If you spin a star at near the speed of light, then due to the conservation of angular momentum will it never collapse?

If the conservation of angular momentum dictates that when an object decreases in diameter, it's rotations per minute increases, then if you were to spin a star to near the speed of light, then would it not collapse because then it's angular momentum would exceed the speed of light? Ignore the obvious impracticalities of completing this task.
Answer:

After a few trillion billion quadrillion years it might slow down by a a small sliver

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Other answers

The star would not collapse into a supernova if that's what you mean the star would simply fall apart meaning it would disintegrate by the speed it us rotating in fact stars ex: pulsars a type of white dwarf don't spin very fast because they do have a limit depending on their mass

eric9201

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