Tensile Mechanical Properties of Three-Strand PE/SiO2 Composite Fiber Rope

Jian Gao Shi; Wen Wen Yu; Wen Zhu Zhong; Yong Li Liu; Ming Hua Min; Lei Wang

doi:10.4028/www.scientific.net/AMR.1033-1034.921

Paper Titles

Infrared Analysis on Pyrolysis Products of Flame Retardant Rigid Polyurethane Foam
p.900

Phase Stability and Thermal Conductivity of La₂O₃, Y₂O₃ Stabilized ZrO₂ Ceramic for Thermal Barrier Coating Application
p.907

Processing and Mechanical Properties of Natural Rubber/Chitosan/Poly(3-hydroxybutyrate) Blends
p.912

Study on the Properties and Mechanism of Flame Retarded Glass Fiber Reinforced Polyamide 6 with Microcapsulated Aluminum Hypophosphite
p.916

Tensile Mechanical Properties of Three-Strand PE/SiO₂Composite Fiber Rope
p.921

Study on Thermal Degradation Behavior of Composites with Liquid Crystalline Thermoset
p.927

Synthesis and Application of a Novel Intumescent Flame Retardant Containing Ferrocenyl
p.931

A Method for Prediction of Water Permeability through Polymers
p.939

Calculation Method for Predicting Polymer Compatibility: Estimation of Microphase Compositions from Glass Transition Temperatures
p.948

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1033-1034Tensile Mechanical Properties of Three-Strand...

Tensile Mechanical Properties of Three-Strand PE/SiO₂Composite Fiber Rope

Abstract:

The tensile mechanical properties of polyethylene/silica (PE/SiO₂) composite fiber and three-strand PE/SiO₂ composite fiber ropes were investigated. It was found that the SiO₂ content had a significant effect on the tensile mechanical properties of composite fiber. The breaking force of the fishing three-strand PE/SiO₂ composite fiber rope with diameter 8 mm was 15.8 kN. Compared to common synthetic fiber rope with the same diameter, fishing three-strand PE/SiO₂ composite fiber rope had higher breaking force and less elongation. On the premise of maintain the breaking force, the common synthetic fiber rope could be replaced by the fishing three-strand PE/SiO₂ composite fiber rope in fishing area, and the linear density, the elongation at break, the netting gear resistance and using diameter of rope decreased. Therefore, an efficient method to improve the tensile mechanical properties and lower cost by using composite fiber rope was established.