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Method for improving durability of GH3536 alloy manufactured by selective laser melting technology

A laser selective melting, GH3536 technology, applied in the direction of improving energy efficiency, additive manufacturing, process efficiency, etc., can solve the problems of large differences in horizontal and vertical structures, uneven high-temperature durability, poor high-temperature durability of alloys, etc. , to achieve the effect of eliminating the inhomogeneity of the alloy structure

Pending Publication Date: 2020-07-10
南京国重新金属材料研究院有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0005] The purpose of the present invention is to propose a heat treatment method for improving the durability of nickel-based superalloys in order to solve the problems of poor high-temperature durability of alloys produced by SLM and large differences in transverse and longitudinal structures in the prior art. Under the system (815℃ / 105MPa) the problem of uneven and low performance at high temperature

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  • Method for improving durability of GH3536 alloy manufactured by selective laser melting technology

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Experimental program
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Effect test

Embodiment 1

[0016] The present embodiment processes the GH3536 alloy manufactured by laser selective melting technology as follows:

[0017] (1) Before heat treatment, clean the powder on the surface and inner cavity of the superalloy parts made by SLM, and blow the surface and inner cavity of the parts with compressed air to ensure that they are cleaned.

[0018] (2) Put the workpiece into a heat treatment furnace (both air furnace and vacuum furnace are acceptable), raise the temperature to 900°C at a rate of 5-10°C / min and keep it for 4 hours, then cool the furnace. The annealing treatment is mainly to eliminate the hidden danger of residual stress during the quenching process of the workpiece prepared by SLM.

[0019] (3) Put the workpiece into the hot isostatic pressing furnace and evacuate to 10 -1 Below Pa, fill with high-purity argon (purity 99.999%), heat up to 1160°C at a heating rate of 5-15°C / min (when the vacuum reaches a certain level, the heating can be turned on to improv...

Embodiment 2

[0025] The present embodiment processes the GH3536 alloy manufactured by laser selective melting technology as follows:

[0026] (1) Before heat treatment, clean the powder on the surface and inner cavity of the superalloy parts made by SLM, and blow the surface and inner cavity of the parts with compressed air to ensure that they are cleaned.

[0027] (2) Put the workpiece into a heat treatment furnace (both air furnace and vacuum furnace are acceptable), raise the temperature to 900°C at a rate of 5-10°C / min and keep it for 4 hours, then cool the furnace. The annealing treatment is mainly to eliminate the hidden danger of residual stress during the quenching process of the workpiece prepared by SLM.

[0028] (3) Put the workpiece into the hot isostatic pressing furnace and evacuate to 10 -1 Below Pa, fill with high-purity argon (purity 99.999%), heat up to 1210°C at a heating rate of 5-15°C / min (when the vacuum reaches a certain level, the heating can be turned on to improv...

Embodiment 3

[0034] The present embodiment processes the GH3536 alloy manufactured by laser selective melting technology as follows:

[0035] (1) Before heat treatment, clean the powder on the surface and inner cavity of the superalloy parts made by SLM, and blow the surface and inner cavity of the parts with compressed air to ensure that they are cleaned.

[0036] (2) Put the workpiece into a heat treatment furnace (both air furnace and vacuum furnace are acceptable), raise the temperature to 900°C at a rate of 5-10°C / min and keep it for 4 hours, then cool the furnace. The annealing treatment is mainly to eliminate the hidden danger of residual stress during the quenching process of the workpiece prepared by SLM.

[0037] (3) Put the workpiece into the hot isostatic pressing furnace and evacuate to 10 -1 Below Pa, fill with high-purity argon (purity 99.999%), heat up to 1175°C at a heating rate of 5-15°C / min (when the vacuum reaches a certain level, the heating can be turned on to improv...

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Abstract

The invention relates to a method for improving the durability of a GH3536 alloy manufactured by a selective laser melting technology, and belongs to the technical field of alloy melting. The heat treatment process of the GH3536 alloy is adjusted, the heat treatment process of the alloy is optimized, so that the typical high-temperature endurance performance of the alloy is achieved, and the method has great significance in the SLM technology and alloy application. The method has the beneficial effects that the typical high-temperature endurance property of the GH3536 alloy prepared by the SLMcan reach the forging standard, and the anisotropy of the endurance property of the alloy caused by the non-uniform structure of the alloy prepared by the SLM is eliminated.

Description

technical field [0001] The invention relates to a method for improving the durability performance of a GH3536 alloy manufactured by laser selective melting technology, and belongs to the technical field of alloy melting. Background technique [0002] Selective laser melting technology (SLM) can directly obtain solid parts of any complex shape by using metal powder without any tooling fixtures and molds according to the three-dimensional digital model of the part, and realize the new concept of "net shape" material processing, which is suitable for manufacturing complex inner parts. The difficult-to-machine parts with cavity structure have the characteristics of high material utilization rate, short product production and development cycle, almost no restrictions on the shape of the product, and high precision. At present, SLM technology has been applied to a certain extent in the fields of stainless steel, titanium alloy, aluminum alloy and superalloy, showing unique advanta...

Claims

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Application Information

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IPC IPC(8): B22F3/24B22F3/15B22F3/105B33Y40/20C22F1/10C22F1/02
CPCB22F3/24B22F3/15B33Y40/00C22F1/10C22F1/02B22F2003/248B22F10/00B22F10/28B22F10/64B22F10/38B22F10/68Y02P10/25
Inventor 段修涛于连旭侯秉民马步洋
Owner 南京国重新金属材料研究院有限公司