A method of forming a canister by means of a mechanical bonding of respective layers of a first metal material (tantalum) and a second metal material (niobium) to form a sheet stock, thereby forming the sheet stock into a canister form, wherein the first metal material comprises tantalum and the second metal material comprises at least one of niobium, molybdenum, or steel. The completed canister comprises a first metal material comprising tantalum, and a second metal material mechanically bonded to the first metal material by subjecting the first and second metal materials to at least 1,000,000 psi, to thereby form a canister having an inner diameter of 13-19 millimeters (mm), the second metal material comprising at least one of niobium, molybdenum, or steel.

Provided is a can body in which a skirt part of the cap attached to a curl part certainly wraps to fixable and pressure resistance can be improved. A cylindrical part and a mouth part connected with a neck part with a smaller diameter than the cylindrical part are provided with; the mouth part has a curl part at an outer peripheral part which is made by folding a tip outward in a radial direction to round up; and in a vertical cross section on a can axis, a concave part is formed toward a lower side in the can axis direction, between an outer peripheral-lower side bent part which is convex diagonally downward on an outer peripheral part of the curl part and a curl end part having the tip.

An apparatus and tool set forming a three-dimensionally shaped portion on a shoulder of a can including an inner roll having a receiver for receiving the shoulder from inside; an outer roll for pressing the shoulder from outside; and a rotating unit for rotating the inner roll and the outer roll relative to the can. The shoulder is formed on a side of an upper end of a cylindrical body of the can in a can axis direction to be reduced in a diameter toward a side of a mouth of the can and to have a thickness of 0.1 to 0.3 mm. The receptor of the inner roll has at least one of a concave portion and a convex portion, and has a diameter reduced portion corresponding to a shape of the shoulder. Further, the inner roll and the outer roll are rotated by the rotating unit.

An apparatus and tool set forming a three-dimensionally shaped portion on a shoulder of a can including an inner roll having a receiver for receiving the shoulder from inside; an outer roll for pressing the shoulder from outside; and a rotating unit for rotating the inner roll and the outer roll relative to the can. The shoulder is formed on a side of an upper end of a cylindrical body of the can in a can axis direction to be reduced in a diameter toward a side of a mouth of the can and to have a thickness of 0.1 to 0.3 mm. The receptor of the inner roll has at least one of a concave portion and a convex portion, and has a diameter reduced portion corresponding to a shape of the shoulder. Further, the inner roll and the outer roll are rotated by the rotating unit.

A can is provided. The can may include a shoulder, which is formed on a side of an upper end of a cylindrical body of the can in a can axis direction to be reduced in a diameter toward a side of a mouth of the can and to have a thickness of 0.1 to 0.3 mm, and has at least one of a concave portion and a convex portion. An inside diameter of the mouth may be 25 to 60 mm, a maximum outside diameter of the shoulder may be 50 to 70 mm, and a ratio of the maximum outside diameter of the shoulder to the inside diameter of the mouth may be 1.05 to 1.58.

A can is provided. The can may include a shoulder, which is formed on a side of an upper end of a cylindrical body of the can in a can axis direction to be reduced in a diameter toward a side of a mouth of the can and to have a thickness of 0.1 to 0.3 mm, and has at least one of a concave portion and a convex portion. An inside diameter of the mouth may be 25 to 60 mm, a maximum outside diameter of the shoulder may be 50 to 70 mm, and a ratio of the maximum outside diameter of the shoulder to the inside diameter of the mouth may be 1.05 to 1.58.

A plastic intermediate article including a container portion and a trim portion. The container portion includes a neck portion having a plurality of threads. In embodiments, each of the plurality of threads include a first portion and a second portion, wherein the first portion is provided at a first angle relative to a centerline of the plastic blow molded intermediate article, the second portion is provided at a second angle relative to the centerline of the plastic blow molded intermediate article, and the first angle and second angle are different. A method for making a plastic container includes providing a plastic preform, blow molding the preform into an intermediate article that includes a neck portion with a plurality of blown threads, and removing an upper portion of the intermediate article.

The Utility Model discloses a barrel with reinforced barrel rim, comprising a barrel body, and a barrel rim upwards extending along the barrel body, wherein a clamping strip extruded from the barrel rim is set around the barrel rim on four sides, the four sides of the barrel rim above the clamping strip are inclined towards the center of the barrel rim, and when the angle between the clamping strip and the four sides of the barrel rim is defined to be A, A is greater than 90° and less than or equal to 135°. The barrel rim in this patent application is reinforced, the inclination design provides the barrel rim the guiding function that when the barrel cover is hung at the barrel rim on the production line, the barrel cover can fall towards the barrel rim along the inclination in a correct way so as to be convenient for the following press; besides, the inclination of the barrel rim can separate the stress of the barrel rim so that the barrel rim can bear more pressure and hardly be deformed when being pressed.

The Utility Model discloses a barrel with reinforced barrel rim, comprising a barrel body, and a barrel rim upwards extending along the barrel body, wherein a clamping strip extruded from the barrel rim is set around the barrel rim on four sides, the four sides of the barrel rim above the clamping strip are inclined towards the center of the barrel rim, and when the angle between the clamping strip and the four sides of the barrel rim is defined to be A, A is greater than 90° and less than or equal to 135°. The barrel rim in this patent application is reinforced, the inclination design provides the barrel rim the guiding function that when the barrel cover is hung at the barrel rim on the production line, the barrel cover can fall towards the barrel rim along the inclination in a correct way so as to be convenient for the following press; besides, the inclination of the barrel rim can separate the stress of the barrel rim so that the barrel rim can bear more pressure and hardly be deformed when being pressed.

A pillar shaped container for storing a granulated powder. The container has a sidewall having a cylindrical upper portion, a continuously concave curved intermediate portion and a cylindrical lower portion.