Mechanism and Experimental Research on Improvement in Conductive Performances of ZnO Coated Tourmaline Powder

Xiao Hui Zhang; Rui Hua Wu

doi:10.4028/www.scientific.net/AMR.750-752.2108

Paper Titles

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Electrochemical Impedance Spectroscopy Study of Nano-Materials Modified Fluorocarbon Coating of Metal Surface
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Synthesis of Carbon Nanocoatings on YG8 Hardmetal Substrates in Oxygen-Acetylene Flame
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Investigating the Application of Nanoscale Bilayers Assembly on Stainless Steel Plate to Evaporation Behavior
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Mechanism and Experimental Research on Improvement in Conductive Performances of ZnO Coated Tourmaline Powder
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Microstructure and Wear Resistance of ZrC Reinforced Metal Matrix Composite Coating by Gas Tungsten Arc Cladding
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Effect of N₂ Flow on Microstructure, Mechanical Properties and Oxidation Resistance of CrN_x Coatings
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Preparation of Ceramic Surface Hydrophobic Coating by Sol-Gel Method
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Effect of MgO Coating on Whisker Preform Strength of Aluminum Matrix Composite Fabricated by Squeeze Casting
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 750-752Mechanism and Experimental Research on Improvement...

Mechanism and Experimental Research on Improvement in Conductive Performances of ZnO Coated Tourmaline Powder

Abstract:

The heterogeneous conglomeration method, chemical precipitation method and Hydroxy combination theory are adopted in the paper through detailed theoretical analysis and contrast experiments. Tourmaline powder surface is completely covered with ZnO by 1.2:1 mass ratio of ZnO to tourmaline powder. Submicron-nanometer powder is achieved due to 78.71 mean particle diameter, the electrical resistivity of composite powder is decreased to 7.45Ω.cm. Improvement of conductive performance extends the application of tourmaline in the field of environmental purification.