基于CFD流固耦合传热的吹塑模具冷却系统优化  被引量:2

Optimization of the Cooling System of Blowing Mould Based on Fluid-Solid Coupled Heat Transfer Analysis Method

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作  者:高冲 刘淑梅[1] 谢硕 廖秋慧[1] 陈杰[1] GAO Chong;LIU Shumei;XIE Shuo;LIAO Qiuhui;CHEN jie(School of Material Engineering, Shanghai University of Engineering Science, Shanghai 201620,China;Shang Hai Longda Plastic Technology INC.,Shanghai 201605,China)

机构地区:[1]上海工程技术大学,上海201620 [2]上海龙达塑料科技股份有限公司,上海201605

出  处:《塑料》2019年第2期94-97,共4页Plastics

基  金:上海工程技术大学研究生科研创新项目(17KY0505);产学研合作项目((17)CL-007)

摘  要:基于CFD数值模拟软件Solidworks Flow Simulation,采用流固耦合传热分析方法对吹塑浮子模具冷却水路进行数值模拟,解决了模具冷却系统结构设计问题。结合响应面优化方法,分析了冷却水入口温度、冷却水入口速度、水路直径3个参数对浮子温度的影响规律,以浮子脱模时的温度最小为目标,得到了最佳的冷却系统参数组合。结果表明:当冷却水入口温度为13℃,冷却水入口速度为2m/s,水路直径为0.012m时,浮子脱模时的最大温度为41.19℃,与原始方案相比,温度降低了30.6%,内表面最大温度为37.12℃,比原始方案降低了28.9%。经生产验证,使用该冷却系统参数可以提高生产效率,缩短了产品成型周期与模具开发周期.The design problem with the cooling system of the extrusion blow molding float mould was solved by using the fluid-solid coupled heat transfer analysis method based on CFD software - Solidworks Flow Simulation. The relationships between three parameters including inlet temperature, inlet speed of cooling water, diameter of waterway and float outtemperature were simulated. Combined with response surface analysis method , target with minimum float out-temperature, the best combination of cooling system parameters was achieved. The result showed that when the inlet temperature was 13 %, the inlet velocity was 2 m/s and the diameter of the waterway was 0. 012 m , the out-temperature of the float was 41.19 t , which was 30. 6% lower than the original temperature, and the maximum internal surface temperature was 37. 12 ℃, which was 28. 9% lower than the original temperature. The actual production showed that the combination of parameter could increase the production efficiency and shorten the molding cycle.

关 键 词:FLOW simulation 流固耦合 响应面 冷却系统 吹塑 

分 类 号:TQ320.664[化学工程—合成树脂塑料工业]

 

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