High pressure cylinder sleeve requires corrosion resistance and can withstand high pressure. Under the extreme terrible working condition,stainless steel 9Cr18 of high carbon and high chromium can meet the demand of high pressure cylinder sleeve. However, its thermal processing performance is poor, and it is easy to crack during or after forging. In addition, it usually has twin carbide in the annealing microstructure that affects corrosion resistance and the service life of high pressure cylinder sleeve. Heating before forging was realized to reduce the formation of delta ferrite and improve the forging plasticity by a slowly heating at low heating stage and a rapid heating at high heating stage. The forging process was conducted by upsetting and small scattered deformation, and stretching was realized on the upper flat and lower V anvils to break cast structure and coarse carbide. By adopting the after forged heat treatment process of spheroidizing annealing and accurately controlling the cooling speed, the twin carbide existing in the annealing microstructure was eliminated. As a result, the granular pearlite was obtained which met the requirements of high pressure cylinder sleeve.