聚酯纤维
织物
莱赛尔
纤维素
溶解矿浆
材料科学
极限抗拉强度
牙髓(牙)
纤维素纤维
粘胶
复合材料
溶解
超细纤维
纤维
制浆造纸工业
化学
有机化学
工程类
病理
医学
作者
Simone Haslinger,Michael Hummel,Adina Anghelescu‐Hakala,Marjo Määttänen,Herbert Sixta
标识
DOI:10.1016/j.wasman.2019.07.040
摘要
The creation of a circular economy for cellulose based textile waste is supported by the development of an upcycling method for cotton polyester blended waste garments. We present a separation procedure for cotton and polyester using [DBNH] [OAc], a superbase based ionic liquid, which allows the selective dissolution of the cellulose component. After the removal of PET, the resulting solution could be employed to dry-jet wet spin textile grade cellulose fibers down to the microfiber range (0.75-2.95 dtex) with breaking tenacities (27-48 cN/tex) and elongations (7-9%) comparable to commercial Lyocell fibers made from high-purity dissolving pulp. The treatment time in [DBNH] [OAc] was found to reduce the tensile properties (<52%) and the molar mass distribution (<51%) of PET under certain processing conditions.
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