The Cr coating was successfully prepared on the Zr-4 cladding tube by the thermal spraying process APS. The purpose is to spray and repair the welding area of ??the nuclear reactor fuel components at both ends， and to complete coating the welding area and seamlessly connect with the PVD coating area，so as to achieve fully coated protective coating of the outer surface with anti-oxidation and wear-resistant. The microstructure of Cr coating before and after oxidation was qualitatively and quantitatively analyzed by scanning electron microscope （SEM）， X-ray diffractometer （XRD）， X-ray energy spectrum （EDS） and electron probe （EPMA）. Both Cr powder and sprayed Cr coating are BCC phase， sprayed Cr coating is a typical layered structure， and the interface between coating and substrate is mechanical occlusal interface. When exposed to high temperature up to 1200 ℃ in air and flowing steam， a dense Cr₂O₃ layer was formed on the surface of Cr coating， and a Cr-Zr layer was formed by mutual diffusion between Zr-4 substrate and Cr coating. After high-temperature steam oxidation， the Cr coating samples had a high density of needle-like and leaf-shaped whisker oxides on the dense oxide layer， but no whisker Cr₂O₃ was found in the air. The oxidation tests show that Cr coating can effectively improve the oxidation resistance of Zr-4 cladding tube in high-temperature air and flowing steam.