Abstract:
In the last several years, polymer composites have been used heavily in aerospace, automotive and
other engineering applications. Polymer matrix composites (PMCs) are comprised of a variety of
short or continuous fibers bound together by an organic polymer matrix. Natural fibers are recently
getting attention from researchers and academia to utilize in polymer composites due to their ecofriendly
nature and sustainability. Cellulose is the most abundant and renewable biopolymer on earth
and is obtained from renewable resources such as biomass. Microcrystalline cellulose (MCC) is a
member of cellulose family. MCC possesses many advantages compared to cellulose fibers.
Polypropylene is one of the widely used thermoplastic material as matrix material in engineering
applications. In this research, Polypropylene matrix with microcrystalline cellulose reinforced
composite was investigated for their mechanical properties.
MCC was subjected to surface modification to improve compatibility with hydrophobic
Polypropylene using silane treatment. Polypropylene was mixed with surface treated MCC by
varying MCC concentration (1% wt. to 5% wt.) in a laboratory type internal mixer. Composite
was fabricated using compression moulding technique. Impact, tensile, hardness and water
absorption tests were performed to evaluate the mechanical properties of the developed
composites. Density of the developed composite was measured to estimate the weight of the
developed composite.
Experimental results showed that gradual increase of tensile strength, hardness and impact
strength with the increase of MCC concentration. Polypropylene with 4 wt% of MCC. sample
showed the maximum impact strength and it was 18.2 KJ/m
2
. Maximum water absorption
(0.02%) was observed in 5wt%. MCC containing sample. 5wt%.MCC containing sample
showed a maximum hardness (74.5 Shore D). Developed composite showed the gradual
reduction of density from 1wt% MCC (0.880 g/cm
3
) to 5wt% MCC (0.825 g/cm
3
). Therefore,
Polypropylene with MCC polymer composite can be used for different engineering application.
This provides light weight benefits.
Citation:
Rajapaksha, L.D., Saumyadi, H.A.D., Samarasekara, A.M.P.B., & Amarasinghe, D.A.S. (2017). Microcrystalline cellulose based polymer composite for engineering applications
[Abstract]. In V. Sivahar (Ed.), Leveraging materials for a smart future (p. 14). Society of Mechanical Engineering Students, Department of Materials Science and Engineering, University of Moratuwa.