Aero Nav Laboratories, Inc.
Aero Nav Laboratories is a full service environmental simulation lab that has served the military and industrial communities.
- 631-392-4888
- 631-392-4883
- AeroNavLabs@aeronavlabs.com
- 18 Connor Ln
Deer Park, NY 11729
United States of America
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Explosive Atmosphere Test
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This test demonstrates that a part will not ignite while operating in an explosive ambient atmosphere. The tests are conducted at ground level pressure as well as reduced barometric pressures, in a closed explosion-proof chamber.
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Accelerated Weathering Test
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Accelerated weathering consists of relatively long term exposure of items to specified environments.This test is designed to observe for material degradation.
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Sand & Dust Test
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This test method is divided into two procedures. The small particle procedure, using fine dust is performed to ascertain the ability of equipment to resist the effects of fine particles which may penetrate into cracks, crevices, bearings, and joints. The blowing sand test, using coarse particles, is performed to determine whether equipment can be stored and operated under blowing sand conditions without experiencing degradation of its performance, effectiveness, reliability, and maintainability due to the abrasion or clogging effect of large, sharp-edged particles.
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Electrical Contacts Test
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The electrical contact testing is performed to determine the reliability of equipment under various contacting conditions. A few types of electrical contact tests are: contact-chatter monitoring, contact resistance, intermediate, and low level contact switching.
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Testing Services Test
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Aero Nav Laboratories is uniquely positioned to provide testing services that promote safe and reliable products, which are in compliance with the government and industry standards.
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Emergency Conditions Testing
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Electromagnetic interference (also known as radio frequency interference) tests are used to determine the electromagnetic characteristics of electrical, electronic, and electro-mechanical equipment. Electromagnetic interference, both radiated or conducted, can affect the performance of equipment. Electromagnetic interference tests are specified as follows: conducted emission, radiated emission, conducted susceptibility, and radiated susceptibility.
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Fluid Contamination Test
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Fluid contamination testing determines the abilities of materials to withstand the contaminating fluids, to which they are exposed in service.
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Enclosures
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An enclosure is a mechanical item which either partly or wholly surrounds a component or assembly. Enclosure tests determine the suitability of equipment enclosures and sealing design techniques to provide various functions, including the following: Physical and environmental protection to the enclosed items. Protection from items within the enclosure to personnel or objects outside the enclosure.Means for ventilating items within the enclosure. Means for cooling items within the enclosure. Sealing equipment to protect against leakage, both internal and external. Enclosures are designed to provide various degree of protection.
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Terminal Mechanical Strength Test
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The terminal strength test is used to performed to determine whether the design of electrical terminals and their method of attachment can withstand mechanical stresses to which they will be subjected during installation or disassembly in equipment. These stresses must be withstood by the component without sustaining damage which would affect either the integrity of the terminals or the operation of the component part itself. Procedures are established in this method for testing, for example wire-lead terminals, flexible-flat-strip or tab-lead terminals, and rigid-type terminals which are threaded or have other arrangements for attaching conductors. The forces applied during the test consist of direct axial, radial or tension pulls, twist, bending torsion, and the torque exerted by the application of nuts or screws on threaded terminals.
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Fungus Test
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The fungus test assesses the extent to which material will support fungal growth and how any fungal growth may affect performance. The fungus test also identifies how rapidly fungus will grow on the material, and how fungus affects the material, its mission, and its safety for use following the growth of fungus on the material.
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Dielectric Withstanding Voltage Test
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The dielectric withstanding voltage test (also called high-potential, over-potential voltage-breakdown, or dielectric-strength test) consists of the application of a voltage significantly higher than rated voltage for a specific time, between mutually insulated portions of a component part or between insulated portions and ground. This is used to prove that the component part can operate safely at its rated voltage and withstand momentary over-potentials due to switching, surges, and other similar phenomena.
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Electrical Measurements Test
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The tests are performed to measure and collect data from electrical and electronic parts using various measurement methods including, but not limited, to the following: capacitance, resistance, winding resistance, insulation resistance, magnetic permeability, power input, and quality factor Q.
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Lightning Test
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Lightning testing is used to determine the ability of externally mounted electrical and electronic equipment to withstand the direct effects of a lightning strike.
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Fire & Flammability Test
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Fire & Flammability testing: ASTM E119 [UL 263]; ASTM E152 [UL 10C]; ASTM E814 [UL 1479]; API 607, 6A; ASTM E108 [UL 790]; UL 1709; UL 1715; UL 2043; NFPA 286; UBC 26-2; UBC 26-3; ASTM E84 [NFPA 255, UL 723]; ASTM E162; ASTM E662 [NFPA 258]; ASTM D635; ASTM D1929; ASTM D2863; ASTM E1354; ASTM E1317; Room Burn Facility; CAL 133, 117, 129; UL 94 V/HB; IMO A.652 (16); IMO A.653 (16); ULVW I; ASTM D2859; AITM 2.0007; NFPA 701; FMVSS 302; FAA 25.853; IEEE 383
