Indonesia is the most producer of crude palm oil (CPO) worldwide with production more that 25 million tons in 2013. Through increasing production of CPO the wastes generated are growing up as well. The empty fruit bun...Indonesia is the most producer of crude palm oil (CPO) worldwide with production more that 25 million tons in 2013. Through increasing production of CPO the wastes generated are growing up as well. The empty fruit bunch of oil palm (EFB) is one of the solid waste (biomass) which is generated at the palm oil mill. Its amount is equivalent to the CPO production, but only about 50% of its weight are good fibers for further usage as industrial raw material. The EFB fiber consists an interesting honey comb/lightweight structure. By mixing the EFB natural fiber with bio binding agent based on potato the environmental friendly materials (biocomposites) can be produced which are 100% biodegadrable. The biocomposites with 2 mm thickness have strengthness about 7 GPa according to the 3 points bending test standard of DIN 53 457. After coating process the environmental friendly lightweight materials with density less than 0.4 g/cm3 will be ready to be implemented for different technical applications.展开更多
The use of asbestos material is being avoided to manufacture the brake pads as it is harmful and toxic in nature. Further it leads to various health issues like asbestosis, mesothelioma and lung cancers. These brake p...The use of asbestos material is being avoided to manufacture the brake pads as it is harmful and toxic in nature. Further it leads to various health issues like asbestosis, mesothelioma and lung cancers. These brake pads can be replaced by natural fibers like Palm kernel (0-50%), Nile roses (0-15%) and Wheat (0-10%) with additives like aluminum oxide (5%-20%) and graphite powder (10%-35%). Phenolic resin of 35% is utilized as a binder. Particulated Nile roses are used to increase the friction coefficient and wheat powder is used to reduce the wear rate. Aluminum oxide and graphite are abrasive in nature. This helps to make brake pads with high friction co-efficient and less wear rate with low noise pollution. The wear of the proposed composites have been investigated at different speeds. Various tests like wear on pin-ondisc apparatus, hardness on the Rockwell hardness apparatus and oil absorption test have been conducted. Phenolic resin produces good bonding nature to fiber. Thus, Fibers found to have performed palatably among all commercial brake pads. The objective of the research indicates that Palm kernal shell could be a conceivable alternative for asbestos in friction coating materials.展开更多
Fibers obtained from different parts of the oil palm tree(Elaeis guineensis)have been under investigation for possible use in construction.Studies have been carried out investigating the engineering properties and pos...Fibers obtained from different parts of the oil palm tree(Elaeis guineensis)have been under investigation for possible use in construction.Studies have been carried out investigating the engineering properties and possible applications of these fibers.However,the experimental methods employed and the values of mechanical and physical properties recorded by various authors are inconsistent.It has therefore become necessary to organize information which would be useful in the design of oil palm fiber cement composites and help researchers and engineers make informed decisions in further research and application.This review provides information about fibers from different parts of the oil palm,their properties,enhancement techniques,current and potential application in cement composites.展开更多
Fibers are increasingly in demand for a wide range of polymer composite materials.This study^purpose was the development of oil palm fiber(OPF)mixed with the thermoplastic material acrylonitrile butadiene styrene(ABS)...Fibers are increasingly in demand for a wide range of polymer composite materials.This study^purpose was the development of oil palm fiber(OPF)mixed with the thermoplastic material acrylonitrile butadiene styrene(ABS)as a composite filament for fused deposition modeling(FDM).The mechanical properties of this composite filament were then analyzed.OPF is a fiber extracted from empty fruit bunches,which has proved to be an excellent raw material for biocomposites.The cellulose content of OPF is 43%-65%,and the lignin content is 13%-25%.The composite lilament consists of OPF(5%,mass fraction)in the ABS matrix.The fabrication procedure included alkalinizing,drying,and crushing the OPF to develop the composite.The OPF/ABS materials were prepared and completely blended to acquire a mix of 250 g of the material for the composition.Next,the FLD25 filament extrusion machine was used to form the OPF/ABS composite into a wire.This composite filament then was used in an FDM-based 3D printer to print the specimens.Finally,the printed specimens were tested for mechanical properties such as tensile and flexural strength.The results show that the presence of OPF had increased the tensile strength and modulus elasticity by approximately 1.9%and 1.05%,respectively.However,the flexural strength of the OPF/ABS composite had decreased by 90.6%compared with the virgin ABS.Lastly,the most significant outcome of the OPF/ABS composite was its suitability for printing using the FDM method.展开更多
Among the major challenges facing the modern era of technological and industrial advancements are pollution and exponentially growing energy consumption.Pollution continues to be a menace affecting different aspects o...Among the major challenges facing the modern era of technological and industrial advancements are pollution and exponentially growing energy consumption.Pollution continues to be a menace affecting different aspects of life such as health,productivity,and comfort.This paper focuses on the elimination or reduction of sound pollution in buildings using cement-based boards made from pretreated coconut coir and oil palm fibers obtained from agricultural residues.The study includes an account of the preparation of fiber cement boards made from Portland cement Type 1,limestone powder,water,sand,and pretreated coconut coir and oil palm fibers at 5,10,15,and 20%by weight of powder materials,respectively,and a high-range water reducer in order to make sure that the natural materials would be spread in an even way throughout the specimens.Sound insulation tests were performed as key indicators of the performance of the fiber cement boards.It was found that an increase in the proportion of natural materials resulted in fiber cement boards with decreased density,compressive strength,and flexural strength.Furthermore,in relation to both physical and mechanical performance,the boards incorporating coconut fibers were superior to those incorporating oil palm fibers.With an increased proportion of natural fibers,sound insulation performance tended to improve.The boards prepared with coconut coir and oil palm fibers in this study yielded acceptable physical and mechanical properties and showed promise in relation to providing insulative protection against sound.展开更多
文摘Indonesia is the most producer of crude palm oil (CPO) worldwide with production more that 25 million tons in 2013. Through increasing production of CPO the wastes generated are growing up as well. The empty fruit bunch of oil palm (EFB) is one of the solid waste (biomass) which is generated at the palm oil mill. Its amount is equivalent to the CPO production, but only about 50% of its weight are good fibers for further usage as industrial raw material. The EFB fiber consists an interesting honey comb/lightweight structure. By mixing the EFB natural fiber with bio binding agent based on potato the environmental friendly materials (biocomposites) can be produced which are 100% biodegadrable. The biocomposites with 2 mm thickness have strengthness about 7 GPa according to the 3 points bending test standard of DIN 53 457. After coating process the environmental friendly lightweight materials with density less than 0.4 g/cm3 will be ready to be implemented for different technical applications.
文摘The use of asbestos material is being avoided to manufacture the brake pads as it is harmful and toxic in nature. Further it leads to various health issues like asbestosis, mesothelioma and lung cancers. These brake pads can be replaced by natural fibers like Palm kernel (0-50%), Nile roses (0-15%) and Wheat (0-10%) with additives like aluminum oxide (5%-20%) and graphite powder (10%-35%). Phenolic resin of 35% is utilized as a binder. Particulated Nile roses are used to increase the friction coefficient and wheat powder is used to reduce the wear rate. Aluminum oxide and graphite are abrasive in nature. This helps to make brake pads with high friction co-efficient and less wear rate with low noise pollution. The wear of the proposed composites have been investigated at different speeds. Various tests like wear on pin-ondisc apparatus, hardness on the Rockwell hardness apparatus and oil absorption test have been conducted. Phenolic resin produces good bonding nature to fiber. Thus, Fibers found to have performed palatably among all commercial brake pads. The objective of the research indicates that Palm kernal shell could be a conceivable alternative for asbestos in friction coating materials.
基金funded by the Petroleum Technology Development Fund(PTDF)of Nigeria(No.PTDF/ED/PHD/MEO/1057/17).
文摘Fibers obtained from different parts of the oil palm tree(Elaeis guineensis)have been under investigation for possible use in construction.Studies have been carried out investigating the engineering properties and possible applications of these fibers.However,the experimental methods employed and the values of mechanical and physical properties recorded by various authors are inconsistent.It has therefore become necessary to organize information which would be useful in the design of oil palm fiber cement composites and help researchers and engineers make informed decisions in further research and application.This review provides information about fibers from different parts of the oil palm,their properties,enhancement techniques,current and potential application in cement composites.
基金The authors are thankful to the Faculty of Mechanical and Manufacturing Engineering Technology,Universiti Teknikal Malaysia Melaka for providing the facilities of laboratory and supporting for this research work.
文摘Fibers are increasingly in demand for a wide range of polymer composite materials.This study^purpose was the development of oil palm fiber(OPF)mixed with the thermoplastic material acrylonitrile butadiene styrene(ABS)as a composite filament for fused deposition modeling(FDM).The mechanical properties of this composite filament were then analyzed.OPF is a fiber extracted from empty fruit bunches,which has proved to be an excellent raw material for biocomposites.The cellulose content of OPF is 43%-65%,and the lignin content is 13%-25%.The composite lilament consists of OPF(5%,mass fraction)in the ABS matrix.The fabrication procedure included alkalinizing,drying,and crushing the OPF to develop the composite.The OPF/ABS materials were prepared and completely blended to acquire a mix of 250 g of the material for the composition.Next,the FLD25 filament extrusion machine was used to form the OPF/ABS composite into a wire.This composite filament then was used in an FDM-based 3D printer to print the specimens.Finally,the printed specimens were tested for mechanical properties such as tensile and flexural strength.The results show that the presence of OPF had increased the tensile strength and modulus elasticity by approximately 1.9%and 1.05%,respectively.However,the flexural strength of the OPF/ABS composite had decreased by 90.6%compared with the virgin ABS.Lastly,the most significant outcome of the OPF/ABS composite was its suitability for printing using the FDM method.
文摘Among the major challenges facing the modern era of technological and industrial advancements are pollution and exponentially growing energy consumption.Pollution continues to be a menace affecting different aspects of life such as health,productivity,and comfort.This paper focuses on the elimination or reduction of sound pollution in buildings using cement-based boards made from pretreated coconut coir and oil palm fibers obtained from agricultural residues.The study includes an account of the preparation of fiber cement boards made from Portland cement Type 1,limestone powder,water,sand,and pretreated coconut coir and oil palm fibers at 5,10,15,and 20%by weight of powder materials,respectively,and a high-range water reducer in order to make sure that the natural materials would be spread in an even way throughout the specimens.Sound insulation tests were performed as key indicators of the performance of the fiber cement boards.It was found that an increase in the proportion of natural materials resulted in fiber cement boards with decreased density,compressive strength,and flexural strength.Furthermore,in relation to both physical and mechanical performance,the boards incorporating coconut fibers were superior to those incorporating oil palm fibers.With an increased proportion of natural fibers,sound insulation performance tended to improve.The boards prepared with coconut coir and oil palm fibers in this study yielded acceptable physical and mechanical properties and showed promise in relation to providing insulative protection against sound.
