Focusing on the banded microstructure formed during the production of 06Ni9 steels for cryo-LNG,this paper examines its formation,distribution of alloying elements,structure,hardness,and low-temperature property.The results show that the banded microstructure formed after hot-rolling and cooling of the steel binct in which the element segregation occurred during solidification.The phase change during heat treatment also can cause the formation of the banded microstructure of 06Ni9 steel.The white bands are mainly composed of ferrite and reversed austenite,and the black bands are mainly composed of reversed austenite and a certain amount of ferrite.Element segregation and formation of more carbide caused some black regions to appear.Grain refinement of 06Ni9steel is beneficial to the formation of reversed austenite,the redistribution of alloying elements,improving the stability of austenite and the low-temperature toughness of steel.This steel easily undergoes nickel segregation;thus,undergoing a secondary quenching and tempering process is recommended.The refinement of martensite quenching above A c3,the martensite that is rich in nickel and carbon,residual austenite and a few little of ferrite after secondary quenching lower than A c3 are beneficial to the formation of high stability austenite.Thus,this can meet the strength and toughness requirement of the low temperature 06Ni9 steel. Focusing on the banded microstructure formed during the production of 06Ni9 steels for cryo-LNG, this paper examines its formation, distribution of alloying elements, structure, hardness, and low-temperature property. The results show that the banded microstructure formed after hot-rolling and cooling of the steel binct in which the element segregation occurred during solidification. The phase change during heat treatment also can cause the formation of the banded microstructure of 06Ni9 steel.The white bands are mainly composed of ferrite and the black bands are mainly composed of at austenite and a certain amount of ferrite.Element segregation and formation of more carbide caused some black regions to appear. Graphing refinement of 06Ni9steel is beneficial to the formation of rented austenite, the redistribution of alloying elements, improving the stability of austenite and the low-temperature toughness of steel.This steel easier undergoes nickel segregation; thus, un dergoing a secondary quenching and tempering process is recommended. refinement of martensite quenching above A c3, the martensite that is rich in nickel and carbon, residual austenite and a few little of ferrite after secondary quenching lower than A c3 are beneficial to the formation of high stability austenite.Thus, this can meet the strength and toughness requirement of the low temperature 06Ni9 steel.