Welcome Message

「流行起於高分子,變化盡藏微宇宙」! 歡迎光臨「流變學好簡單 | The RheoMaster」部落格,成立於 2019/2/22,已於 2024 年初屆滿 5 年!旨在提供簡單的中文流變學知識,包括高分子流變學、輸送現象、高分子加工、流變量測等。您可至右方進行關鍵字搜尋,若有任何建議,請至文章留言或來信 yuhowen@gmail.com。 Welcome to "The RheoMaster" Blog. This website was established in Feb 2019, and has celebrated its 5th anniversary in eary 2024. In view of the lack of Chinese literature on rheology, here we offer basic knowledge relevant to polymer rheology, transport phenomena, polymer processing, rheometry, etc. If you have any suggestion, please leave a message on the post you are reading or email us at yuhowen@gmail.com.

精選文章

網誌作者近期國際期刊論文發表 (Recent SCI Journal Articles Authored by the Admin)

  Extensional Rheology of Linear and Branched Polymer Melts in Fast Converging Flows 線型、分支型高分子融體於高速收縮流之拉伸流變 Rheol. Acta 62 , 183–204 (2023)...

2020年7月24日

聚乙烯的種類 (Types of Polyethylene)

Figure 1.13 分別是高密度、低密度、線性低密度聚乙烯的分子結構 (high density, low density, and linear low density polyethylenes)。高密度聚乙烯 (HDPE) 平均每 1,000 個碳原子有 5-10 個短分支;低密度聚乙烯 (LDPE) 和 HDPE 具有相同的分支數目,但分支的長度更長且是分支的 ,即長鏈分支 (long chain branching);線性低密度聚乙烯 (LLDPE) 平均每 1,000 個碳原子有 10-35 個短鏈。具有較少且較短分支的高分子較易結晶,故密度較高。


Reference: TA Osswald, JP Hernández-Ortiz, Polymer Processing: Modeling and Simulation (Hanser 2006).

沒有留言:

張貼留言