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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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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Electrostatic Discharge Test
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The electrostatic discharge test is designed to determine the ability of equipment to perform its intended function without permanent degradation of performance as a result of an air discharged electrostatic pulse. Electrostatic discharge is the result of an unbalanced electrical charge. Typically, it is created by insulator surfaces rubbing together or pulling apart. A transfer of electrostatic charge between bodies (materials, components, etc.) at different electrostatic potentials is caused by direct contact.
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Random Drop (Non-Packaged) Test
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The random drop test is used to determine the effects on non-packaged components of random, repeated dropping due to handling, shipping, and other field service conditions. The test is an accelerated test designed to indicate structural and mechanical weaknesses of types not necessarily detected in shock and vibration tests.
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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
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Product
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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Induced Signals Test
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The test relates to interfering signals that may be generated by interconnected equipment. Induced signal testing is used to determine if equipment will withstand various signals, such as might be introduced by failures in other equipment to which the test unit is connected.
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Inclination (Cyclic Motion) Test
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This test simulates cyclic motions such as encountered by equipment on marine applications, e.g, pitch, yaw, and roll.
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Product
Acceleration Testing
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The acceleration test is performed on a centrifuge to assure that material can structurally withstand the steady state inertia loads that are induced by platform acceleration, deceleration, and maneuver in the service environment, and can function without degradation during and following exposure to these forces. Acceleration tests are also used to assure that material does not become hazardous after exposure to crash loads. The acceleration test method is applicable to material that is installed in mobile platforms such as aircraft, helicopters, aerospace vehicles, air-carried stores, ground-launched missiles, trains, ships, automotive vehicles, etc.
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Soldering Test
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The soldering tests are conducted to determine if materials can withstand soldering effects, such as resistance to soldering heat, as well as the solderability of components during the manufacturing process.
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Corrosion Test
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The purpose of this test is to determine the resistance of materials and protective coatings to corrosive atmospheres when a more corrosive environment than the salt fog/spray test is required. The test is used when material is stored or operated in areas, for example, where acidic atmospheres exist, such as in industrial areas or near the exhausts of any fuel-burning device. Gases such as sulfur dioxide are used to replicate the exhausts of fuel burning devices.
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Shock Test
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Shock testing determines the ability of equipment to withstand the infrequent non-repetitive shocks encountered in handling, transportation, and service and to continue to function, where required. Also, shock tests verify that equipment will not detach from its mounting during these tests.
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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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Product
Electromagnetic Interference Test
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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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Product
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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Product
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.
