aircraft at Edwards Air Force Base in California was discovered after only 1 year of service.
CURRENT
2012-01-17
Standard
AIR4275A
Standard reference fluids, or test fluids, have long been used to evaluate the effects of hydrocarbon fuels on various materials, such as integral fuel tank sealants. Standard fluids are required because hydrocarbon fuels, such as JP-4, vary widely in composition depending on crude source, refining techniques, and other factors. To ensure reliable and reproducible results when determining the fuel resistance of materials, reference fluids of known composition, using worst case fuel compositions, are used. The current Jet Reference Fluid (JRF) called out in military sealant specifications was developed in the mid-1950s specifically as a JP-4 type test fluid formulation to be used for the accelerated laboratory testing of integral fuel tank sealants. In August 1978, chalking of the polysulfide sealant in integral fuel tanks of some new aircraft at Edwards Air Force Base in California was discovered after only 1 year of service.
CURRENT
2015-03-25
Standard
AMS3377A
This specification covers a synthetic rubber sealing compound which is electrically conductive when used in a faying surface, contains corrosion inhibitors, and supplied as a two-component system which cures at room temperature, suitable for application by extrusion gun or spatula.
HISTORICAL
1991-01-01
Standard
AMS3378
This specification covers a two-component silicone rubber sealant and compatible primers.
HISTORICAL
2005-06-22
Standard
AMS3378A
This specification covers a two-component silicone rubber sealant and compatible primers.
HISTORICAL
1985-07-01
Standard
AMS3376
This specification covers a permanently mastic fluorosilicone sealing compound in the form of a paste. This product has been used typically for sealing or resealing integral fuel tanks designed for groove-injection type sealing for use from -65 to +360 °F (-54 to +182 °C), but usage is not limited to such applications.
HISTORICAL
1993-10-01
Standard
AMS3377
This specification covers a synthetic rubber sealing compound which is electrically conductive when used in a faying surface, contains corrosion inhibitors, and supplied as a two-component system which cures at room temperature, suitable for application by extrusion gun or spatula.
HISTORICAL
1992-07-01
Standard
AMS3376A
This specification covers a permanently mastic fluorosilicone compound in the form of a paste.
HISTORICAL
2009-10-23
Standard
AMS3376B
This specification covers a permanently mastic fluorosilicone sealing compound in the form of a paste.
CURRENT
2014-05-08
Standard
AMS3381
This specification covers non-silicone synthetic rubber sealing compounds curing to elastomeric materials.
CURRENT
2012-01-17
Standard
AMS3378B
This specification covers a two-component silicone rubber sealant and compatible primers.
CURRENT
2013-04-12
Standard
AMS3379
This specification establishes the requirements for a polysulfide sealing compound in putty consistency to be used for form-in-place sealing of removable doors, skins, and panels.
CURRENT
2011-02-18
Standard
AMS3374/3A
This specification covers two-part, condensation cured, high temperature resistant silicone sealing compounds.
CURRENT
2011-02-18
Standard
AMS3374/4A
This specification covers two-part, high temperature resistant polysulfide compounds.
HISTORICAL
1996-11-01
Standard
AMS3374A
This specification and its supplementary detail specifications cover sealing compounds which cure to elastomeric materials.
HISTORICAL
1996-11-01
Standard
AMS3374/4
This specification covers two-part, high temperature resistant polysulfide compounds.
HISTORICAL
1996-11-01
Standard
AMS3374/2
This specification covers two-part, addition cured, high temperature resistant silicone sealing compounds.
HISTORICAL
1996-11-01
Standard
AMS3374/3
This specification covers two-part, condensation cured, high temperature resistant silicone sealing compounds.
CURRENT
2011-02-18
Standard
AMS3374/1A
This specification covers a one-part, high temperature resistant silicone sealing compound supplied in caulking cartridges.
CURRENT
2011-02-18
Standard
AMS3374/2A
This specification covers two-part, addition cured, high temperature resistant silicone sealing compounds.
HISTORICAL
1993-07-01
Standard
AMS3375A
This specification covers a one-part fluorosilicone (FVMQ) adhesive/ sealant, supplied in cartridges, suitable for extrusion and curing to an elastomeric material upon exposure to air. It also covers a compatible primer.
HISTORICAL
1986-04-01
Standard
AMS3375
This specification covers a one-part fluorosilicone (FVMQ) adhesive/sealant, supplied in cartridges, suitable for extrusion and curing to an elastomeric material upon exposure to air. It also covers a compatible primer. This adhesive/sealant has been used typically for bonding cured fluorosilicone rubber and for sealing applications requiring resistance to fuels, oils, or solvents from -65 to +400 degrees F (-54 to +204 degrees C). but usage is not limited to such applications. This product should not be used for fay surface sealing or similar applications where exposure to air cannot be maintained. This product should not be used in thicknesses greater than 0.25 inch (6.4 mm), particularly in applications involving encapsulation.
CURRENT
2012-01-17
Standard
AMS3375C
This specification covers a one-part fluorosilicone (FVMQ) adhesive/sealant, supplied in cartridges, suitable for extrusion and curing to an elastomeric material upon exposure to air. It also covers a compatible primer.
HISTORICAL
2001-04-01
Standard
AMS3375B
This specification covers a one-part fluorosilicone (FVMQ) adhesive/ sealant, supplied in cartridges, suitable for extrusion and curing to an elastomeric material upon exposure to air. It also covers a compatible primer.
HISTORICAL
2005-07-22
Standard
AMS3374C
This specification covers six (6) types of sealing compounds curing to elastomeric materials.
2017-10-14
WIP Standard
AMS3374E
This specification covers six (6) types of sealing compounds curing to elastomeric materials.
HISTORICAL
2002-01-24
Standard
AMS3374B
This specification covers four types of sealing compounds curing to elastomeric materials.
CURRENT
2013-11-26
Standard
AMS3374D
This specification covers six (6) types of silicone sealing compounds curing to elastomeric materials.
Viewing 1 to 30 of 280