RU2007275C1 - Method of hot isostatic extrusion of articles of metallic powders - Google Patents

Abstract

FIELD: powder metallurgy. SUBSTANCE: method comprises steps of placing capsules in a vacuum chamber, the capsules having wall thickness, equal to 6 mm, and charging branch pipes, having opening with diameter, equal to 40 mm; with use of plug, having thickness, consisting 1,1- 2,5 of the capsule wall thickness and a diameter, providing a gap with a diameter, consisting 0,01-0,03 of the plug diameter; heating the capsules up to 400 C at vacuum 1×10^-4 mm Hg; filling them by powder of nickel alloy with use of vibration compaction; setting the plugs into the holes and sealing the capsule by melting butt edges of the branch pipe and the plug by a depth, consisting 0,7-0,9 of the plug thickness. Such parameters were provided by electron beam welding. EFFECT: enhanced reliability of sealing at hot isostatic extrusion and in the result yielding, increased by 15-20% . 1 cl, 1 tbl

Description

 The invention relates to powder metallurgy, in particular to methods for hot isostatic pressing of products from powder materials in sealed capsules.

 A known method of hot isostatic pressing of products from powder materials, including filling the container with powder material, heating, degassing in vacuum, sealing by welding the loading hole and subsequent hot sealing under full compression.

 A known method of hot isostatic pressing of products from powder materials, including the manufacture of a capsule with a hole, filling it with powder material with vacuum during heating, sealing by welding holes and hot isostatic pressing.

 The disadvantage of this method is the low yield due to the poor reliability of sealing capsules with metal powder.

 The aim of the invention is to increase yield by improving the reliability of sealing capsules with metal powder.

 The essence of the method lies in the fact that in the known method of hot isostatic pressing of products from metal powders, including the manufacture of a thin-walled capsule with a hole, filling it with powder material with evacuation during heating, sealing by welding and hot isostatic pressing, the capsule is made with a loading nozzle for installation sealing tube, and sealing is carried out in vacuum by an electron beam, and the tube is made with a thickness of 1.1-2.5 thickness of the wall of the capsule, set it nozzle hole with a gap equal to 0.01-0.03 tube diameter, and produce melting of the abutting edges to a depth of 0.7-0.9 tube thickness.

 The optimal gap between the tube and the internal cavity of the nozzle is a gap of 0.01-0.03 diameter of the tube, selected experimentally and ensures high quality welding.

 If the gap is less than 0.01 of the tube diameter, difficulty is caused by the installation of the tube in a vacuum fit by the manipulator in the vacuum port of the tube, which leads to skewing of the tube and, as a result, uneven melting of the tube edges and microcracks in the weld during hot pressing and the appearance of marriage .

 With a gap of more than 0.03 diameter of the cork, the edges of the metal of the cork are melted inside the capsule, which leads to contamination and marriage of sintered products.

 The optimum depth of fusion of the joined edges is a depth of 0.7-0.9 of the thickness of the tube, which ensures high strength of the weld due to the fact that the thickness of the weld is comparable to the thickness of the wall of the capsule and tube, as a result of which the necessary rigidity of the nozzle is ensured during hot pressing and not causes the formation of microcracks in the weld.

 When the depth of penetration of the edges is less than 0.7 of the thickness of the cork, the strength of the weld decreases, which leads to microcracks and marriage of products during pressing.

 When the depth of penetration of the edges is more than 0.9 of the thickness of the cork, the metal powder is baked to the cork metal, which causes defective products.

 The thickness of the cork, equal to 1.1-2.5 of the wall thickness of the capsule, provides reliable stiffness of the abutting edges of the cork and pipe after they are welded by an electron beam, which reduces the marriage of products during hot pressing.

 If the plug thickness is less than 1.1 capsule wall thickness, the weld strength of the edges decreases and leads to microcracks during pressing.

 With a tube thickness of more than 2.5 capsule wall thicknesses, the stiffness of the nozzle and plug increases and during pressing, uneven shrinkage of the body element of the capsule of the welded assembly (nozzle with plug) results in microcracks in the weld and marriage of the products.

PRI me R. Capsules were installed in the vacuum chamber, in which the loading nozzles were made with holes equal to 40 mm. The plugs were made with a diameter that ensured a common gap in the nozzle opening equal to 0.01-0.03 of the plug diameter. The cork thickness was taken equal to 1.1-2.5 of the capsule wall thickness, with the capsule wall thickness in all examples equal to 6 mm. Heating was carried out empty capsules to 400 ° ^C under vacuum 1˙ 10 ^-4 mm Hg. Art. Then, capsules were filled with powder of nickel alloys of a fraction of -200 + 50 μm with vibrational compaction. After that, a tube was installed in a vacuum in the loading nozzle and the capsules were sealed with an electron beam by melting the abutting edges of the nozzle and tube to a depth of 0.7-0.9 of the tube thickness.

 The depth of penetration of the joined edges equal to 0.7-0.9 of the tube thickness was selected experimentally, namely, the parameters of electron beam welding were selected: accelerating voltage 27-32 kV, beam current 30-40 mA, linear beam speed 2-5 mm / s, the diameter of the focal spot of the beam is 2-4 mm. Such welding parameters provided a penetration depth of the joined edges equal to 7-8 mm, i.e., 0.7-0.9 edge thickness.

Sealed capsules of the powder was heated to 1220 ^C and subjected to hot isostatic pressing at a pressure of 14 kgf / mm ² and an exposure time of 4 hours.

 The table shows the results of comparative experimental data obtained by the proposed and known method.

 Using the proposed method allows to increase the yield by 15-20% by increasing the reliability of sealing capsules with metal powder of expensive nickel alloys.

 (56) Copyright certificate of the USSR N 1060097, cl. B 22 F 3/14, 1976.

Claims (1)

 METHOD FOR HOT ISOSTATIC PRESSING OF PRODUCTS FROM METAL POWDERS, including the manufacture of a thin-walled capsule with a hole, filling it with powder material with evacuation during heating, sealing by welding and hot isostatic pressing, characterized in that the capsule is filled with a sealing pipe lead in a vacuum by an electron beam, and the plug is made with a thickness of 1.1 - 2.5 of the wall thickness of the capsule, set it in the hole of the nozzle with a gap equal to 0.01 - 0.03 of the tube diameter, and the abutting edges are fused to a depth of 0.7 - 0.9 of the tube thickness.

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