Interfacial Reactions between Coke/HDPE Blends and High Carbon Ferromanganese Slag
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概要
- 論文の詳細を見る
- 2013-01-15
著者
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Sahajwalla Veena
Centre For Sustainable Materials Research And Technology (smart@unsw) School Of Materials Science An
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Dankwah James
Centre For Sustainable Materials Research And Technology (smart@unsw) School Of Materials Science An
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Blagus Alexander
Centre for Sustainable Materials Research and Technology (SMaRT@UNSW), School of Materials Science and Engineering, the University of New South Wales
関連論文
- Influence of Mineral Matter on Carbon Dissolution from Metallurgical Coke into Molten Iron : Interfacial Phenomena
- Carbon/Slag Interactions between Coke/Rubber Blends and EAF Slag at 1550℃
- High-temperature Interactions of Alumina-Carbon Refractories with Molten Iron
- Carbon Dissolution Occurring during Graphite-Ferrosilicon Interactions at 1550℃
- Combustion of Agricultural Waste and Coke Blends during High Temperature Processes : Effect of Physical, Chemical and Surface Properties
- Reduction of FeO in EAF Steelmaking Slag by Metallurgical Coke and Waste Plastics Blends
- Structural Transformation of Agricultural Waste/Coke Blends and Their Implications during High Temperature Processes
- Chemical Interactions in Al2O3–C/Fe System at 1823 K: Implications for Refractory Recycling
- Recycling of end-of-life Melamine at 1600°C for Carbon Dissolution into Liquid Iron
- Recycling Waste Polymers in EAF Steelmaking : Influence of Polymer Composition on Carbon/Slag Interactions
- Recycling of end-of-life Melamine at 1600℃ for Carbon Dissolution into Liquid Iron
- SiC and Ferro-silicides Formation in Tuyere Cokes
- Carbothermic Reduction of Alumina at 1823K in the Presence of Molten Steel : a Sessile Drop Investigation
- Interfacial Reactions between Coke/HDPE Blends and High Carbon Ferromanganese Slag
- Chemical Interactions in Al_2O_3-C/Fe System at 1823K : Implications for Refractory Recycling
- SiC and Ferro-silicides Formation in Tuyere Cokes
- Interfacial Reactions between Coke/HDPE Blends and High Carbon Ferromanganese Slag
- Reduction Reactions in Al2O3–C–Fe and Al2O3–Fe2O3–C Systems at 1823 K