瓶盖注塑模具设计(有全套图纸)
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make appropriate changes to the design choice. Injection of mobile software in the simulation analysis can help designers prior to a number of possible options for assessment obtain a relatively good gating system programs and cooling system program. If the simulation of materials accurate data model to simplify proper access to more reliable results are possible. This will not only reduce the design time and design cost and can significantly reduce a result of
本科毕业设计(论文)通过答辩
目录 摘要 1 塑料的成型基础·····························································································································1
关键词:CAD;ProE 等软件;浇注系统;冷却系统
本科毕业设计(论文)通过答辩
The injecting model design of coverof the bottle bit of shampoo
ABSTRACT Mold CAD, ProE, software technology is 80-90 years before the emergence of a new design technology, These software technologies greatly enhance the wider use of the product and mold design quality products and the best performance. The software's main task is to help designers of the injection process, interpretation of the data and
本科毕业设计(论文)通过答辩
洗发水瓶盖注射模具设计
专业:机械设计制造及其自动化 作者: 指导老师:
摘要 塑料模具 CAD、ProE 等软件技术是 80-90 年代才出现的新的设计技术,这些软件技术的广泛应用大大提 高了产品及模具设计的质量和实现产品的最佳性能。这些软件的工作主要在于帮助设计者对注塑过程的分析, 判读数据并作出合适的变更设计决择。注塑流动在软件中的模拟分析可以帮助设计者事先对多个可能的方案进 行评估,从而获得相对好的浇注系统方案和冷却系统方案。如果模拟的材料数据准确,模型简化得当,获得比 较可信的分析结果是完全可能的。这不但降低了设计成本和设计时间并且还能大幅度降低因模具设计不当和设 备模架等的选择失误造成巨大损失的风险。
improper design and mold injection machine choices mistakes caused huge losses to the risk.
Keywords : CAD,;ProE software,and gating system,;cooling systems
1.1 聚乙烯的特征、性能分析及结构设计·································································································· 1~2 1.2 塑料制品的结构设计······························································································································ 2~4 1.3 注射成型工艺性分析······························································································································ 4~6
2 塑件的相关计算及注塑机的选择······························································································· 7
2.1 塑件的计算···················································································································································· 7~7 2.2 注塑机的选择················································································································································ 7~7 2.3 注塑机的校核·········································································································································· 8~8
本科毕业设计(论文)通过答辩
目录 摘要 1 塑料的成型基础·····························································································································1
关键词:CAD;ProE 等软件;浇注系统;冷却系统
本科毕业设计(论文)通过答辩
The injecting model design of coverof the bottle bit of shampoo
ABSTRACT Mold CAD, ProE, software technology is 80-90 years before the emergence of a new design technology, These software technologies greatly enhance the wider use of the product and mold design quality products and the best performance. The software's main task is to help designers of the injection process, interpretation of the data and
本科毕业设计(论文)通过答辩
洗发水瓶盖注射模具设计
专业:机械设计制造及其自动化 作者: 指导老师:
摘要 塑料模具 CAD、ProE 等软件技术是 80-90 年代才出现的新的设计技术,这些软件技术的广泛应用大大提 高了产品及模具设计的质量和实现产品的最佳性能。这些软件的工作主要在于帮助设计者对注塑过程的分析, 判读数据并作出合适的变更设计决择。注塑流动在软件中的模拟分析可以帮助设计者事先对多个可能的方案进 行评估,从而获得相对好的浇注系统方案和冷却系统方案。如果模拟的材料数据准确,模型简化得当,获得比 较可信的分析结果是完全可能的。这不但降低了设计成本和设计时间并且还能大幅度降低因模具设计不当和设 备模架等的选择失误造成巨大损失的风险。
improper design and mold injection machine choices mistakes caused huge losses to the risk.
Keywords : CAD,;ProE software,and gating system,;cooling systems
1.1 聚乙烯的特征、性能分析及结构设计·································································································· 1~2 1.2 塑料制品的结构设计······························································································································ 2~4 1.3 注射成型工艺性分析······························································································································ 4~6
2 塑件的相关计算及注塑机的选择······························································································· 7
2.1 塑件的计算···················································································································································· 7~7 2.2 注塑机的选择················································································································································ 7~7 2.3 注塑机的校核·········································································································································· 8~8