High pressure gas container and production method therefor

1 . A high pressure gas container comprising a metallic container, wherein the metallic container includes: a metallic cylinder having a female thread portion on an inner peripheral surface of at least one end; and a lid having, on an outer peripheral surface, a male thread portion configured to screw into the female thread portion, and a maximum value of residual compressive stress at a position of 0.4 mm in a depth direction from a plurality of thread bottoms of the female thread portion and the male thread portion is 100 MPa or more, less than or equal to tensile strength of a material of the metallic cylinder, and less than or equal to tensile strength of a material of the lid. 2 . The high pressure gas container according to claim 1 , wherein the maximum value of residual compressive stress is less than or equal to yield stress of the material of the metallic cylinder, and less than or equal to yield stress of the material of the lid. 3 . The high pressure gas container according to claim 1 , wherein the male thread portion of the lid is screwed into the female thread portion of the metallic cylinder, and the maximum value of residual compressive stress at a position of 0.4 mm in the depth direction from the plurality of thread bottoms of the female thread portion and the male thread portion is more than 0. 4 . A production method for a high pressure gas container including a metallic container that includes: a metallic cylinder having a female thread portion on an inner peripheral surface of at least one end; and a lid having, on an outer peripheral surface, a male thread portion configured to screw into the female thread portion, the production method comprising applying an internal pressure to the metallic container under at least one of the following conditions (A) and (B) and under both of the following conditions (C) and (D): (A) thread bottom stress of the female thread portion is more than yield stress of a material of the metallic cylinder; (B) thread bottom stress of the male thread portion is more than yield stress of a material of the lid; (C) axial stress of the metallic cylinder is less than or equal to tensile strength of the material of the metallic cylinder; and (D) circumferential stress of the metallic cylinder is less than or equal to the tensile strength of the material of the metallic cylinder. 5 . A production method for a high pressure gas container including a metallic container that includes: a metallic cylinder having a female thread portion on an inner peripheral surface of at least one end; and a lid having, on an outer peripheral surface, a male thread portion configured to screw into the female thread portion, the production method comprising: attaching a jig having a male thread portion on an outer peripheral surface to the metallic cylinder so that the male thread portion of the jig is screwed into the female thread portion of the metallic cylinder; applying an internal pressure to the metallic container under the following conditions (A), (C), and (D): (A) thread bottom stress of the female thread portion is more than yield stress of a material of the metallic cylinder; (C) axial stress of the metallic cylinder is less than or equal to tensile strength of the material of the metallic cylinder; and (D) circumferential stress of the metallic cylinder is less than or equal to the tensile strength of the material of the metallic cylinder; removing the jig from the metallic container; and tightening the lid on the metallic cylinder so that the male thread portion of the lid is screwed into the female thread portion of the metallic cylinder, wherein in the tightening of the lid, tightening torque is adjusted so that a maximum value of residual compressive stress at a position of 0.4 mm in a depth direction from a plurality of thread bottoms of the female thread portion and the male thread portion will be more than 0. 6 . The high pressure gas container according to claim 2 , wherein the male thread portion of the lid is screwed into the female thread portion of the metallic cylinder, and the maximum value of residual compressive stress at a position of 0.4 mm in the depth direction from the plurality of thread bottoms of the female thread portion and the male thread portion is more than 0.