1) straw fibreboard
秸杆纤维板
1.
In this paper, straw fibreboard as raw materials is modified by micro-nano fibril / melamine, the adoption of different methods of straw of different density fiberboard impregnated to deal with the main analysis of the modified surface properties of straw fiberboard.
本文的研究目标是通过研究杨木微纳纤丝/三聚氰胺为改性材料处理秸杆纤维板的工艺及主要性能,分析主要的工艺影响因素对改性处理后秸杆纤维板尺寸稳定性、静曲强度(MOR)和弹性模量(MOE)等性能的影响,为提高秸杆纤维板性能、扩大其使用范围提供理论和实验依据。
3) Straw-based MDF
秸秆纤维板
1.
Effect of Enzymes Pretreatment on Performances of Straw-based MDF;
针对稻草和麦秸原料的特点,分别用木聚糖酶、漆酶/碳源系统(LCS)和脂肪酶对原料进行生物酶预处理用机械磨浆方法制备纤维,以木质纤维板用脲醛树脂作胶黏剂,压制秸秆中密度板,并探讨酶处理对秸秆纤维板性能的影响。
5) Wheat straw fiber
麦秸纤维
1.
Effects of the kinds of coupling agent,amount of wheat straw fibers obtained by thermal-mechanical extraction and compatibilizer MAPP on the interfacial compatibility between wheat straw fibers and waste polypropylene as well as the mechanical properties of the composites were studied.
采用热磨提取法提取麦秸纤维,研究了硅烷偶联剂种类、麦秸纤维含量以及相容剂MAPP含量对麦秸纤维与废旧聚丙烯间的界面相容性以及制备的复合材料力学性能的影响;用扫描电镜和三维体视显微镜观察了麦秸纤维的分散性以及复合材料冲击断口形貌。
2.
The effects of the amount of KH550 coupling agent, wheat straw fiber and MAH-g-PP compatibilizer on the mechanical properties of wheat straw fiber/waste polypropylene composites were studied.
研究了偶联剂KH550、麦秸纤维以及相容剂MAH-g-PP的添加量对麦秸纤维/废旧聚丙烯复合材料力学性能的影响。
6) straw fiber
秸秆纤维
1.
Study on the Effect of Straw Fiber on Properties of PBS Composite
秸秆纤维对PBS复合材料的性能影响研究
2.
The primary functional materials,including straw fiber,polyacrylamide(PAM) and super absorbent polymer(SAP),are investigated quantitatively with functional effects.
秸秆纤维、聚丙烯酰胺及高吸水树脂是基质混合物中主要的功能材料,通过试验定量研究了秸秆纤维、聚丙烯酰胺及高吸水树脂在基质混合物中的功能效应。
3.
The study on the molding technology of the straw/plastics composites and the actuality as well as the deficiency of the composites were summarized in this paper,some most potentially applicable at present were described,the characteristics and insufficiencies of straw fiber composites were analyzed.
文中从秸秆的资源状况、使用价值出发,在浅析了秸秆材料的组成结构和性能的基础上,分别介绍了秸秆纤维复合材料的成型工艺,以及复合材料制品开发应用的现状;并指出了秸秆纤维制备复合材料的优越性及复合材料制备中急需解决的问题;最后对秸秆资源综合利用及复合材料的广泛使用进行了展望。
补充资料:碳(石墨)纤维增强体(见碳纤维、石墨纤维)
碳(石墨)纤维增强体(见碳纤维、石墨纤维)
earbon(graPhite)fibrereinforeements
,、、里z耽维增强体earbon(graphi现inforcements用于复合材料中承受负荷,田的磷纤始知五史纤俯亡e)fibre起增强作
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条