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Journal articles on the topic 'Fibres de bagasse'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Prasad, Lalta, Shiv Kumar, Raj Vardhan Patel, Anshul Yadav, Virendra Kumar, and Jerzy Winczek. "Physical and Mechanical Behaviour of Sugarcane Bagasse Fibre-Reinforced Epoxy Bio-Composites." Materials 13, no. 23 (2020): 5387. http://dx.doi.org/10.3390/ma13235387.

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In this study, experiments are performed to study the physical and mechanical behaviour of chemically-treated sugarcane bagasse fibre-reinforced epoxy composite. The effect of alkali treatment, fibre varieties, and fibre lengths on physical and mechanical properties of the composites is studied. To study the morphology of the fractured composites, scanning electron microscopy is performed over fractured composite surfaces. The study found that the variety and lengths of fibres significantly influence the physical and mechanical properties of the sugarcane bagasse-reinforced composites. From th
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Teixeira, Ronaldo Soares, G. H. D. Tonoli, S. F. Santos, Juliano Fiorelli, Holmer Savastano, and F. A. Rocco Lahr. "Extruded Cement Based Composites Reinforced with Sugar Cane Bagasse Fibres." Key Engineering Materials 517 (June 2012): 450–57. http://dx.doi.org/10.4028/www.scientific.net/kem.517.450.

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The extrusion process can produce composites with high-density matrix and fibre packing, low permeability and fibre matrix bond strengthening. This process is also compatible with the use of vegetable fibres as raw materials in the production of cost-effective construction elements such as ceiling panels. Sugar cane bagasse fibres (SCF), one of the largest cellulosic agroindustrial by-products of sugar and alcohol industry available in Brazil, are a renewable resource usually used as a biomass fuel for the boilers. The remaining bagasse is still a source of contamination to the environment, so
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Al Bakri, A. M. Mustafa, J. Liyana, M. N. Norazian, H. Kamarudin, and C. M. Ruzaidi. "Mechanical Properties of Polymer Composites with Sugarcane Bagasse Filler." Advanced Materials Research 740 (August 2013): 739–44. http://dx.doi.org/10.4028/www.scientific.net/amr.740.739.

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Natural fibers reinforced polymer composites have gained more interest because of their biodegradable, light weight, less expensive sources, easy processing, high specific modulus and also environmentally friendly appeal. This paper presents an overview of a study aimed at showing on how the bio-composites which is bagasse fibers combined with resins as an alternative of bagasse-fiber-based composites panel. Transforming bagasse fibers into panel products provides a prospective solution. Bagasse-fiber-based composites offer potential as the core material replacing high density and expensive wo
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4

Mohamed Sutan, Norsuzailina, Siti Masjida Mazlan, Siti Noor Linda Taib, et al. "Biomass Morphology Subjected to Different Chemical Treatment." E3S Web of Conferences 34 (2018): 02051. http://dx.doi.org/10.1051/e3sconf/20183402051.

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A growing interest of sugarcane bagasse fibre composite has been observed in recent years due to its attractiveness properties such as low specific weight, renewable source and producible with low investment at low cost. However, these materials have a low interfacial adhesion between fibre and matrix which lead to reduction in certain mechanical properties of the composite. To overcome this problem, studies show that certain chemical treatments on the surface of the fibres are some alternatives that significantly increase the adhesion reinforcement/matrix, in some cases improving its mechanic
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Dimopoulou, Maria, and Vassilis Kontogiorgos. "Soluble dietary fibres from sugarcane bagasse." International Journal of Food Science & Technology 55, no. 5 (2019): 1943–49. http://dx.doi.org/10.1111/ijfs.14445.

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Tian, He, and Yi Xia Zhang. "Mechanical Properties of a Green Hybrid Fibre-Reinforced Cementitious Composite." Applied Mechanics and Materials 438-439 (October 2013): 275–79. http://dx.doi.org/10.4028/www.scientific.net/amm.438-439.275.

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In this paper, a new green hybrid fibre-reinforced cementitious composite with high volume fly ash and steel and bagasse fibres is developed. High volume fly ash is used to partly replace cement and make the composite greener. Eco-friendly bagasse fibres from industrial waste and steel fibres are utilized to improve the mechanical behavior. In particularly, the influence of the parameters such as the sand/cement ratio and fly ash/cement ratio on the mechanical properties of the composite is investidated by evaluating the essential mechanical properties such as compressive strength and modulus
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7

Motaung, Tshwafo E., and Mokgaotsa J. Mochane. "Systematic review on recent studies on sugar cane bagasse and bagasse cellulose polymer composites." Journal of Thermoplastic Composite Materials 31, no. 10 (2017): 1416–32. http://dx.doi.org/10.1177/0892705717738292.

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Sugar cane bagasse (SCB) is one of the abundant and available natural fibres in many countries as a by-product from sugar cane mills after an extraction of sugar. Attempts have been made to convert this by-product into useful eco-friendly cement-bonded composites and polymer composites, which can be used for various internal and external applications in buildings. Some researchers extracted cellulose from SCB and incorporated it in different polymeric matrices. The investigations included optimization of parameters and chemical treatments such as bagasse content or coupling agents for a produc
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8

Hunsigi, Gururaj. "Agricultural Fibres for Paper Pulp." Outlook on Agriculture 18, no. 3 (1989): 96–103. http://dx.doi.org/10.1177/003072708901800301.

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The enormous demand for wood for paper-making has created serious and still growing environmental problems. This has led to a revival of interest in the possibility of making greater use of a variety of agricultural fibres as a source of paper pulp. This article reviews the present situation and explores the prospects for a substantial expansion, particularly in the utilization of sugarcane bagasse.
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9

Tian, He, Yi Xia Zhang, and Chun Hui Yang. "Numerical Modelling of Mechanical Behaviour of Fibre Reinforced Cementitious Composites." Applied Mechanics and Materials 846 (July 2016): 139–44. http://dx.doi.org/10.4028/www.scientific.net/amm.846.139.

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In this paper, a new numerical model is developed to model the tensile behavior of the cementitious composites reinforced with hybrid bagasse fibres and steel fibres based on the extended finite element method. The numerical model considers random fibre distribution, which is generated automatically, and the cohesive behavior, which represents the bonding between fibres and the matrix. The cementitious matrix is modeled using extended finite element method. The developed numerical model is implemented in commercial software ABAQUS and the computed results are compared with the corresponding ex
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10

Carvalho, Wender Santana, Douglas Ferreira Martins, Fernando Rosa Gomes, et al. "Phosphate adsorption on chemically modified sugarcane bagasse fibres." Biomass and Bioenergy 35, no. 9 (2011): 3913–19. http://dx.doi.org/10.1016/j.biombioe.2011.06.014.

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11

Onésippe, Cristel, Nady Passe-Coutrin, Fernando Toro, Silvio Delvasto, Ketty Bilba, and Marie-Ange Arsène. "Sugar cane bagasse fibres reinforced cement composites: Thermal considerations." Composites Part A: Applied Science and Manufacturing 41, no. 4 (2010): 549–56. http://dx.doi.org/10.1016/j.compositesa.2010.01.002.

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12

Danso, Humphrey. "Improving Water Resistance of Compressed Earth Blocks Enhanced with Different Natural Fibres." Open Construction and Building Technology Journal 11, no. 1 (2017): 433–40. http://dx.doi.org/10.2174/1874836801711010433.

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Background: Studies have shown a great potential for the use of Compressed Earth Blocks (CEBs) as a sustainable building material due to its economic, environmental and social benefits. Objective: This study investigates the water resistance characteristics of CEBs reinforced with different natural fibres. Methods: The fibres were sourced from coconut husk, sugarcane bagasse and oil palm fruit at 1 wt% added to two soil samples. The CEB specimen size of 290 × 140 × 100 mm was made at a constant pressure of 10 MPa and dried in the sun for 21 days. Accelerated erosion test was conducted to deter
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13

Anggono, Juliana, Suwandi Sugondo, Rassy Alim, Hariyati Purwaningsih, and Aria Wibawa. "Performance and Evaluation of Low Cost Sugarcane Bagasse - Polypropylene Biocomposites as Candidate Material for Automotive Parcel Tray." Materials Science Forum 923 (May 2018): 40–46. http://dx.doi.org/10.4028/www.scientific.net/msf.923.40.

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Many auto manufacturers such as Mercedes Benz, Toyota and DaimlerChrysler have already embraced natural fiber composites into both interior and exterior parts and are looking to expand the uses of this composites. They have to balance the changing public demands of greater comfort, better driving performances, and higher safety standards with the environmental requirements. Based on the preliminary study using 20 to 30 wt.% NaOH treated sugarcane bagasse fibers to make biocomposites with polypropylene matrix, the tensile strength obtained was variably, in the range between 8.31 to 20.59 MPa. A
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14

Vijerathna, M. P. G., I. Wijesekara, R. Perera, S. M. T. A. Maralanda, M. Jayasinghe, and I. Wickramasinghe. "Physico-chemical Characterization of Cookies Supplemented with Sugarcane Bagasse Fibres." Vidyodaya Journal of Science 22, no. 1 (2019): 29. http://dx.doi.org/10.4038/vjs.v22i1.6062.

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15

Dang, Liet Chi, Behzad Fatahi, and Hadi Khabbaz. "Behaviour of Expansive Soils Stabilized with Hydrated Lime and Bagasse Fibres." Procedia Engineering 143 (2016): 658–65. http://dx.doi.org/10.1016/j.proeng.2016.06.093.

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16

Uddin, Ahmed Jalal, Atsushi Yamamoto, Yasuo Gotoh, Masanobu Nagura, and Mahito Iwata. "Preparation and Physical Properties of Regenerated Cellulose Fibres from Sugarcane Bagasse." Textile Research Journal 80, no. 17 (2010): 1846–58. http://dx.doi.org/10.1177/0040517510369408.

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17

Danso, Humphrey. "Properties of Coconut, Oil Palm and Bagasse Fibres: As Potential Building Materials." Procedia Engineering 200 (2017): 1–9. http://dx.doi.org/10.1016/j.proeng.2017.07.002.

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18

Jústiz-Smith, Nilza G., G. Junior Virgo, and Vernon E. Buchanan. "Potential of Jamaican banana, coconut coir and bagasse fibres as composite materials." Materials Characterization 59, no. 9 (2008): 1273–78. http://dx.doi.org/10.1016/j.matchar.2007.10.011.

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19

Moni Ribeiro Filho, Sérgio Luiz, Pablo Resende Oliveira, Tulio Hallak Panzera, and Fabrizio Scarpa. "Impact of hybrid composites based on rubber tyres particles and sugarcane bagasse fibres." Composites Part B: Engineering 159 (February 2019): 157–64. http://dx.doi.org/10.1016/j.compositesb.2018.09.054.

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20

Kivaisi, Amelia K., and S. Eliapenda. "Pretreatment of bagasse and coconut fibres for enhanced anaerobic degradation by rumen microorganisms." Renewable Energy 5, no. 5-8 (1994): 791–95. http://dx.doi.org/10.1016/0960-1481(94)90089-2.

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21

Martins, Eduardo da Silva, Rodrigo Simões Ribeiro Leite, Roberto da Silva, and Eleni Gomes. "Purification and Properties of Polygalacturonase Produced by Thermophilic Fungus Thermoascus aurantiacus CBMAI-756 on Solid-State Fermentation." Enzyme Research 2013 (September 12, 2013): 1–7. http://dx.doi.org/10.1155/2013/438645.

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Polygalacturonases are enzymes involved in the degradation of pectic substances, being extensively used in food industries, textile processing, degumming of plant rough fibres, and treatment of pectic wastewaters. Polygalacturonase (PG) production by thermophilic fungus Thermoascus aurantiacus on solid-state fermentation was carried out in culture media containing sugar cane bagasse and orange bagasse in proportions of 30% and 70% (w/w) at 45°C for 4 days. PG obtained was purified by gel filtration and ion-exchange chromatography. The highest activity was found between pH 4.5 and 5.5, and the
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22

Huerta-Cardoso, Omar, Isidro Durazo-Cardenas, Veronica Marchante-Rodriguez, Phil Longhurst, Frederic Coulon, and Adriana Encinas-Oropesa. "Up-cycling of agave tequilana bagasse-fibres: A study on the effect of fibre-surface treatments on interfacial bonding and mechanical properties." Results in Materials 8 (December 2020): 100158. http://dx.doi.org/10.1016/j.rinma.2020.100158.

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23

Vivek, S., and K. Kanthavel. "Effect of bagasse ash filled epoxy composites reinforced with hybrid plant fibres for mechanical and thermal properties." Composites Part B: Engineering 160 (March 2019): 170–76. http://dx.doi.org/10.1016/j.compositesb.2018.10.038.

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24

Matias, Maria de Fátima O., Edson Leandro de Oliveira, Eduardo Gertrudes, and Margarida Maria dos Anjos Magalhães. "Use of fibres obtained from the cashew (Anacardium ocidentale, L) and guava (Psidium guayava) fruits for enrichment of food products." Brazilian Archives of Biology and Technology 48, spe (2005): 143–50. http://dx.doi.org/10.1590/s1516-89132005000400018.

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With the purpose of using the cashew and guava dried bagasse for enrichment of cookies, a study of drying process was done. The physico- chemical characterization included the determination of pH, soluble solids, total acidity, protein, lipids, fiber, ash, moisture and total and reducing sugars. Total coli forms, yeasts and molds counting were the microbiological analyses conducted. Enriched cookies were prepared by adding 5, 10 and 15% (of total weight) of dry residues of cashew and guava. Appearance, color, odor, taste and texture were the sensorial attributes evaluated for the enriched and
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25

Yamamoto, Atsushi, Ahmed Jalal Uddin, Yasuo Gotoh, Masanobu Nagura, and Mahito Iwata. "Dry jet-wet spinning of bagasse/N-methylmorpholine-N-oxide hydrate solution and physical properties of lyocell fibres." Journal of Applied Polymer Science 119, no. 6 (2010): 3152–61. http://dx.doi.org/10.1002/app.33151.

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26

Pereira, P. H. F., H. J. C. Voorwald, M. O. H. Cioffi, et al. "Sugarcane bagasse cellulose fibres and their hydrous niobium phosphate composites: synthesis and characterization by XPS, XRD and SEM." Cellulose 21, no. 1 (2013): 641–52. http://dx.doi.org/10.1007/s10570-013-0113-2.

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27

Baba Ali, Jamila, Abdullahi Danladi, Musa Muhammad Bukhari, Zurina Binti Mohamad, Abubakar Bunza Musa, and Jamilu Usman. "MOPHORLOGICAL AND THERMAL STUDIES OF ISOLATED SAMMAZ-14 MAIZE COBS NANO FIBRE." Science Proceedings Series 2, no. 1 (2020): 87–91. http://dx.doi.org/10.31580/sps.v2i1.1328.

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The growing concerns about global warming and depleting petroleum reserves have made scientists/researchers focus more on the use of natural fibres such as Maize cob, bagasse, coir, sisal among others. About 180 kg of cobs are obtained from each ton of maize shelled which has little utilization or no utilization. This study utilizes maize cob from SAMMAZ-14 maize variety for the extraction of nano cellulose using Chemico-mechanical method. Alkaline hydrolysis was performed with 5% NaOH for 4hrs with MLR of 1:10. Ball milling was done for 5 hrs with BMR of 30:1. The extracted nanocellulose were
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28

Sounthararajan, V. M., K. Dilli bai, and C. M. Vivek Vardhan. "Effects on dual fibres to act as reinforcement in a composite matrix along with sugarcane bagasse ash in conventional concrete." Materials Today: Proceedings 27 (2020): 1247–51. http://dx.doi.org/10.1016/j.matpr.2020.02.149.

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29

Theodore, Tchotang, Carlos Mozer, Pondi Joseph, et al. "Extraction and Characterization of Bagasse Fibres from Sugar Cane (<i>Saccharum officinarum</i>) for Incorporation into a Mortar." Open Journal of Applied Sciences 10, no. 08 (2020): 521–33. http://dx.doi.org/10.4236/ojapps.2020.108036.

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30

Ren, Jun Li, Xin Wen Peng, Feng Peng, and Run Cang Sun. "The Preparation and Application of the Cationic Biopolymer Based on Xylan-Rich Hemicelluloses from Agricultural Biomass." Advanced Materials Research 239-242 (May 2011): 463–67. http://dx.doi.org/10.4028/www.scientific.net/amr.239-242.463.

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During the last few years increasing attention has been paid to the exploitation of hemicelluloses as biopolymer resources because they are available in very large amounts in organic wasters from renewable forest and agricultural biomass. The efficient method to prepare the cationic biopolymers based on xylan-rich hemicelluloses from agricultural biomass has been developed in this paper. These biopolymers with cationic functional groups, having many good properties such as solubility, bio-degradation, cationic or ampholytic polymers, were synthesized by the chemical modification of sugarcane b
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31

Anggono, Juliana, Suwandi Sugondo, Steven Henrico, and Hariyati Purwaningsih. "Effect of Alkali Treatment Using Calcium Hydroxide and the Fiber Length on the Strength of Sugarcane Bagasse Fibers-Polypropylene Composites." Applied Mechanics and Materials 815 (November 2015): 106–10. http://dx.doi.org/10.4028/www.scientific.net/amm.815.106.

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Milling sugarcanes to produce sugar generates by-product called bagasse. Due to the large availability and low cost, the potential of obtaining renewable and biodegradable fibers from bagasse had been explored. To produce fibers from these bagasse, the bagasse was treated in alkali solution using 14 % v/v calcium hydroxide, Ca (OH)2 at high temperature (60-70°C) for 4 hours. After treatment and washed to remove dissolved substances, the fibers were cut into 3 and 5 cm length. Some fibers were prepared in their original length. These fibers were mixed with polypropylene (PP) matrix in weight %
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H. Basta, Altaf, Houssni El-Saied, and Emad M. Deffallah. "Optimising the process for production of high performance bagasse-based composites from rice bran-UF adhesive system." Pigment & Resin Technology 43, no. 4 (2014): 212–18. http://dx.doi.org/10.1108/prt-08-2013-0077.

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Purpose – The purpose of this paper is to prepare high-performance agro-based composites from the non-toxic rice bran-urea-formaldehyde (RB-UF) adhesive system. Investigations have continued for production high performance agro-based composites using environmentally acceptable approaches. The utilisation of such system with the available used local agro-based wood products (sugar-cane bagasse, SCB) adds economic value and helps reducing the environmental impact of commercial urea-formaldehyde (UF) adhesive, and most importantly, provides a potentially inexpensive alternative to the existing co
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33

Scarpini Cândido, Verônica, and Sergio Neves Monteiro. "Tensile Behavior of Epoxy Composites Reinforced with Thinner Fibers of Sugarcane Bagasse." Materials Science Forum 869 (August 2016): 221–26. http://dx.doi.org/10.4028/www.scientific.net/msf.869.221.

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Surgarcane bagasse is an industrial waste partially used as fuel for sugar and ethanol processing boilers. A considerably amount of bagasse, however, is disposed into the environment without a practical use. Research works are investigating the possible application of the fibers of these bagasse waste as reinforcement of polymer composites. Thus, the aim of the present work was to evaluate the mechanical behavior of epoxy composites reinforced with different volume fractions, up to 30 %, of thinner sugarcane bagasse fibers. Specimens with aligned fibers were tensile tested at room temperature
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34

Candido, Verônica Scarpini, Michel Picanço Oliveira, Raissa de Almeida Gouvêa, Amanda Luiza Bezerra S. Martins, and Sergio Neves Monteiro. "Weibull Analysis to Characterize the Diameter Dependence of Tensile Strength in Sugarcane Bagasse Fibers." Materials Science Forum 775-776 (January 2014): 80–85. http://dx.doi.org/10.4028/www.scientific.net/msf.775-776.80.

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Fibers obtained from de sugarcane bagasse are being investigated as possible engineering materials. Their application as reinforcement of polymer composites is of interest due not only to environmental benefits associated with a waste recycling but also to their biodegradable and renewable characterisitics. Since it is known that many lignocellulosic fibers present a tensile strength inverse dependence with the diameter, this possibility was investigated on bagasse fibers. By means of the Weibull analysis, it was found that the thinner the bagasse fiber, the greater the strength. Fracture obse
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Wijaya, Patrik Permana Putra, and Juliana Anggono. "Evaluasi Pembuatan Prototype Package Tray Biokomposit Serat Tebu- Polypropylene untuk Kebutuhan Interior Mobil." Jurnal Teknik Mesin 17, no. 2 (2020): 42–47. http://dx.doi.org/10.9744/jtm.17.2.42-47.

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Natural fibers used in the fabrication of biocomposite product can support the need of the industries for lightweight yet strong material. Sugarcane bagasse is one of the available natural fibers in Indonesia. There have been some research done on these bagasse fibers as reinforcement materials for plastics and their incorporation to the matrix has improved its strength. This research aimed to evaluate the fabrication of a car package tray prototype. The composition and the bagasse were prepared in accordance with the previous research in which the bagasse were alkali treated using NaOH soluti
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E., Nurahman M., E. Pangestu, and F. Wahyono. "Degradabilitas Nutrien Bagasse Amofer Pada Domba Secara In Sacco." Jurnal Pengembangan Penyuluhan Pertanian 13, no. 24 (2016): 116. http://dx.doi.org/10.36626/jppp.v13i24.87.

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Penelitian dilakukan untuk mengetahui degradabilitas nutrien bahan kering, bahan organik dan neutral detergent fibre pada bagasse amofer dan bagasse tanpa amofer pada domba secara in sacco. Materi penelitian adalah dua ekor domba jantan berfistula, ransum standar, bagasse amofer dan bagasse tanpa amofer. Degradabilitas dilakukan menggunakan metode in sacco. Sampel dimasukan dalam kain nilon kemudian diinkubasikan pada 7 titik waktu (0, 3, 6, 12, 24, 48 dan 72 jam). Parameter yang diteliti adalah degradasi bahan kering (BK), bahan organik (BO) dan neutral detergent fibre (NDF) dihitung dengan p
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Hodzic, Alma, Richard Coakley, Ray Curro, Christopher C. Berndt, and Robert A. Shanks. "Design and Optimization of Biopolyester Bagasse Fiber Composites." Journal of Biobased Materials and Bioenergy 1, no. 1 (2007): 46–55. http://dx.doi.org/10.1166/jbmb.2007.005.

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Bagasse fiber, a by-product of the sugar making process, maintains a coherent xylem structure and can offer mechanical reinforcement to composite materials. Biopolyester bagasse composites were prepared with biodegradable matrices polyhydroxylbutyrate (PHB) and its copolymer containing polyhydroxyvalerate (PHBV). Both biopolymers were reinforced with treated and untreated bagasse fibers, as well as fiber volume fractions involving two fiber lengths. Optimized properties were achieved with PHB-bagasse composite surpassing the PHB flexural strength by 50% and achieving higher strength and modulu
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Suckley, Sawitree, Piyanuch Deenuch, Natchaya Disjareon, and Suttinun Phongtamrug. "Effects of Alkali Treatment and Fiber Content on the Properties of Bagasse Fiber-Reinforced Epoxy Composites." Key Engineering Materials 757 (October 2017): 40–45. http://dx.doi.org/10.4028/www.scientific.net/kem.757.40.

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In this research work, natural fiber reinforced composites of bagasse fiber-epoxy resin were prepared. The chemical treatments using sodium hydroxide (NaOH) at 1,3,5,7 wt% were carried out to modify the fiber properties. Thermogravimetric analysis (TGA) was used to study the thermal stability of treated and untreated fibers. The effects of fiber treatment and fiber contents on mechanical properties of bagasse-epoxy composite were investigated. The characteristics of bagasse-epoxy resin composites exposed to high temperature as well as water absorption behavior were determined. The results from
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Hatmoko, John Tri, and Hendra Suryadharma. "Perilaku Geser Tanah yang Distabilisasi dengan Abu Ampas Tebu-Semen dan Inklusi Serat Polyester." MEDIA KOMUNIKASI TEKNIK SIPIL 23, no. 2 (2017): 133. http://dx.doi.org/10.14710/mkts.v23i2.15975.

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Bagasse ash is a fine residue collected from the burning of bagasse in sugar factory, and it behaves as pozzolanic materials. In addition, engineering behaviour of bagasse ash can be improved by addition of cement containing high calcium. Recently, research about cement stabilized soil is continuously in progress. In this paper, a set of experiment programs were done to investigate the randomly oriented polyester fibre inclusion in bagasse ash-cement stabilized soil. Bagasse ash was mixed with clay in different proportions. To get the optimum curing period, it was done light compaction test of
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Siddique, Sheraz Hussain, Dr Saira Faisal, Bilal Zahid, and Chunhong Wang. "Tensile Properties of Bagasse Fiber Composites." July 2021 40, no. 3 (2021): 502–11. http://dx.doi.org/10.22581/muet1982.2103.05.

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Bagasse is a waste generated in abundance from the sugarcane industry. This investigation was planned to convert bagasse waste into a useful composite. For this purpose the bagasse waste was obtained from sugar cane juice producer. In this study, the extraction of bagasse fibers was done manually and they were treated with sodium hydroxide. The treated bagasse fibers had higher tensile properties as compared to untreated ones, so the alkali treated fibers were used as reinforcement for making composites. Hand lay-up technique was used to manufacture bagasse composite samples. The fiber length
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ANDRADE, MARCELA FREITAS, JORGE LUIZ COLODETTE, and HASAN JAMEEL. "Chemical and morphological characterization of sugar cane bagasse." June 2014 13, no. 6 (2014): 27–33. http://dx.doi.org/10.32964/tj13.6.27.

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The sugar cane industry in Brazil is expanding, leading to great interest in using the leftover bagasse for other uses, beyond burning it for its energy. A thorough physical and chemical characterization of bagasse, particularly regarding its lignin structure, is relevant for a more rational utilization of the bagasse in the production of printing and writing pulp grades, dissolving pulp, ethanol, and power. The main goals of this study were characterizing the chemical (pith and fibers fractions) and morphologic (fibers fraction) properties of the sugar cane bagasse and the structure of the de
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Ristianingsih, Yuli, Nelli Angreani, and Annisa Fitriani. "PENGARUH KOMPOSISI SEKAM PADI DAN AMPAS TEBU TERHADAP KARAKTERISTIK KERTAS DENGAN PROSES SODA." Konversi 3, no. 2 (2014): 15. http://dx.doi.org/10.20527/k.v3i2.160.

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Abstrak- Kertas adalah sesuatu yang sering digunakan dalam kehidupan sehari-hari terdiri dari serat selulosa dan hemiselulosa yang terdapat di alam. Salah satu limbah yang dapat diolah menjadi bahan baku alternatif pembuatan kertas adalah sekam padi dan ampas tebu. Tujuan dari penelitian ini adalah untuk mengetahui pengaruh komposisi sekam padi dan ampas tebu serta konsentrasi NaOH terhadap yield pulp yang dihasilkan. Kondisi operasi yang terbaik yang dihasilkan dari sekam padi dan serat ampas tebu oleh variasi konsentrasi NaOH juga diselidiki. Bahan baku kering dengan perbandingan liquor/crop
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43

Sefat, Khan Md, and Shinichi Shibata. "Effect of removing sucrose and moisture in bagasse fibers on improvement of limit of processing temperature in bagasse-polypropylene composites." BioResources 15, no. 3 (2020): 5481–88. http://dx.doi.org/10.15376/biores.15.3.5481-5488.

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This study focused on the increase of processing temperature of sugarcane bagasse fiber and polypropylene composites by removing sucrose and moisture in bagasse fibers. The relationship between the number of washing times and remaining sucrose in bagasse fiber were measured by high-performance liquid chromatography (HPLC). The analysis showed that original bagasse fibers, which had been obtained from a sugar cane mill, contained 4.0 wt% sucrose. To clarify the effect of the remaining sucrose and moisture on the limit of processing temperature in bagasse composites, the sucrose removed bagasse
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44

Allahdady, Maryam, Sahab Hedjazi, Mehdi Jonoobi, Ali Abdulkhani, and Loya Jamalirad. "The influence of bio-fibers from different pulping processes on the pulp-polylactic acid composites (PPCs) properties from sugarcane bagasse." Nordic Pulp & Paper Research Journal 34, no. 3 (2019): 239–49. http://dx.doi.org/10.1515/npprj-2019-0048.

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Abstract Pulp-polylactic acid composites (PPCs) with monoethanolamine, alkaline sulfite-anthraquinone, unbleached and bleached soda bagasse pulps and polylactic acid (PLA) were successfully fabricated using twin-screw extrusion. The results were compared with bagasse flour-PLA composites (WPCs) as reference. The results indicated that the mechanical strengths of produced composites with pulp fibers were increased compared to the neat PLA and bagasse flour-PLA composites. Monoethanolamine and alkaline sulfite-anthraquinone fibers due to their surface chemical structure had a superior compatibil
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Jiang, Wei, Liangfeng Sun, Ayou Hao, and Jonathan Yan Chen. "Regenerated cellulose fibers from waste bagasse using ionic liquid." Textile Research Journal 81, no. 18 (2011): 1949–58. http://dx.doi.org/10.1177/0040517511414974.

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Regenerated cellulose fibers from bagasse and wood were produced under various processing conditions using the ionic liquid 1-butyl-3-methylimidazolium chloride (BMIMCl) as a solvent. Two different ionic liquid solutions were prepared with 6 wt% of bagasse cellulose and 6 wt% of wood cellulose. The solutions were extruded with a dry-jet and wet-spinning method using water as a coagulation bath. A thermogravimetric analyzer (TGA) was used to measure the thermal properties of these regenerated fibers. Dynamic mechanical analysis (DMA) was used to determine the thermal mechanical property of the
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Martins, Amanda Luiza Bezerra Sandes, Raissa de Almeida Gouvêa, Michel Picanço Oliveira, Verônica Scarpini Cândido, and Sergio Neves Monteiro. "Characterization of Epoxy Matrix Composites Incorporated with Sugarcane Bagasse Fibers." Materials Science Forum 775-776 (January 2014): 102–6. http://dx.doi.org/10.4028/www.scientific.net/msf.775-776.102.

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Sugarcane bagasse is a typical waste generated in the production of sugarcane and ethanol. This agro-industrial waste is commonly used as fuel in the industry boiler for the steam and energy generation. However, part of the bagasse waste is disposed and may pollute the environment. The fibers extracted from the sugarcane bagasse have been considered as addition to polymeric composites. In the present work epoxy composites incorporated with 30% in volume of continuous sugarcane bagasse fibers were evaluated in terms of their mechanical properties. As compared to the neat epoxy, the bagasse fibe
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Lotfy, Vivian F., and Altaf H. Basta. "Electiveness of agro-pulping process in the sustainable production of black liquor-based activated carbons." Royal Society Open Science 6, no. 5 (2019): 190173. http://dx.doi.org/10.1098/rsos.190173.

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During the production of paper pulp, the waste water loaded with organic materials from pulping process is discharged. Therefore, water treatment should be performed before disposing of such effluent. The use of such effluent for production of activated carbon will be effective in omitting the wastewater treatment and in obtaining the product required in many industries. In this respect, this paper deals with evaluating the performance of activated carbons (ACs) produced from black liquors (BLs) as by-products from three pulping processes of rice straw (RS) and sugar-cane bagasse (SCB), namely
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Basta, Altaf H., Vivian F. Lotfy, and Philippe Trens. "Role of pulping process as synergistic treatment on performance of agro-based activated carbons." Royal Society Open Science 6, no. 7 (2019): 190579. http://dx.doi.org/10.1098/rsos.190579.

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To recommend the beneficial effect of the pulping process on enhancing agro-wastes as precursors for the production of high-performance activated carbons (ACs), different pulping methods (alkali, sulfite and neutral sulfite) were applied on two available Egyptian agriculture by-products (rice straw and sugar cane bagasse), using the one-step pyrolysis method and H 3 PO 4 activating agent. The adsorption performance of the different prepared ACs was evaluated in terms of Iodine Numbers and their sorption properties for removing the methylene blue (MB) from aqueous solutions. The corresponding s
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Tripathi, Pankaj, and Dheeraj Kumar. "Study on Mechanical Behaviour of Sugarcane Bagasse Fiber Reinforced Polymer Matrix Composites." SAMRIDDHI : A Journal of Physical Sciences, Engineering and Technology 8, no. 01 (2016): 34–42. http://dx.doi.org/10.18090/samriddhi.v8i1.11410.

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Availability in natural fibers and easy of manufacturing have tempted researchers to try locally available inexpensive fibers and to study their feasibility of reinforcement purposes and to extent they satisfy the required satisfied of good reinforced polymer composite for other applications. With minimum low cost and high specific mechanical properties, natural fiber represents a good renewable and biodegradable alternative to the most common synthetic reinforcement, i.e. glass fiber. In this study, a series of epoxy based composites reinforced with sugarcane bagasse waste fiber are fabricate
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Bilba, Ketty, Loïc Rodier, Cristel Onésippe, and Marie Ange Arsène. "Thermal and Mechanical Behaviors of Cementitious Composites Reinforced with Bagasse." Key Engineering Materials 668 (October 2015): 330–40. http://dx.doi.org/10.4028/www.scientific.net/kem.668.330.

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Worldwide, the purpose of enhancing sustainability, circular economy, use of by-products and renewable resources, has an increasing interest. Adding value to vegetable tropical resources is one of the challenges of COVACHIM-M2E laboratory. In this paper, sugar cane bagasse is evaluated both as mineral replacement and as reinforcement in cementitious matrices. In the modified matrix, cement is partly replaced by natural pozzolan and bagasse ashes, thus a ternary matrix is obtained. Composites materials are then elaborated by incorporation of bagasse fibers in this modified matrix (2 to 6 weight
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