Agroindustrial waste valorisation into advanced microfibrillated cellulose fibers for improving packaging materials performance (PPT)

机译：农业工业废料进入先进的微纤维纤维素纤维，用于改善包装材料性能（PPT）

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1. Several alternative sources have been tested for the production of advanced cellulose fibers. 2. These feedstocks suppose an important source of lignocellulosic biomass with new properties, possibilities and advantages and offer a wide availability of new renewable sources.

机译：1.已经测试了几种替代来源，用于生产晚期纤维素纤维。这些原料假设具有新的性质，可能性和优势的木质纤维素生物量的重要来源，并提供新的可再生能源的广泛可用性。

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《International Conference on Nanotechnology for Renewable Materials》|2018年|516-1029 p.|共24页
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Albaladejo P.; Pla J.; Alonso JM.;
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中图分类工程材料学;
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1. Carboxyethylated Microfibrillated Cellulose Fibers Prepared from Different Raw Materials [J] . Jinghuan Chen, Jingang Liu, Leilei Hou, 造纸与生物质材料：英文版 . 2021,第001期

机译：用不同原料制备的羧乙基化的微纤维纤维素纤维纤维
2. Nanopaper Properties and Adhesive Performance of Microfibrillated Cellulose from Different (Ligno-)Cellulosic Raw Materials [J] . Stefan Pinkl, Stefan Veigel, Jér?me Colson, Polymers . 2017,第8期

机译：不同（木质）纤维素原料的微纤化纤维素的纳米纸性能和粘合性能
3. Bark derived submicron-sized and nano-sized cellulose fibers: From industrial waste to high performance materials [J] . Nair Sandeep S., Yan Ning Carbohydrate Polymers: Scientific and Technological Aspects of Industrially Important Polysaccharides . 2015,第Null期

机译：树皮衍生的亚微米级和纳米级纤维素纤维：从工业废料到高性能材料
4. Agroindustrial waste valorisation into advanced microfibrillated cellulose fibers for improving packaging materials performance (PPT) [C] . Albaladejo P., Pla J., Alonso JM. International Conference on Nanotechnology for Renewable Materials . 2018

机译：农业工业废料进入先进的微纤维纤维素纤维，用于改善包装材料性能（PPT）
5. The Lifecycle of Advanced Fibers: (I) A New Method for the Fabrication of Fibers, (II) The Functionalization of Electrospun PLA/PLA-b-PEG Fibers, and (III) The Degradation of Cellulose Fibers by Oxygen Plasma [D] . Shepherd, Larissa Marie. 2017

机译：先进纤维的生命周期：（i）一种用于制造纤维的新方法，（ii）电纺PLA / PLA-B-PEG纤维的官能化，（iii）通过氧等离子体降解纤维素纤维
6. Nanopaper Properties and Adhesive Performance of Microfibrillated Cellulose from Different (Ligno-)Cellulosic Raw Materials [O] . Stefan Pinkl, Stefan Veigel, Jérôme Colson, 2017

机译：不同（木质）纤维素原料的微纤化纤维素的纳米纸性能和粘合性能
7. Stone Matrix Asphalt (SMA) is a gap-graded mix that is gaining popularity worldwide. Generally, gap graded mixes are thought to be weak in fatigue resistance. In this study, cellulose fibers were pre-blended in PG64-22 binder with fiber proportions of 0.2%, 0.4%, 0.6%, 0.8% and 1.0% by weight of aggregates. The fiber-modified binder showed improved rheological properties and showed that the PG64-22 binder can be modified and raised to PG70-22 grade. The cellulose oil palm fiber (COPF) was found to improve the diameteral fatigue performance of SMA design mix. The fatigue life increased to a maximum at a fiber content of about 0.6%, whilst the tensile stress and stiffness also showed a similar trend in performance. The initial strains of the mix were lowest at a fiber content of 0.6%. [O] . Ratnasamy Muniandy, Bujang B.K. Huat 2006

机译：石基沥青（SMA）是一种间隙分级的混合物，在全球范围内越来越受欢迎。通常，间隙梯度混合料被认为抗疲劳性较弱。在这项研究中，将纤维素纤维预先掺入PG64-22粘合剂中，纤维比例为集料重量的0.2％，0.4％，0.6％，0.8％和1.0％。纤维改性的粘合剂表现出改善的流变性能，并表明PG64-22粘合剂可以被改性并提高到PG70-22级。发现纤维素油棕纤维（COPF）可以改善SMA设计混合物的直径疲劳性能。在约0.6％的纤维含量下，疲劳寿命增加到最大值，而拉伸应力和刚度也表现出相似的性能趋势。混合物的初始应变在纤维含量为0.6％时最低。

Agroindustrial waste valorisation into advanced microfibrillated cellulose fibers for improving packaging materials performance (PPT)

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