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Allen Aircraft Products
Metal Finishing
Services Hardcoat
Specifications: MIL-A-8625/TYPE III, MIL-A-63576, DPS 11.04, PS 13208, AMS 2468/2469
Major uses: Unsealed - maximum degree of abrasion/wear resistance (Rockwell 50-70) Sealed - Increases
corrosion resistance while reducing abrasion/wear resistance (i.e., outdoor applications)
Excellent resistance to electricity. (insulates)
Thickness: As low as .0001 and as high as .007 (dependent on alloy) however, wear resistance
decreases as thickness over .0025 increases.
Color: Matte aluminum to black dependent on alloy, its constituents and thickness of coating being applied.
Hard-Fin: Allen Aircraft Products, Inc. proprietary Hardcoat process meets all the above referenced
specifications with very little surface finish increase on wrought alloys; saves post hone/polish operations.
Phosphatized Components
Sulfuric Anodize
Specifications: MIL-A-8625/TYPE II, DPS 11.05, PS 13201, AMS 2471/2472
Major uses: Superior corrosion resistance and base for post-anodic paint systems, as well as
relatively low cost. Due to the wider, deeper anodic pore structure, this coating absorbs
dyestuffs and sealants much better than Hardcoat. Wide array of colors available for
cosmetic or identification purposes.
Thickness: Relatively thin coating, thickness is not a characteristic measured, but rather coating
weight. Sulfuric anodize with dichromate seal: 1000 mg/ft2, minimum.
Color: Class 1 with dichromate sealing is straw-green color. Class 2 can be any color specified,
i.e. black, olive drab, green... etc.
Architectural Anodize
Specifications: Aluminum association specifications where electrolytic deposition of
inorganic pigment is placed into the anodic pore.
Major uses: Superior resistance to ultraviolet rays and high heat environments where organic dyes are
weak. Excellent for most outdoor applications. Wide array of colors available based on
alloy, film thickness and customer specifications.
Thickness: Ranges from .0004 to .001 (.4 to 1.0 mil) as specified.
Color: Ranges from champagne to black
Parts being immersed in large hardcoat tank
Chromate Conversion Coatings
Specifications: MIL-C-5541, CLASSES 1A and 3, PS 13204, AMS 2473 Note: Class 1A
maximum corrosion resistance; Class 3 for protection against corrosion, while electrical resistance is at lowest possible.
Major uses: Class 1A - This coating is intended to provide corrosion prevention when left
unpainted, as well as to improve adhesion of paint and most spray coatings vs. uncoated
aluminum alloys.
Class 3 - This coating is intended to provide corrosion preventive film for electrical and electronic applications
where lower resistant contacts, relative to class 1A coatings as required.
Thickness: Not applicable. Extremely thin coating - not measurable by conventional means
Color: Generally, a golden iridescent color; however, color can be specified.
Passivate
Specifications: MIL-S-5002, QQ-P-35, ASTM A380 and ASTM A967
Major uses: During processing operations such as forming, machining, tumbling and lapping, iron
particles may become smeared over or imbedded into the surface of corrosion resistant
steel parts. These particles are removed from the surface by passivating in a bath of
Nitric Acid, which will render the surface passive, thus improving the corrosion
resistance of the part. It must also be noted that if a subsequent process is to be done
to the part, it will improve the adhesion of that coating system by having a chemically
clean surface on which to apply the coatings.
Racking Fixtures
Phosphate
Specifications: DOD-P-16232, TYPE M OR Z, TT-C-490, TYPE I (Manganese, Zinc
and light Zinc respectively)
Major uses: DOD-P-16232, Type M - Maganese Phosphate, Type M is more resistant than TYPE Z to alkaline
environments and can withstand up to 250 degrees (F). Also, an excellent base for
supplementary treatments (the coating acts much like a sponge and absorbs the oils,
teflons, solid film lubricants... etc.) DOD-P-16232, Type Z - Phosphate, Type Z coatings
should not be used if contact with alkalies or if working temperature exceed 200 degrees
(F). However, coating gives more anti-galling potential and is more resistant to
corrosion. Type I, Light Zinc Phosphate coatings are intended primarily for use as a
general, all-purpose pre-treatment, prior to painting. This is an excellent base for paint
and paint systems and is the preferred phosphate when parts are going to a subsequent
paint operation.
Color: Gray to black
Dry Film Lubricants
Specifications: MIL-L-46010 (Formerly MIL-L-8937), BAC 5811 and PS 18021
Major uses: These lubricants are resin-bonded, Molybdenum - Disulfide containing spray applied
coatings, which are intended to greatly reduce wear, corrosion, galling and seizure of
metals and are extremely resistant to solvents. Some typical application examples would
be: Plain and spherical bearings, flap tracks, hinges, threads and cam surfaces. Please
note that these coatings are meant to lubricate in a dry environment.
Thickness: .0002/.0005 thick
Color: Matte gray to black
Salt spray process control testing chamber
Teflon
Specifications: MIL-A-63576, Type III (spray applied over hardcoat)
Major uses: Lubrication under light loads or release and low coefficient of friction. Also, can be
done by immersion with Allen's "ALON" process over a previously coated surface
or on bare substrate as applicable.
Thickness: .0005/.001 spray applied and .0001/.0002 by immersion
Color: Spray applied - black; immersion method - clear to milky white color
Paints
Specifications: Various military, Department of Defense and commercial specifications
Major uses: Depending on which paint system is applied, increases corrosion resistance on most
finishes and base materials. Allen Aircraft also applies CARC (Chemical Agent Resistant
Coatings) coatings for military applications.
Thickness: Applied to various specification requirements
Color: Most colors referenced in FED-STD-595 for paint finishes.
Allen Aircraft Products, Inc. | |
