Abstract: Provided are: a method for producing a high-speed tool steel material capable of increasing carbides in the structure of a high-speed tool steel product; a method for producing a high-speed tool steel product; and a high-speed tool steel product. The method for producing a high-speed tool steel material is provided with: a casting step for casting molten steel to obtain a steel ingot; a blooming step for heating the steel ingot obtained in said casting step to a temperature higher than 1120° C. and thereafter hot-working same to obtain an intermediate material; and a finishing step for heating the intermediate material obtained in the blooming step to a temperature of 900-1120° C. and thereafter hot-working same to obtain the high-speed tool steel material. Further, said method for producing a high-speed tool steel material is provided with an annealing step for annealing the high-speed tool steel material obtained in said finishing step.

Abstract: Provided are: a method for producing a high-speed tool steel material capable of increasing carbides in the structure of a high-speed tool steel product; a method for producing a high-speed tool steel product; and a high-speed tool steel product. The method for producing a high-speed tool steel material is provided with: a casting step for casting molten steel to obtain a steel ingot; a blooming step for heating the steel ingot obtained in said casting step to a temperature higher than 1120° C. and thereafter hot-working same to obtain an intermediate material; and a finishing step for heating the intermediate material obtained in the blooming step to a temperature of 900-1120° C. and thereafter hot-working same to obtain the high-speed tool steel material. Further, said method for producing a high-speed tool steel material is provided with an annealing step for annealing the high-speed tool steel material obtained in said finishing step.

Abstract: A hot-working tool material has an annealed structure and is to be quenched and tempered before using, wherein: the hot-working tool material has a composition from which a martensite structure can be prepared by the quenching; and, in ferrite crystal grains in the annealed structure in a cross section of the hot-working tool material, the ratio by number of ferrite crystal grains having a largest diameter (L) of 100 ?m or more is not more than 10.0% relative to the total ferrite crystal grains, and the ratio by number of ferrite crystal grains having an aspect ratio (L/T) [wherein (L) stands for a largest diameter, and (T) stands for the largest transverse width orthogonally crossing the same] of 3.0 or more is not more than 10.0% relative to the total ferrite crystal grains.

Abstract: Provided are: a method for producing a high-speed tool steel material capable of increasing carbides in the structure of a high-speed tool steel product; a method for producing a high-speed tool steel product; and a high-speed tool steel product. The method for producing a high-speed tool steel material is provided with: a casting step for casting molten steel to obtain a steel ingot; a blooming step for heating the steel ingot obtained in said casting step to a temperature higher than 1120° C. and thereafter hot-working same to obtain an intermediate material; and a finishing step for heating the intermediate material obtained in the blooming step to a temperature of 900-1120° C. and thereafter hot-working same to obtain the high-speed tool steel material. Further, said method for producing a high-speed tool steel material is provided with an annealing step for annealing the high-speed tool steel material obtained in said finishing step.

Abstract: Provided are a hot-working tool material having an annealed structure that is effective in suppressing variations in toughness when processed into a hot-working tool, a method for manufacturing a hot-working tool using the hot-working tool material, and a hot-working tool. The hot-working tool material has an annealed structure and is to be quenched and tempered before using, wherein: the hot-working tool material has a composition from which a martensite structure can be prepared by the quenching; and, in ferrite crystal grains in the annealed structure in a cross section of the hot-working tool material, the ratio by number of ferrite crystal grains having a largest diameter (L) of 100 ?m or more is not more than 10.0% relative to the total ferrite crystal grains, and the ratio by number of ferrite crystal grains having an aspect ratio (L/T) [wherein (L) stands for a largest diameter, and (T) stands for the largest transverse width orthogonally crossing the same] of 3.0 or more is not more than 10.