presented the tensile and flexural

presented the tensile and flexural strengths of Glass-sisal polyester hybrid
composites. Tensile strength and flexural strength for the composite laminates were about 12.35 MPa and 53.46
MPa. Lassaad Ghali et al. [8] found that the luffa fiber weight fraction influenced the flexural properties of
polyester composites. The maximum values of strength and strain were reported at 10% weight fraction of fiber.
Boyand et al. [9] studied an effect of alkali treatment of sponge gourd (luffa cylindrica) fibers on the flexural
properties of polyester matrix composites. Experiment results showed an increase of flexural strength by 14%.
Girisha et al. [10] fabricated composites consisting of reinforcement in the hybrid combination such as sisalcoconut
spathe, sisal-ridge gourd and coconut spathe-ridge gourd with fibers varying from 5% to 30 Wt%. The
tensile strength reached a maximum value of 22 MPa at 25% weight fraction of fibers. This result explained that the
incorporation of different natural fibres (instead of a synthetic and a natural fibre) as reinforcements is also a very
practical approach. The tensile and compressive properties such as strength and modulus of fibrous composites
decreased with increase in angle of fibres from 0° to 90° [11]. Raju et al. [12] prepared the composite with different
weight % of randomly distributed groundnut shell in polymer matrix. The addition of the ground nut shell to the
polymer composites results reduced thermal conductivity and increases the glass transition temperature of the
composites. The scarcity of literature on morphologically different natural reinforced composites directs us towards
the development of luffa-ground nut shell–epoxy hybrid composite. In this work, epoxy based polymer composites
were prepared with single luffa fiber and ground nut fibre as the reinforcing materials. The tensile, compressive,
impact and flexural tests and SEM analysis of fractured surfaces of the composite were performed and are discussed
in detail.