Non-magnetic stabilizer forging process

The invention relates to a non-magnetic stabilizer forging process. The steps of the process are as follows: (Step S01): blooming forging on an oil press: the 5000-ton oil press is utilized to do preliminary blooming work, a big step is drawn out to be hot Phi710, and small steps at both ends are drawn out to be hot Phi540; (Step S02): strengthening forging on a precision forging machine: the 1400-ton precision forging machine is adopted for forging forming, pull or push forging is performed after a clamp A and a clamp B are adopted for clamping, so that the small steps are forged into a preform size, the small steps at both ends are forged into a target size after temperature decreases to be lower than 800 DEG C, and finish forging temperature is not lower than 600 DEG C; (Step S03): strengthening forging on the oil press: the unstrengthened parts of the surface of the forging are forged at high speed to be strengthened under low pressure, deformation is 5 percent to 10 percent, and finish forging temperature is not lower than 500 DEG C; (Step S04): physical and chemical testing. The non-magnetic stabilizer forging process provided by the invention can produce non-magnetic stabilizers with uniform mechanical properties in each part and good magnetic property by utilizing the oil press and the precision forging machine for joint forging.