<div class="section abstract"><div class="htmlview paragraph">This research looks at the acoustic and mechanical characteristics of
polypropylene (PP) composites supplemented with natural fibers to determine
whether they are appropriate for automotive use. To generate composites that are
hybrids, four diverse natural fibers, including Calotropis gigantea (CGF), jute,
sisal, and kenaf, were mixed into PP matrices. The study examines how fiber
type, frequency, and thickness affect sound absorption and mechanical strength.
The results show that these natural fiber-reinforced composites have improved
mechanical characteristics, with CGF (73.26 shore D value of Hardness), sisal
(42.35 MPa tensile) and jute fibers showing particularly promising materials.
Furthermore, the acoustic study emphasizes these materials’ frequency-dependent
sound absorption properties, with particular efficacy in mid-frequency regions.
Such organic reinforcement fiber materials’ acoustic performance is tested at 5
mm and 10 mm thicknesses. When a 5 mm thick sample is examined, it is clear that
the coefficient of sound absorption is continuously less than 0.30 at 500 Hz and
climbs to a range around 0.87 and 0.96 at 2000 Hz. Only Calotropis gigantea
(CGF) and kenaf fibres show a steady rise in their sound absorption coefficient
from 500 Hz to 2000 Hz as the sample thickness increases to 10 mm. This study
contributes to developing environmentally friendly and superior materials for
future automobile uses by providing helpful insights into the optimal
configuration of naturally derived fiber-based composites for sound insulation
and reinforcement of frameworks in the automobile industry.</div></div>