Özet:

Aviation, space and military electronics are distinct from commercial electronics. Space vehicles, launching vehicles and satellites are exposed to very severe environmental conditions and loads such as high temperature changes to the life cycle, upheating, vacuum, shock and vibration. The product’s life on spacecrafts and satellites is usually expressed by long periods of 5 to 15 years. Reliability is one of the most crucial and unparalleled stages of space studies. Reliability can be defined as the ability of a product or component to fulfill the desired performance in the expected time. There are various international standards available for the verification of the elements or components (systems, subsystems, equipment and modules) used in spacecraft. These standards may require different tests for qualification, acceptance and pre-flight stages or the same test at different levels for different stages. Verification processes include destructive and undestructive tests, as well as various tests. The reliability tests and tests applied in space electronics may include visual, stereo microscope, X-ray tests and some main tests and tests such as heat cycle, vibration tests, as well as the tests and tests requested and identified by the customer. Through these tests and tests, errors and life forecasts of the item or component are made.

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