Coir fiber as thermal insulator and its performance as reinforcing material in biocomposite production

Coir is a lignocellulosic natural fiber derived from the coconut's husk, an abundantly found fruit or nut worldwide. This fiber has some unique characteristics, such as its resistance to seawater, microbial attack, high impact, etc. But its low thermal conductivity or high thermal insulating property makes it suitable for being used as insulators in civil engineering sites. On the other hand, the sustainability of a material depends heavily on its environmental impact of the mate-rial. For making sustainable materials like biocomposite, there are no options other than using polymers derived from natural renewable sources. Polylactic acid(PLA) is an example of those types of material. And these materials are often being reinforced by fibers like coir for various reasons including improving mechanical properties, reducing the cost of the material, and improving the material's sustainability. Many coir-reinforced sustainable biopolymer composites have already been produced in many pieces of research, which will be discussed in this paper, along with the chemical and physical structure of coir fiber. In addition, this paper will try to focus on the insulating properties of coir and coir-reinforced composites while will also compare some properties of the composites with some commonly used materials based on different pa-rameters to show the suitability of using the coir fiber in heat-insulating applications and to produce sustainable biocomposite materials.

Automated summary

Coir, a natural fiber derived from the coconut's husk, possesses unique characteristics such as resistance to seawater and microbial attack. Its low thermal conductivity makes it suitable for insulation in civil engineering. Sustainable materials like biocomposites rely on natural polymers like polylactic acid (PLA) and fibers like coir for reinforcement. This paper explores the production of coir-reinforced biopolymer composites and examines their insulating properties and sustainability.