材料科学
复合材料
剑麻
纤维
聚氨酯
蓖麻油
抗压强度
粘附
生物化学
化学
作者
Hong Juan Wang,Chun Yuan Zhang,Min Zhi Rong,Ming Qiu Zhang,Tibor Czigány
标识
DOI:10.1163/156855408783810803
摘要
In this study, bio-foam composites are produced using short sisal fiber as the reinforcement and modified castor oil as the matrix, respectively. The foam composites with an average cell size of 200 μm possess properties similar to those of commercial polyurethane foams. The effects of fiber loading, fiber length and foam density on the compressive properties of the foam composites are reported in relation to the interfacial interaction. It is found that the addition of chopped sisal alters cell structure of the foam. Surface pre-treatment of sisal by alkali or silane coupling agent helps to improve the mechanical properties and interfacial adhesion. The exposure of the fibers to the gas cells of the foam reduces the effectiveness of interfacial effect, which is different from the case of conventional bulk composites. As a result, the reinforcing ability of sisal fibers becomes a function of fiber length and so on.
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