Infrared radiation material, high-temperature infrared coating and production process thereof
A technology of infrared radiation and production technology, which is applied in the field of infrared technology, can solve the problems of simple source of raw materials, unsustainable infrared radiation, and low emissivity, and achieve the effect of simple construction technology, low cost and high emissivity
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[0027] Example one
[0028] An infrared radiation material includes 60 parts of manganese oxide, 8 parts of copper oxide, 3 parts of cobalt oxide, 3 parts of chromium oxide, 8 parts of iron oxide, and 3 parts of cerium oxide according to the mass component ratio.
[0029] A high-temperature infrared coating produced by infrared radiation material, which comprises 67 parts of acidic silica sol, 0.005 parts of ammonium polyacrylate, and 28 parts of mixed powder according to the mass component ratio. The mixed powder comprises 48 parts of fused silica according to the mass component ratio. , 32 parts of cordierite, 1 part of boron nitride, 10 parts of the above infrared radiation materials.
[0030] A production process of infrared radiation materials, including the following steps:
[0031] a. Weigh 60 parts of manganese oxide, 8 parts of copper oxide, 3 parts of cobalt oxide, 3 parts of chromium oxide, 8 parts of iron oxide, and 3 parts of cerium oxide, mix them and grind them into pow...
Example Embodiment
[0038] Example two
[0039] An infrared radiation material, according to the mass composition ratio, includes 42 parts of iron oxide, 18 parts of copper oxide, and 28 parts of manganese oxide.
[0040] A high-temperature infrared coating produced by infrared radiation material, which comprises 67 parts of acidic silica sol, 0.005 parts of ammonium polyacrylate, and 28 parts of mixed powder according to the mass component ratio. The mixed powder comprises 48 parts of fused silica according to the mass component ratio. , 32 parts of cordierite, 1 part of boron nitride, 10 parts of the above infrared radiation materials.
[0041] The above-mentioned production process of infrared radiation material includes the following steps:
[0042] a. Weigh 42 parts of iron oxide, 18 parts of copper oxide, and 28 parts of manganese oxide in proportion, mix them and grind them into powder by the high-speed planetary mill dry method, and pass the ground powder through a 325-mesh standard sieve;
[0043...
Example Embodiment
[0049] Example three
[0050] An infrared radiation material includes 70 parts of manganese oxide, 12 parts of copper oxide, 7 parts of cobalt oxide, 7 parts of chromium oxide, 12 parts of iron oxide, and 7 parts of cerium oxide according to the mass component ratio.
[0051] A high-temperature infrared coating produced by infrared radiation material, which comprises 73 parts of acidic silica sol, 0.02 parts of ammonium polyacrylate and 32 parts of mixed powder according to the mass component ratio, and the mixed powder comprises 52 parts of fused silica according to the mass component ratio , 37 parts of cordierite, 3 parts of boron nitride, 14 parts of infrared radiation materials
[0052] A production process of infrared radiation materials, including the following steps:
[0053] a. Weigh 70 parts of manganese oxide, 12 parts of copper oxide, 7 parts of cobalt oxide, 7 parts of chromium oxide, 12 parts of iron oxide and 7 parts of cerium oxide, mix them and grind them into powder ...
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