快速注塑模具的冷却通道设计(英文翻译).rar
快速注塑模具的冷却通道设计(英文翻译),摘要冷却水道的设计和制造工艺受到传统的加工工艺和精度低的机床的限制,诸如直线钻,铣床等.在这项研究中,热塑性塑料注薂@尚屠淙垂淌紫仁谴哟鹊慕嵌燃觳槔淙聪低场H缓螅梢栽谑导腥〉米钣行У拇戎贫ǖ募扑憷淙此老喙叵凳姆桨咐瓷杓评淙此馈=幼庞τ霉庋Х治龇ɡ醇觳槌9嬷毕咦瓿傻乃赖目尚行浴@淙闯潭瓤捎美床馐员浒刖豆...
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摘 要
冷却水道的设计和制造工艺受到传统的加工工艺和精度低的机床的限制,诸如直线钻,铣床等.在这项研究中,热塑性塑料注薂@尚屠淙垂淌紫仁谴哟鹊慕嵌燃觳槔淙聪低场H缓螅梢栽谑导腥〉米钣行У拇戎贫ǖ募扑憷淙此老喙叵凳姆桨咐瓷杓评淙此馈=幼庞τ霉庋Х治龇ɡ醇觳槌9嬷毕咦瓿傻乃赖目尚行浴@淙闯潭瓤捎美床馐员浒刖豆钩傻睦淙赐ǖ溃╒RCCC),多孔构成的冷料井冷却(CPPC)和冷却环形槽的传热比率和直线钻冷却通道的基准。
关键词:冷却水道;设计;工艺
ABSTRACT
cooling channel design and its fabrication processes are limited to respectively simple configurations as well as conventional machining processes, such as straight-line drilling, and milling, etc.
In this research, the cooling process of thermoplastic injection moulding is first reviewed from the heat transfer viewpoint. The most effective heat transfer that can be achieved in practice is then formulated in terms of visibility concepts of computational geometry. Feasibility checks for both conventional straight-line drilled cooling channels and conformal ones are then analyzed with light illumination.In addition, variable radius conformal cooling channel (VRCCC,) conformal porous pocket cooling (CPPC,) and conformal pocket cooling (CPC) are proposed to test their heat transferrabilities, and benchmarked against the straight-line drilled cooling channel.
Key words:cooling channel;design;processe
冷却水道的设计和制造工艺受到传统的加工工艺和精度低的机床的限制,诸如直线钻,铣床等.在这项研究中,热塑性塑料注薂@尚屠淙垂淌紫仁谴哟鹊慕嵌燃觳槔淙聪低场H缓螅梢栽谑导腥〉米钣行У拇戎贫ǖ募扑憷淙此老喙叵凳姆桨咐瓷杓评淙此馈=幼庞τ霉庋Х治龇ɡ醇觳槌9嬷毕咦瓿傻乃赖目尚行浴@淙闯潭瓤捎美床馐员浒刖豆钩傻睦淙赐ǖ溃╒RCCC),多孔构成的冷料井冷却(CPPC)和冷却环形槽的传热比率和直线钻冷却通道的基准。
关键词:冷却水道;设计;工艺
ABSTRACT
cooling channel design and its fabrication processes are limited to respectively simple configurations as well as conventional machining processes, such as straight-line drilling, and milling, etc.
In this research, the cooling process of thermoplastic injection moulding is first reviewed from the heat transfer viewpoint. The most effective heat transfer that can be achieved in practice is then formulated in terms of visibility concepts of computational geometry. Feasibility checks for both conventional straight-line drilled cooling channels and conformal ones are then analyzed with light illumination.In addition, variable radius conformal cooling channel (VRCCC,) conformal porous pocket cooling (CPPC,) and conformal pocket cooling (CPC) are proposed to test their heat transferrabilities, and benchmarked against the straight-line drilled cooling channel.
Key words:cooling channel;design;processe
