Abstract
The present paper aims at investigating the relationship between fiber length of hybrid fibers and the tensile strength of sealing composite materials. First, three kinds of fibers: cellulose fiber, aramid pulp fiber, and mineral wool fiber were sieved and their weight-average length was measured. Second, a uniform design method of U8 (43) was adopted to prepare sealing composites by the beater-addition process, and the properties of the tensile strength of the composite were examined. In the end, the relation model was concluded and verified using multi-linear regression analyzation and was further analyzed using micro mechanic theory and interfacial bonding mechanism. The results show that the regression equation can be used to estimate the tensile strength of composites with different hybrid fiber lengths. The tensile strength increased corresponding to the increase of the length of the cellulose fiber but decreased with the increase of the length of aramid pulp and mineral wool fiber. Particularly the fiber length of aramid pulp fiber had the most significant effect on tensile properties. The cases were decided by the comprehensive effects of fibers dispersion, interfacial bonding, and micromechanics.
Highlights
Fiber reinforced composite (FRC) is a much researched material.[1]
Sealing composite was prepared by hybrid fibers of cellulose fiber, aramid pulp, and mineral wool fiber with different lengths and through beater-addition process
A model for the relationship between hybrid fiber length and tensile strength of composites was obtained by multiple linear regression analysis
Summary
Fiber reinforced composite (FRC) is a much researched material.[1]. Sealing composite is mainly used for the sealing connection of processing equipment, pressure vessels and pipe networks within industries of chemical, petroleum, electric power and medicine. Through experimental design, keeping the formula and process conditions unchanged, the influence of different fiber length on the tensile strength of the composite was studied. In order to study the effects of different lengths of cellulose fibers, aramid pulp, and mineral wool fibers on the
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