Compared with the traditional water-based fracturingfluid thickener guanidine gum, the price ofsynthetic polymer is relatively low, and the temperature resistance, shear resistance and viscoelasticityof the formed fracturingfluid are better. Therefore, the fracturingfluid formed by the crosslinking ofHPAM and organic metal crosslinker will become one of the hot spots in the research of water-basedfracturingfluid. In this paper, zirconium oxychloride, acetic acid and triethanolamine were used as rawmaterials to prepare organic Zr-crosslinked agent. The polymer gel was formed by crosslinking theorganic Zr-crosslinked agent with the acrylamide copolymer KY-5S solution, and the viscosity of the gelwith different concentrations was investigated. The performance of the fracturingfluid was evaluatedthrough laboratory experiments. The results showed that the viscosity of the fracturingfluid remainedabove 100 mPa s at the shear rate of 170 s 1 and after 2 h of shear at 140 C. When the temperature was20 C, the shear stress was 0.1 Pa, and the frequency f varied from 0.1 to 10 Hz, the elastic modulus offracturingfluid was at least 11.6 Pa, and the viscous modulus was at least 8.54 Pa. At the temperature of90 C, when the addition of glue breaker was 0.01 wt%, the longest breaking time was 3 h, and themaximum viscosity of breaking liquid was 4.05 mPa s. The damage rate of core permeability of gluebreaker was about 13%. When the temperature was 25 C and the shear rate was 0–170 s-1, the viscosity offracturingfluid remained above 200 mPa s.