With the upgrading of domestic industrial structure, the demand for thermal shrinkage tube in domestic electronic industry is growing steadily and steadily. Expansion and setting is one of the key manufacturing processes of heat shrinkage pipe. The quality and efficiency of pipe expansion are related to the mold structure, cooling water flow rate and water temperature. This paper uses the Fluent module to analyze the influence of cooling water inlet temperature and flow rate on pipeline quality and expansion efficiency. The results show that when the cooling water temperature is 303 K and the cooling water flow rate is 10 m/s, the outlet temperature of the pipe in the double cooling chamber is lower than that in the single cooling chamber, and the temperature difference between the two is 30 K. The cooling effect of the double cooling chamber is better than that of the single cooling chamber under the same conditions. On the premise that the pipe inlet velocity is 10 m/s, the cooling parameters of the expansion mold of the heat shrinkable tube in the double cooling chamber can be obtained: the cooling water temperature in the pre-cooling section is 323 K, and the cooling water flow rate is 10 m/s. The cooling water temperature of the rapid cooling section is 293 K, and the flow rate o cooling water is 10m/s
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