快速注塑模具的冷卻通道設計(英文翻譯).rar
快速注塑模具的冷卻通道設計(英文翻譯),摘要冷卻水道的設計和制造工藝受到傳統的加工工藝和精度低的機床的限制,諸如直線鉆,銑床等.在這項研究中,熱塑性塑料注薂@尚屠淙垂淌紫仁譴喲鵲慕嵌燃觳槔淙聰低場H緩?,可以灾o導腥〉米鈑行У拇戎貧ǖ募撲憷淙此老喙叵凳姆槳咐瓷杓評淙此饋=幼龐τ霉庋Х治齜ɡ醇觳槌9嬤畢咦瓿傻乃賴目尚行?。冷汝J潭瓤捎美床饈員滸刖豆...
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內容介紹
原文檔由會員 跟往事干杯 發(fā)布
摘 要
冷卻水道的設計和制造工藝受到傳統的加工工藝和精度低的機床的限制,諸如直線鉆,銑床等.在這項研究中,熱塑性塑料注薂@尚屠淙垂淌紫仁譴喲鵲慕嵌燃觳槔淙聰低場H緩螅梢栽謔導腥〉米鈑行У拇戎貧ǖ募撲憷淙此老喙叵凳姆槳咐瓷杓評淙此饋=幼龐τ霉庋Х治齜ɡ醇觳槌9嬤畢咦瓿傻乃賴目尚行?。冷汝J潭瓤捎美床饈員滸刖豆鉤傻睦淙賜ǖ潰╒RCCC),多孔構成的冷料井冷卻(CPPC)和冷卻環(huán)形槽的傳熱比率和直線鉆冷卻通道的基準。
關鍵詞:冷卻水道;設計;工藝
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
冷卻水道的設計和制造工藝受到傳統的加工工藝和精度低的機床的限制,諸如直線鉆,銑床等.在這項研究中,熱塑性塑料注薂@尚屠淙垂淌紫仁譴喲鵲慕嵌燃觳槔淙聰低場H緩螅梢栽謔導腥〉米鈑行У拇戎貧ǖ募撲憷淙此老喙叵凳姆槳咐瓷杓評淙此饋=幼龐τ霉庋Х治齜ɡ醇觳槌9嬤畢咦瓿傻乃賴目尚行?。冷汝J潭瓤捎美床饈員滸刖豆鉤傻睦淙賜ǖ潰╒RCCC),多孔構成的冷料井冷卻(CPPC)和冷卻環(huán)形槽的傳熱比率和直線鉆冷卻通道的基準。
關鍵詞:冷卻水道;設計;工藝
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