Thermal Properties of Natural Fiber Sisal Based Hybrid Composites – A Brief Review

“…The temperature of the matrix during extrusion affects the quality and performance of the natural fiber. Natural fibers are expected to undergo thermal degradation after 200°C, [ 21,102,103 ] which limits the choice of the thermoplastic matrix for the development of natural fiber composites in the FDM process. [ 103,104 ] Importantly, it is necessary to remove the moisture in the natural fiber before processing in FDM, since the presence of moisture in the natural fiber produces an adverse effect in the polymer matrix due to hydrolysis, which degrades the polymer matrix.…”

“…Natural fibers are expected to undergo thermal degradation after 200°C, [ 21,102,103 ] which limits the choice of the thermoplastic matrix for the development of natural fiber composites in the FDM process. [ 103,104 ] Importantly, it is necessary to remove the moisture in the natural fiber before processing in FDM, since the presence of moisture in the natural fiber produces an adverse effect in the polymer matrix due to hydrolysis, which degrades the polymer matrix. [ 105–107 ] The use of natural fiber in the FDM process has advantages such as reduced feedstock costs, reduced environmental effects, and reduced distortion after processing without affecting mechanical strength.…”

Fused deposition modeling based polymeric materials and their performance: A review

“…The temperature of the matrix during extrusion affects the quality and performance of the natural fiber. Natural fibers are expected to undergo thermal degradation after 200°C, [ 21,102,103 ] which limits the choice of the thermoplastic matrix for the development of natural fiber composites in the FDM process. [ 103,104 ] Importantly, it is necessary to remove the moisture in the natural fiber before processing in FDM, since the presence of moisture in the natural fiber produces an adverse effect in the polymer matrix due to hydrolysis, which degrades the polymer matrix.…”

“…Natural fibers are expected to undergo thermal degradation after 200°C, [ 21,102,103 ] which limits the choice of the thermoplastic matrix for the development of natural fiber composites in the FDM process. [ 103,104 ] Importantly, it is necessary to remove the moisture in the natural fiber before processing in FDM, since the presence of moisture in the natural fiber produces an adverse effect in the polymer matrix due to hydrolysis, which degrades the polymer matrix. [ 105–107 ] The use of natural fiber in the FDM process has advantages such as reduced feedstock costs, reduced environmental effects, and reduced distortion after processing without affecting mechanical strength.…”

Fused deposition modeling based polymeric materials and their performance: A review

“…Swolfs et al 19 reported that hybridisation can be used to enhance the strength of reinforced fibre composites. Through hybridisation, it is possible to develop composites at a low cost without sacrificing the mechanical and thermal properties 7 . Furthermore, hybrid composites show balanced mechanical strength, which cannot be achieved in single-fibre reinforced composites 2 , 16 Atiqah et al’s 20 investigation proved that through hybridisation it possible to improve the physical and thermal properties of sugar palm/glass fibre reinforced polyurethane composite.…”

Effects of water absorption on the mechanical properties of hybrid natural fibre/phenol formaldehyde composites

“…Furthermore, the nanocomposites exhibit improved thermal resistance and recyclability equivalent to that of high-performance composites. [83,84] The incorporation of Cloisite 20A improved the mechanical performance of vinyl ester composites especially fracture toughness with a trivial drop in flexural strength. [85] Furthermore, the mechanical behavior of nano-clayloaded polymer matrix composites is greatly dependent on the interfacial level interaction among the constituents.…”

A comprehensive review on natural fiber/nano‐clay reinforced hybrid polymeric composites: Materials and technologies