A release agent for a hot-forging die, containing micronanobubbles.

A release agent for a hot-forging die, containing micronanobubbles.

A method of preparing a cylindrical metal member includes preparing a metallic ingot having at least one surface having a mean width with respect to ruggedness Sm in a range of from 100 μm to 220 μm; imparting a lubricant to the at least one surface of the metallic ingot; and subjecting the metallic ingot to impact pressing while the surface coated with the lubricant with respect to the metallic ingot is set as a bottom surface, to thereby mold a cylindrical metal member.

A method for manufacturing a cold-forged extruded aluminum alloy rod includes the steps of: (A) preparing a primary material and a cold extrusion apparatus including a cold extrusion die and a cold extrusion punch corresponding in position to the cold extrusion die; (B) processing the primary material to form a solid preform; (C) subjecting the preform to a homogeneous annealing; (D) testing the hardness of the preform; (E) immersing the preform in a tank containing a lubricant for a predetermined time, (F) applying talcum powder on the preform; and (C) subjecting the preform to cold forging to thereby forming the cold-forged extruded aluminum alloy rod.

A method for manufacturing a cold-forged extruded aluminum alloy rod includes the steps of: (A) preparing a primary material and a cold extrusion apparatus including a cold extrusion die and a cold extrusion punch corresponding in position to the cold extrusion die; (B) processing the primary material to form a solid preform; (C) subjecting the preform to a homogeneous annealing; (D) testing the hardness of the preform; (E) immersing the preform in a tank containing a lubricant for a predetermined time, (F) applying talcum powder on the preform; and (C) subjecting the preform to cold forging to thereby forming the cold-forged extruded aluminum alloy rod.

Provided is a method for producing a hot forged material capable of preventing the generation of double-barreling shaped forging defects. The method for producing a hot forged material, wherein both an upper die and a lower die are made of Ni-based super heat-resistant alloy and the method comprises a hot forging step of pressing a material for hot forging by the lower die and the upper die in the air to form the hot forged material, the method comprising: a raw material heating step of heating the material for hot forging in a furnace to a heating temperature within a range of 1025 to 1150° C.; a die heating step of heating the upper die and the lower die to a heating temperature within a range of 950 to 1075° C.; and a transferring step of transferring the material for hot forging onto the lower die by a manipulator after the completion of the raw material heating step and the die heating step, wherein a value obtained by subtracting the heating temperature of the upper die and the lower die from the heating temperature of the material for hot forging is 75° C. or more.

Provided herein are compositions comprising at least one estolide compound of formula:

##STR00001##

in which n is an integer equal to or greater than 0; m is an integer equal to or greater than 1; R.sub.1, independently for each occurrence, is selected from optionally substituted alkyl that is saturated or unsaturated, and branched or unbranched; R.sub.2 is selected from hydrogen and optionally substituted alkyl that is saturated or unsaturated, and branched or unbranched; and R.sub.3 and R.sub.4, independently for each occurrence, are selected from optionally substituted alkyl that is saturated or unsaturated, and branched or unbranched. Also provided are uses of the compositions described herein.

Provided herein are compositions comprising at least one estolide compound of formula:

##STR00001##

in which n is an integer equal to or greater than 0; m is an integer equal to or greater than 1; R.sub.1, independently for each occurrence, is selected from optionally substituted alkyl that is saturated or unsaturated, and branched or unbranched; R.sub.2 is selected from hydrogen and optionally substituted alkyl that is saturated or unsaturated, and branched or unbranched; and R.sub.3 and R.sub.4, independently for each occurrence, are selected from optionally substituted alkyl that is saturated or unsaturated, and branched or unbranched. Also provided are uses of the compositions described herein.

A mould for hot forging includes a first half-mould and a second half-mould. The first and second half-moulds each include a mould holder having a recess and a die provided with an impression. The die is combined with the mould holder at the recess. At least one of the first half-mould and the second half-mould is provided with at least one feeding channel for a lubricating-cooling liquid, extending from an outer wall of the mould holder to the recess of the mould holder, and with a plurality of distribution channels for the lubricating-cooling liquid. At least one quota of the plurality of distribution channels includes distribution channels extending from a wall of the die facing the recess, to the impression. The at least one feeding channel and the distribution channels face at least one gap formed between the mould holder and the respective die at the recess.

A mould for hot forging includes a first half-mould and a second half-mould. The first and second half-moulds each include a mould holder having a recess and a die provided with an impression. The die is combined with the mould holder at the recess. At least one of the first half-mould and the second half-mould is provided with at least one feeding channel for a lubricating-cooling liquid, extending from an outer wall of the mould holder to the recess of the mould holder, and with a plurality of distribution channels for the lubricating-cooling liquid. At least one quota of the plurality of distribution channels includes distribution channels extending from a wall of the die facing the recess, to the impression. The at least one feeding channel and the distribution channels face at least one gap formed between the mould holder and the respective die at the recess.