The deflection sensitivity of badminton racket and specific design parameters need to be considered while developing a rugged racket structure. Titanium alloys, ceramics, fibreglass and carbon fibers are using to develop badminton rackets. During swing and hit the racket for smashes,
the structural failures are challenging. This paper focused on material selection to withstand to the max load applied. Armchair and Zig–Zag Carbon Nano Tubes are studied using Finite Element Modelling (FEM). The Stress–Strain curve, modulus of Elasticity, Bending Stiffness and
Moment of Inertia are analysed with varying radius of the carbon nanotube. Max bend is 900 along with twist angle 500 is applied on SWCNT Structures. The harvested results are impressive with reasonably good elastic and applied loads withstand properties to elect the Zig–Zag SWCNT structures
for developing the badminton rackets.
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