Creep behaviour of ozone treated jute fabric/epoxy composites

Abstract: The present work attempted to study the creep behaviour of jute fabric/epoxy composites at different environment temperatures using several creep models (i.e., Burger’s model, Findley’s power law model, and Coupling model). The surface of jute fabrics was modified by ozone gas treatment to remove the non-cellulosic materials and thereby improve their adhesion with epoxy matrix. Further, the performance of ozone surface treatment was compared with traditional alkali treatment based on surface morphology, mechan… Show more

“…173 In a study of jute fibers treated by an ozone gas (70–120 mg/L) before the manufacture a jute-epoxy composite, interfacial shear strength increased from 2.69 MPa (without any treatment, with 5 wt % corn husk fillers) to 9.64 MPa after ozone treatment. 175…”

“…173 In a study of jute fibers treated by an ozone gas (70-120 mg/L) before the manufacture a jute-epoxy composite, interfacial shear strength increased from 2.69 MPa (without any treatment, with 5 wt % corn husk fillers) to 9.64 MPa after ozone treatment. 175 Table 17 summarizes the relevant consequences of physical pre-treatment of vegetable fibers on composites properties. In literature, only pulping pre-treatment is proposed for both cementitious and polymer matrices, the other ones are specific of the matrix nature.…”

Assessment of vegetable fiber-matrix adhesion and durability, in cement-based and polymer-based composite: Principles from literature review

“…173 In a study of jute fibers treated by an ozone gas (70–120 mg/L) before the manufacture a jute-epoxy composite, interfacial shear strength increased from 2.69 MPa (without any treatment, with 5 wt % corn husk fillers) to 9.64 MPa after ozone treatment. 175…”

“…173 In a study of jute fibers treated by an ozone gas (70-120 mg/L) before the manufacture a jute-epoxy composite, interfacial shear strength increased from 2.69 MPa (without any treatment, with 5 wt % corn husk fillers) to 9.64 MPa after ozone treatment. 175 Table 17 summarizes the relevant consequences of physical pre-treatment of vegetable fibers on composites properties. In literature, only pulping pre-treatment is proposed for both cementitious and polymer matrices, the other ones are specific of the matrix nature.…”

Assessment of vegetable fiber-matrix adhesion and durability, in cement-based and polymer-based composite: Principles from literature review

Revealing the structural variation and degradation mechanism of cellulose during ozone oxidation treatment