A TEAM of researchers, led by the University of Ports-mouth, have developed a bio-composite material using date palm fibre biomass (bio-mass is a term that includes waste material from plants, food waste and sewage) that can be used in non-structural parts, such as car bumpers and door linings. The team also involved researchers
from the University of Cambridge, INRA (Institut national de la recherche agronomique, a French public research institute dedicated to agricultural science) and University of Britanny, South.
The date palm fibre polycaprolactone (PCL) bio-composite is completely biodegradable, renewable, sustainable and recyclable, unlike synthetic composites reinforced by glass and carbon fibres.
In a study, published in the journal Industrial Crops and Products, the researchers tested the mechanical properties of the bio-composite.
They found that the date palm fibre PCL had increased tensile strength and achieved better low-velocity impact resistance than traditional man-made composites.
Dr Hom Dhakal, who leads the Advanced Materials and Manufacturing (AMM) Research Group at the University of Portsmouth and co-author of the study, said:
“Investigating the suitability of date palm?bres waste biomass Agricultural waste drives us
closer to greener transport as reinforcement in lightweight composite materials provides a
tremendous opportunity of utilising this material to develop low-cost, sustainable and lightweight biocomposites.
“The impact of this work would be extremely significant because these lightweight alternatives could help reduce the weight of vehicles, contributing to less fuel consumption and fewer C02 emissions. The sustainable materials can be produced using less energy than glass and carbon fibres and are biodegradable, therefore easier to recycle.”
The study is one of the first to provide a comprehensive assessment of the improved mechanical properties of date palm fibre PCL bio-composites.
Date palm fibres are one of the most available natural fibres in North Africa and the Middle East.
Date palm trees produce a large quantity of agriculture waste, which is burned or land-filled, causing serious environmental pollution as well as the destruction of important
soil micro-organisms. The part of the date palm tree which is often used is the sheath. The sheath is the part of the tree which surrounds the trunk of the plant. It is often torn
lose when pruning the leaves.
“This research shows us what’s possible,” he says. “We saw that the defects in bimaternal mice can be eliminated and that bipaternal reproduction barriers in mammals can also be crossed through imprinting modification.
“We also revealed some of themost important imprinted regions that hinder the development of mice with same sex parents, which are also interesting for studying
genomic imprinting and animal cloning.”
“It’s a long journey,” said Dr Dhakal, “and we have to have patience and perseverance to
make an impact. The challenge is getting consistent, reliable properties. It takes a long time to convince people to use a new class of materials, such as natural fibre reinforced composites for non-structural and structural applications.
“Meeting these challenges requires further research and innovation between academic institutions and industry.”
Dr Dhakal and his team have been working closely with industry to test the strength and viability of parts made from sustainable materials, such as date palm, flax, hemp and jute fibres. The AMM Research Group has been working in collaboration with researchers from institutions from around the world. In the last 18 months, the group has published many high impact factor papers in journals including the Composites Science and Technology, Composites Part A and Composites Part B.
