Casting mold for producing high-temperature alloy single crystal blades and directional solidification device thereof

A high-temperature alloy and single crystal blade technology, which is applied in the field of precision casting of high-temperature alloy parts, can solve the problems of complex blade shape, heat loss, and large cross-sectional change, and achieve the effect of reducing heat loss and increasing temperature gradient

Active Publication Date: 2015-03-11
DONGFANG TURBINE CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0006] The third is that the shape of the blade is complex and the cross-section changes greatly. In the drawing project of the ceramic formwork 3 from the hot zone A to the cold zone B in the heating chamber, the two zones cannot be effectively isolated and are basically in a connected state, which not only causes serious heat loss, It is even more impossible to establish a higher temperature gradient to ensure the formation of a single crystal structure

Method used

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  • Casting mold for producing high-temperature alloy single crystal blades and directional solidification device thereof
  • Casting mold for producing high-temperature alloy single crystal blades and directional solidification device thereof
  • Casting mold for producing high-temperature alloy single crystal blades and directional solidification device thereof

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Embodiment Construction

[0024] like Figure 2~3 As shown, the present invention is a casting mold used in the manufacture of high-temperature alloy single crystal blades, which is used in a directional solidification device. The casting mold is a cylindrical entity, and the outer diameter of the solid heat-conducting mold is slightly smaller than the bottom of the heating chamber of the directional solidification device. The inner diameter of the annular heat shield 6 on the mouth side.

[0025] The casting mold is cylindrical and includes an inner ceramic thin shell 11 and an outer filling interlayer. Specifically: the inner cavity formed by the thin ceramic shell 11 is used for pouring the superalloy melt 4 to form a superalloy casting 5 . The outer periphery of the ceramic shell 11 is alternately filled with heat-conducting materials and heat-insulating materials with barrel-shaped shrouds 13 , and bonded to form a filled entity with multiple horizontal heat-conducting layers 12 and heat-insulati...

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Abstract

The invention provides a casting mold for producing high-temperature alloy single crystal blades. The casting mold is applied to a directional solidification device. The casting mold is in a cylindrical shape and comprises an inner-layer ceramic shell and an outer filling interlayer, wherein an inner cavity formed by the ceramic shell is used for pouring high temperature alloy melts to form high-temperature alloy castings, and the periphery of the ceramic shell is filled with heat conduction materials and thermal insulation materials alternately through a barrel-shaped hoarding to form a filling entity provided with a plurality of horizontal heat conduction layers and thermal insulation layers through bonding. According to the entity heat conduction casting mold process, pouring and directional solidification can be performed in the existing directional solidification furnace, all sides of blades can be evenly heated, and therefore the severe shadow effect and organizational defects caused by the shadow effect can be eliminated effectively; and the condition that cold and hot areas in the existing device are almost through is changed, closed isolation between hot areas and cold areas is achieved, reduction of heat losses is facilitated, temperature gradients in castings is increased greatly, and the optimal temperature condition for growth of single crystals is formed.

Description

technical field [0001] The invention relates to precision casting of high-temperature alloy components, in particular to a solid heat-conducting mold and a directional solidification device for manufacturing high-temperature alloy single-crystal blades. Background technique [0002] In order to improve the performance of aero-engines and industrial gas turbines, high-temperature alloy turbine blades need to be made into columnar or single-crystal structures by directional solidification, such as figure 1 shown. Make the ceramic formwork 3 of superalloy single crystal blade with the method for precision casting earlier for this reason, for guaranteeing strength, ceramic formwork 3 is generally thicker, and the thickness of its thickest part can reach several centimeters. The ceramic mold shell 3 is placed in the heating chamber of the directional solidification device for heating, and then the melted superalloy sample 4 is poured into the ceramic mold shell 3, and slowly des...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B22D27/04
Inventor 马德新杨功显巩秀芳
Owner DONGFANG TURBINE CO LTD
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