Thin-walled heat resistant steel exhaust gas manifold casting method
An exhaust manifold and heat-resistant steel technology, which is applied in casting molding equipment, casting molds, casting mold components, etc., can solve the problems of exhaust manifold wall thickness, complex process, inability to meet lightweight technical requirements, etc. The effect of weight reduction, stable performance and lightweight design
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Embodiment 1
[0034] A thin-walled heat-resistant steel exhaust manifold casting method, comprising the following steps:
[0035] S1: Core making: Use coated sand as the raw material of the cavity core, heat the core box to 220°C, shoot sand into the core box through the sand injection port for 3-5 seconds, solidify the crust for 2-4 seconds, and pour out the sand by shaking There is no solidified coated sand in the inner cavity of the core, and the weight of each sand core is guaranteed to be 2.5Kg. After 180 seconds, the sand core is cured and taken out of the core box;
[0036] S2: Modeling: Heat the temperature of the iron sand box to 130°C, heat the temperature of the mold wall core box to 220°C, close the mold and cover it with sand, the thickness of the sand covering is 10-12mm, after 120 seconds the sand shell is solidified, close the upper and lower iron sand after the mold is opened box, to be poured;
[0037] S3: Smelting: heat-resistant steel exhaust manifold is prepared from t...
Embodiment 2
[0043] This embodiment provides a thin-walled heat-resistant steel exhaust manifold casting method, the steps are the same as the first embodiment, but different from the first embodiment, in the step S3 of this embodiment, the heat-resistant steel exhaust manifold used is as follows Raw material preparation: 60.4% recycled material, 15% steel scrap, 17.5% ferrochrome, 1% ferroniobium, 5% electrolytic nickel, 0.01% ferrous sulfur, 0.49% electrolytic manganese, 0.55% ferrosilicon, and 0.05% recarburizer.
Embodiment 3
[0045] A thin-walled heat-resistant steel exhaust manifold casting method, comprising the following steps:
[0046]S1: Core making: Use coated sand as the raw material for the cavity core, heat the core box to 230°C, shoot sand into the core box through the sand injection port for 3-5 seconds, solidify the crust for 2-4 seconds, and pour out the sand by shaking There is no solidified coated sand in the inner cavity of the core, and the weight of each sand core is guaranteed to be 2.8Kg. After 180 seconds, the sand core is cured and taken out from the core box;
[0047] S2: Modeling: Heat the temperature of the iron sand box to 140°C, heat the temperature of the mold wall core box to 230°C, close the mold and cover it with sand, the thickness of the sand covering is 10-12mm, after the sand shell is solidified for 120 seconds, close the upper and lower iron sand after the mold is opened box, to be poured;
[0048] S3: Melting: The raw materials for the preparation of the heat-r...
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