Synergistically Reinforced Copper-Free Friction Materials with Agricultural Wastes and Carbon Fibers: Evaluation of Tribological Performance. [PDF]
Tian Y, Huang K, Xu Z, Zhuansun Y, Ma Y.
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Correction to "Optimizing the Conditions of Pretreatment and Enzymatic Hydrolysis of Sugarcane Bagasse for Bioethanol Production". [PDF]
Ruan L +5 more
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Mechanistic Insights into Pancreatic Lipase Inhibition by Sugarcane Polyphenols: A Structural and Kinetic Study. [PDF]
Liu Q, Wang PP, Fu X, Chen C.
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Effect of Sugarcane Bagasse-Derived Cellulose Nanocrystals on the Thermal, Structural, Morphological and Biodegradation Properties of Poly(ε-caprolactone) and Poly(lactic Acid). [PDF]
Ngwenya M, Gumede TP, Motloung B.
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Innovative use of biowaste based cementitious grouts for semi-flexible pavement application and optimization using response surface methodology. [PDF]
Khan MI.
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Mechanical properties analysis of geopolymer concrete based on the sugarcane bagasse ash using machine learning. [PDF]
Pratap B +6 more
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Biowastes as Reinforcements for Sustainable PLA-Biobased Composites Designed for 3D Printing Applications: Structure-Rheology-Process-Properties Relationships. [PDF]
Ait Balla M +3 more
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Raw bagasse or sugar cane cellulosic residues were modified using acylation grafting with fatty acid. The capability of the grafted bagasse to absorb oil from aqueous solution was studied and compared with the raw bagasse. It was found that the grafted material was significantly more hydrophobic than the raw bagasse.
Abd El-Aziz A Said
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