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Properties of Injection Molded Biocomposites Reinforced with Wood Particles of Short-Rotation Aspen and Willow

机译：短旋转白杨木和柳木颗粒增强的注塑生物复合材料的性能

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摘要

Injection molded biocomposite specimens were prepared by using four different weight percentages, i.e., 10%, 20%, 30%, and 40% of aspen ( L.) and willow ( L.) wood particles in a biopolymeric matrix. Dog-bone test specimens were used for testing the physical, mechanical, and thermal properties, and microstructure of biocomposites. The tensile and bending strength changed with the change in weight percentages of wood particles and the bending stiffness increased with the increasing weight percentage of wood. In Brinell hardness, similar changes as a function of wood particle weight percentage were shown, and a relationship between hardness and tensile strength with wood content was also investigated. The prepared biocomposites could be an alternative for plastic-based materials and encourage the use of fast growing (aspen and willow) wood from short-rotation forests in biocomposites.

机译：通过使用四种不同的重量百分比，即生物聚合基质中的10％，20％，30％和40％的白杨（L.）和柳（L.）木材颗粒，制备注塑的生物复合材料样品。狗骨头测试标本用于测试生物复合材料的物理，机械和热性能以及微观结构。拉伸强度和弯曲强度随着木材颗粒重量百分比的变化而变化，并且弯曲刚度随着木材重量百分比的增加而增加。在布氏硬度中，显示出类似的变化作为木材颗粒重量百分比的函数，并且还研究了硬度和拉伸强度与木材含量之间的关系。制备的生物复合材料可以替代塑料基材料，并鼓励在生物复合材料中使用短轮伐林中快速生长的（树皮和柳树）木材。

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期刊名称 Polymers
作者
Anuj Kumar; Tuula Jyske; Veikko Möttönen;
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作者单位

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年(卷),期 2020(12),2
年度 2020
页码 -1
总页数 13
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
short-rotation; aspen; willow; injection molding; biocomposite; tensile strength; bending strength; microstructure behavior;

机译：短旋转;树胶;柳树;注射成型;生物复合材料;拉伸强度;弯曲强度;微观结构行为;

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1. Investigation of cross-linked PVA/starch biocomposites reinforced by cellulose nanofibrils isolated from aspen wood sawdust [J] . Heidarian Pejman, Behzad Tayebeh, Sadeghi Mohsen Cellulose . 2017,第8期

机译：纤维素纳米纤维加强交联PVA /淀粉生物复合材料的研究
2. Effects of cutting size on the growth and wood property traits of short-rotation coppice willows [J] . Yang Guo, Li Xiaoping, Xu Qiang, Canadian Journal of Forest Research . 2020,第12期

机译：切削尺寸对短旋转煤灰柳树生长和木材性状的影响
3. Determination of Some Technological Properties of Injection Molded Pulverized-HDPE Based Composites Reinforced with Micronized Waste Tire Powder and Red Pine Wood Wastes [J] . Basboga Ibrahim Halil, Atar Ilkay, Karakus Kadir, Journal of Polymers and the Environment . 2020,第6期

机译：用微粉化废弃物粉和红松木材加强注塑成型粉碎高清合复合材料的一些技术特性
4. Injection-Molded Biocomposites from Industrial Hemp Fiber and Polypropylene: Effects of Polypropylene Grafted Maleic Anhydride on Physical Properties [C] . Wanjun Liu, Amar K. Mohanty, Lawrence T. Drzal, International Conference on Woodfiber-Plastic Composites(and other natural fibers); 20050523-25; Madison,WI(US) . 2005

机译：工业大麻纤维和聚丙烯的注塑生物复合材料：聚丙烯接枝马来酸酐对物理性能的影响
5. Nano Particle and Fiber Reinforced Injection Molded Polymeric Materials [D] . Keskin, Reyhan 2010

机译：纳米粒子和纤维增强的注塑聚合材料
6. Experimental data for extrusion processing and tensile properties of poly(hydroxybutyrate-co-hydroxyvalerate) (PHBV) polymer and wood fibre reinforced PHBV biocomposites [O] . Luigi-Jules Vandi, Clement Matthew Chan, Alan Werker, 2019

机译：聚（羟基丁酸-共-羟基戊酸酯）（PHBV）聚合物和木纤维增强的PHBV生物复合材料的挤出加工和拉伸性能的实验数据
7. Micromechanical Properties of Injection-Molded Starch–Wood Particle Composites [O] . Ueberschaer A., Cagiao M. E., Bayer R. K., 2006

机译：注射成型淀粉-木材颗粒复合材料的微机械性能
8. Study of Relationships Between Processing Variables and Properties In Thermoplastic Injection Molded Parts. Selection of Specimen and Process Variables, Mold Design, Instrumentation and Molding Procedure. [R] . McLaughlin, F. A. 1973

机译：热塑性注塑件加工变量与性能关系的研究。样品和工艺变量的选择，模具设计，仪器和成型程序。

Properties of Injection Molded Biocomposites Reinforced with Wood Particles of Short-Rotation Aspen and Willow

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