Bagasse can be regarded as a renewa

Bagasse can be regarded as a renewable material as it is the byproduct
of sugarcane stalks after crushing in order to extract juice.
There have been a number of researches [6–9] exploring the use of
bagasse renewable power or electricity generation sources, and for
the production of bio-based materials. It is often used in the manufacture
of pulp and paper articles as well as in building material
applications. Due to the high production of sugar, the volume of
bagasse has become large [10] and, at present, bagasse has been
adopted and used as a filler in cement and polymeric materials.
In cement applications, the use of the treated bagasse fibers has
potential to substitute cement for retarding the setting durability
time, obtaining thermal stability, decreasing water adsorption,
and improving the fiber–matrix interface stability, and thus creating
enhanced cement adhesion as compared to commercial cement
[11,12], and it has been found that bagasse fiber could improve the
flexural properties of the cement [13]. In polymer applications, bagasse
fibers have been used as reinforcing filler in order to enhance
mechanical properties, reduce product weight and enhance environmentally
friendly characteristics of a wide range of thermoplastics
and thermosetting matrices, such as polypropylene [14,15],
polyester composites [16], polyvinyl chloride and high density
polyethylene [17]. Moreover, bagasse fibers can be utilized as a
property enhancing filler in both natural and synthetic rubbers
[18]. The incorporation of bagasse filler in natural rubber composites
improved tensile strength and barrier properties and increased
the rate of degradation of the rubber in soil