Cryogenic Systems Parts

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Part Number
NSN
NIIN
11303-2 O-ring
002459079
2-136 S604-70 O-ring
000684358
2-207V0747-75 O-ring
010053701
2-207V1164-75 O-ring
010053701
2-207V1226-75 O-ring
010053701
2-207V747-75 O-ring
010053701
25141-116-STD O-ring
002459079
25141-116STD O-ring
002459079
3976350 O-ring
000684358
602385-06 O-ring
000684358
8136-73117A O-ring
000684358
002459079
AMS 7276 O-ring
010062111
AS3209-207 O-ring
010053701
AS3209-468 O-ring
010062111
AS3582-136 O-ring
000684358
M83248/1-207 O-ring
010053701
M83248/1-468 O-ring
010062111
M83248/2-468 O-ring
010062111
MIL-R-83248/1 O-ring
010053701
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Cryogenic Systems

Picture of Cryogenic Systems

In physics, cryogenics is the study of the production and behaviour of materials at very low temperatures.

It is not well-defined at what point on the temperature scale refrigeration ends and cryogenics begins, but scientists

Discovery of superconducting materials with critical temperatures significantly above the boiling point of liquid nitrogen has provided new interest in reliable, low cost methods of producing high temperature cryogenic refrigeration. The term "high temperature cryogenic" describes temperatures ranging from above the boiling point of liquid nitrogen, -320 F (-195 C) up to -58 F (-50 C), the generally defined upper limit of study referred to as cryogenics.

A person who studies elements that have been subjected to extremely cold temperatures is called a cryogenicist.

Cryogenicists use the Kelvin or Rankine temperature scales present in nature.

The word cryogenics stems from Greek kρύο (cryo) – "cold" + genic – "having to do with production".

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