Swelling and softening behavior of iron ore-spent mushroom substrate composite pellets during carbothermal reduction
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[1] Hao-Hsun Chang,et al. Spent Mushroom Substrate and Electric Arc Furnace Dust Recycling by Carbothermic Reduction Method , 2022, Materials.
[2] L. Pierella,et al. Towards biowastes valorization: Peanut shell as resource for quality chemicals and activated biochar production , 2021, Sustainable Environment Research.
[3] M. Hidayat,et al. Reduction Reactivity of Low Grade Iron Ore-Biomass Pellets for a Sustainable Ironmaking Process , 2021, Energies.
[4] Shih-Hsien Liu,et al. Effect of Heating Rate on Carbothermic Reduction and Melting Behavior of Iron Ore-Coal Composite Pellets , 2021, ISIJ International.
[5] Wei Song,et al. Effect of K and Na on reduction swelling performance of oxidized roasted briquettes , 2021 .
[6] Yuan Luo,et al. Efficient Removal of Cu(II), Zn(II), and Cd(II) from Aqueous Solutions by a Mineral-Rich Biochar Derived from a Spent Mushroom (Agaricus bisporus) Substrate , 2020, Materials.
[7] Chiu-Yeh Wu,et al. Evaluation of Using Spent Mushroom Sawdust Wastes for Cultivation of Auricularia polytricha , 2020, Agronomy.
[8] T. Murakami,et al. Morphology Change and Carburization Characteristic of Iron Ore-Coal Composite During Reduction under a Simulated Condition of Blast Furnace , 2019, ISIJ International.
[9] Dezheng Liu,et al. Numerical Investigations on Residual Stress in Laser Penetration Welding Process of Ultrafine-Grained Steel , 2018, Advances in Materials Science and Engineering.
[10] S. K. Mohapatra,et al. Alkali Leaching of Indian Coal for Ash Reduction , 2018 .
[11] R. Srinidhi,et al. Characterisation studies on swelling behaviour of iron ore pellets , 2018 .
[12] Takayuki Takahashi,et al. Development of Manufacturing Principle of Porous Iron by Carbothermic Reduction of Composite of Hematite and Biomass Char , 2017 .
[13] Lingling Zhang,et al. Current status and potential of biomass utilization in ferrous metallurgical industry , 2017 .
[14] Qinghui Li,et al. Chemical Analyses of Potash–Lime Silicate Glass Artifacts from the Warring States Period in China , 2015 .
[15] Bo Björkman,et al. Composite Pellets – A Potential Raw Material for Iron‐Making , 2014 .
[16] K. Benyounis,et al. Laser Micromachining for Transparent Materials , 2014 .
[17] A. Olabi,et al. Properties of Glass Materials , 2014 .
[18] S. Vassilev,et al. An overview of the organic and inorganic phase composition of biomass , 2012 .
[19] H. Sohn,et al. Effect of CaO and SiO2 on swelling and iron whisker formation during reduction of iron oxide compact , 2011 .
[20] Terry Norgate,et al. Environmental and Economic Aspects of Charcoal Use in Steelmaking , 2009 .
[21] S. Halder,et al. Reduction of Iron-Oxide-Carbon Composites: Part II. Rates of Reduction of Composite Pellets in a Rotary Hearth Furnace Simulator , 2008 .
[22] Michitaka Sato,et al. Optimization of Ironmaking Process for Reducing CO2 Emissions in the Integrated Steel Works , 2006 .
[23] J. Capocchi,et al. Reduction-Swelling Behaviour of Pellets Bearing Iron Ore and Charcoal , 1998 .
[24] A. A. Omar,et al. Carbon Monoxide Reduction and Accompanying Swelling of Iron Oxide Compacts , 1996 .
[25] L. C. Jonghe,et al. Whisker growth in reduction of oxides , 1984 .
[26] J. S. Foster,et al. Structural Changes Occurring during Reduction of Hematite and Magnetite Pellets Containing Coal Char , 1983 .
[27] R. Nicolle,et al. The mechanism of whisker growth in the reduction of wüstite , 1979 .
[28] F. Frazer,et al. The relationship between basicity and swelling on reduction of iron-ore pellets , 1975 .
[29] S. Ban-ya,et al. Swelling of Iron Ore Pellets During Reduction , 1969 .