"Model for Predictive Analysis of the Quantity of Water Evaporated during the Primary-Stage Processing of Bioceramic Material Sourced from Kaolin"
written by C. I. Nwoye, K. Okeke, M. C. Obi, U. Nwanyanwu, G. C. Obasi, O. O. Onyemaobi,
published by Journal of Minerals and Materials Characterization and Engineering, Vol.9 No.2, 2010
has been cited by the following article(s):
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[9] Model for the Assessment and Computational Analysis of the Shrinkage Sustained in Kaolin Based Thermoprocessed Bioceramic Materials Relative to the …
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[10] Models for Comparative Analysis, Assessment and Adoption of Preferred Experimental Techniques
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[11] Effect of Water-Steam Transition Temperature on the Evaporation of Water and Shrinkage of Clay during Oven Drying of Clays
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[12] Determination of Average Grain Sizes and Water Evaporation Rates of Some Nigeria Clays at Oven Drying Temperature
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[13] Model for Mathematical Analysis and Predicting the Shrinkage-Induced Final Length of Fired Clay Products
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[14] Model for Computational and Predictive Analysis of Dried Length during Initial Air-Drying of Wet Clay Products
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[15] Model for the Assessment and Computational Analysis of the Shrinkage Sustained in Kaolin Based Thermoprocessed Bioceramic Materials Relative to the Resultant Bulk Density
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[16] Process Data Analytical Method for Comparative Assessment and Determination of Limits of Viability of Various Experimental Techniques Applied
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[17] Model for Predictive Analysis of the Shrinkage Sustained in Fired Clay Materials Relative to the Resultant Fired Bulk Density
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[18] Model for Predictive Analysis of the Quantity of Water Evaporated during Initial Stage Drying of Wet Clay Designated for Production of Oven Refractory
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[19] Model for Computational Analysis of Water Absorption In Clay Materials Exposed To Hot-Humid Environment
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[20] Model for Prediction of the Quantity of Absorbed Water In Clay Materials Exposed To Hot-Humid Environment
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[21] Model for Calculating the Quantity of Water Evaporated during the Primary-Stage Processing of Bioceramic Material Sourced from Kaolin
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[22] Model for Evaluating Essential Volume Parameters During Drying of Wet Clay
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[23] Model for Predicting the Quantity of Water Evaporated during Initial Stage Drying of Wet Clay Designated for Production of Bricks
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