A kind of inorganic binder for non-ferrous metal 3D sand mold printing and preparation method thereof
A technology of inorganic binders and non-ferrous metals, applied in metal processing equipment, casting molding equipment, casting molds, etc., can solve problems such as hindering the application of inorganic binders, poor moisture absorption resistance, poor collapse performance, etc., to overcome poor moisture absorption resistance , Excellent anti-moisture performance, excellent collapse performance
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Embodiment example 1
[0023] The raw materials of the inorganic binder for 3D sand printing of non-ferrous metals in this example are: sodium silicate (modulus 2.85-3.4, solid, 120 mesh) 30%, disodium hydrogen phosphate 4.85%, D-sorbitol 3.0%, Water-soluble silicone oil (100%) 0.4%, tetraethyl silicate 1.4%, aluminum sulfate 0.45%, naphthalenesulfonic acid 0.4%, phenolic resin 1.2%, sodium hydroxide 1.3%, deionized water 57%. A preparation method of an inorganic binder for non-ferrous metal 3D sand mold printing in this embodiment is as follows:
[0024] Ⅰ. Add 300Kg sodium silicate and 570Kg deionized water into the enamel reaction kettle, start stirring and start heating to a slight boiling state, and keep it for more than 1 hour;
[0025] Ⅱ. Slowly add 48.5Kg disodium hydrogen phosphate and 30Kg D-sorbitol. After the reaction is clear and transparent, continue to react for more than 30 minutes, continue to add 14Kg tetraethyl silicate, 4.5Kg aluminum sulfate, 4Kg naphthalenesulfonic acid, keep ...
Embodiment example 2
[0030] The raw materials of the inorganic binder for 3D sand printing of non-ferrous metals in this example are: sodium silicate (modulus 2.85-3.4, solid, 120 mesh) 29%, disodium hydrogen phosphate 8.5%, D-sorbitol 5.0%, Water-soluble silicone oil (100%) 0.6%, tetraethyl silicate 1.8%, aluminum sulfate 0.55%, naphthalenesulfonic acid 0.6%, phenolic resin 1.7%, sodium hydroxide 1.6%, deionized water 50.65%. A preparation method of an inorganic binder for non-ferrous metal 3D sand mold printing in this embodiment is as follows:
[0031] Ⅰ. Add 290Kg sodium silicate and 506.5Kg deionized water into the enamel reaction kettle, start stirring and start heating to a slight boiling state, and keep it for more than 1 hour;
[0032] Ⅱ. Slowly add 85Kg disodium hydrogen phosphate and 50Kg D-sorbitol. After the reaction is clear and transparent, continue to react for more than 30 minutes, continue to add 18Kg tetraethyl silicate, 5.5Kg aluminum sulfate, 6Kg naphthalenesulfonic acid Reac...
Embodiment example 3
[0037] The raw materials of the inorganic binder for 3D sand printing of non-ferrous metals in this example are: sodium silicate (modulus 2.85-3.4, solid, 120 mesh) 28%, disodium hydrogen phosphate 6.5%, D-sorbitol 3.5%, Water-soluble silicone oil (100%) 0.5%, tetraethyl silicate 1.5%, aluminum sulfate 0.5%, naphthalenesulfonic acid 0.5%, phenolic resin 1.5%, sodium hydroxide 1.5%, deionized water 56%. A preparation method of an inorganic binder for non-ferrous metal 3D sand mold printing in this embodiment is as follows:
[0038] Ⅰ. Add 280Kg sodium silicate and 560Kg deionized water into the enamel reaction kettle, start stirring and start heating to a slight boiling state, and keep it for more than 1 hour;
[0039] Ⅱ. Slowly add 65Kg disodium hydrogen phosphate and 35Kg D-sorbitol. After the reaction is clear and transparent, continue to react for more than 30 minutes, continue to add 15Kg tetraethyl silicate, 5Kg aluminum sulfate, 5Kg naphthalenesulfonic acid, and keep sli...
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