Alumina-based ceramic core for directional solidification and preparation method thereof
A technology of directional solidification and alumina, which is applied in the field of gas turbine components, can solve the problems of large firing shrinkage, unstable performance of alumina-based ceramic cores, and high firing temperature, and achieve the effect of reducing firing shrinkage
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specific Embodiment 1
[0034] An alumina-based ceramic core for directional solidification, which is characterized in that it uses EC95 fused mullite as the base material, and the EC95 fused mullite is made of high-quality alumina powder plus a mineralizer with a weight percentage of 2%. It is smelted at a high temperature of 2100°C in a furnace. Smelted EC95 fused mullite with a-Al 2 o 3 , 3Al 2 o 3 2SiO2 2 is the main crystal, in which α-Al 2 o 3 Content 93%, 3Al 2 o 3 2SiO2 2 Content 7%.
[0035] A method for preparing an alumina-based ceramic core for directional solidification, comprising the steps of:
[0036] 1. Weigh the powder: crush and reshape the smelted EC95 fused mullite, remove iron by magnetic separation, sieve into powders with particle sizes of F200, F320, and F600, and pickle and dry. Weigh 15% F200 EC95, 50% F320 EC95, 15% F600 EC95, 10% zirconium silicate powder, 5% silica powder, 2% titanium dioxide, 3% Aluminum powder.
[0037] 2. Ball mixing: Add oleic acid accou...
specific Embodiment 2
[0046] An alumina-based ceramic core for directional solidification, which is characterized in that it uses EC95 fused mullite as the base material, and the EC95 fused mullite is made of high-quality alumina powder plus a mineralizer with a weight percentage of 3.5% in the arc It is smelted at a high temperature of 2150°C in a furnace. Smelted EC95 fused mullite with a-Al 2 o 3 , 3Al 2 o 3 2SiO2 2 is the main crystal, in which α-Al 2 o 3 Content 88%, 3Al 2 o 3 2SiO2 2 Content 12%.
[0047] A method for preparing an alumina-based ceramic core for directional solidification, comprising the steps of:
[0048] 1. Weigh the powder: crush and reshape the smelted EC95 fused mullite, remove iron by magnetic separation, sieve into powders with particle sizes of F200, F320, and F600, and pickle and dry. Weigh 10% F200 EC95, 45% F320 EC95, 12% F600 EC95, 20% zirconium silicate powder, 2% silica powder, 1% titanium dioxide, 10% Aluminum powder.
[0049] 2. Ball mixing: Add ol...
specific Embodiment 3
[0058] An alumina-based ceramic core for directional solidification, which is characterized in that it uses EC95 fused mullite as the base material, and the EC95 fused mullite is made of high-quality alumina powder plus a mineralizer with a weight percentage of 5.5% in the arc It is smelted at a high temperature of 2200°C in a furnace. Smelted EC95 fused mullite with a-Al 2 o 3 , 3Al 2 o 3 2SiO2 2 is the main crystal, in which α-Al 2 o 3 Content 80.5%, 3Al 2 o 3 2SiO2 2 The content is 19.5%.
[0059] A method for preparing an alumina-based ceramic core for directional solidification, comprising the steps of:
[0060]1. Weigh the powder: crush and reshape the smelted EC95 fused mullite, remove iron by magnetic separation, sieve into powders with particle sizes of F200, F320, and F600, and pickle and dry. Weigh 12% F200 EC95, 40% F320 EC95, 13% F600 EC95, 25% zirconium silicate powder, 1% silica powder, 4% titanium dioxide, 5% Aluminum powder.
[0061] 2. Ball mixin...
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