《非常規(guī)冶金新技術(shù)(英文版)》通過精選作者彭金輝�、張利波、夏洪應(yīng)���、巨少華�����、陳菓等研究團(tuán)隊(duì)已發(fā)表的高質(zhì)量英文論文��,全面介紹了非常規(guī)冶金的新技術(shù)���,全書共分四部分����,分別為微波冶金新技術(shù)�����、微波新技術(shù)在材料和化工領(lǐng)域的應(yīng)用�、超聲冶金新技術(shù)、微流體新技術(shù)����。
《非常規(guī)冶金新技術(shù)(英文版)》適合冶金專業(yè)的本科生和研究生閱讀,也適合從事冶金技術(shù)研究的科研人員閱讀參考���。
Chapter Ⅰ New Technology of Microwave Metallurgy
Microwave Sensor for Measuring the Properties of a Liquid Drop
A New Equation for the Description of Dielectric Losses under Microwave Irradiation
Microwave Absorbing Properties of High Titanium Slag
Microwave Cavity Perturbation Technique for Measuring the Moisture Content of Sulphide Minerals Concentrates
Effect of Temperature on Dielectric Property and Microwave Heating Behavior of Low Grade Panzhihua Ilmenite Ore
Dielectric Properties and Temperature Increase Characteristics of Zinc Oxide Dust from a Fuming Furnace
Temperature and Moisture Dependence of the Dielectric Property of Silica Sand
Dielectric Properties and Optimization of Parameters for Microwave Drying of Petroleum Coke Using Response Surface Methodology
Dimension Optimization for Silica Sand Based on the Analysis of Dynamic Absorption Efficiency in Microwave Drying
Optimization of Processing Parameters for Microwave Drying of Selenium—rich Slag Using
Incremental Improved Back—propagation Neural Network and Response Surface Methodology
Dielectric Properties and Microwave Heating Characteristics of Sodium Chloride at 2.45 GHz
Preparation of Reduced Iron Powders from Mill Scale with Microwave Heating:Optimization Using Response Surface Methodology
Carbothermal Reduction of Low——grade Pyrolusite by Microwave Heating
Pilot——scale Production of Titanium——rich Material Using Ilmenite Concentrates as Raw Materials by Microwave Reduction
Optimization of Preparation for C03 04 by Calcination from Cobalt Oxalate Using Response Surface Methodology
Prediction Model of Ammonium Uranyl Carbonate Calcination by Microwave Heating Using Incremental Improved Back——Propagation Neural Network
Investigation on Phase Transformation of Titania Slag Using Microwave Irradiation
Leaching of Palladium and Rhodium from Spent Automobile Catalysts by Microwave Roasting
Leaching Zinc from Spent Catalyst:Process Optimization Using Response Surface Methodology
Green Evaluation of Microwave——assisted Leaching Process of High Titanium Slag on Life Cycle Assessment
Removing Chlorine of CuCl Residue from Zinc Hydrometallurgy by Microwave Roasting
Dechlorination of Zinc Dross by Microwave Roasting
Removal of Fluorides and Chlorides from Zinc Oxide Fumes by Microwave Sulfating Roasting
An External Cloak with Arbitrary Cross Section Based on Complementary Medium and Coordinate Transformation
An Efficient 2一D FDTD Method for Analysis of Parallel—Plate Dielectric Resonators
Efficient Analys is of Ridged Cavity by Modal FDTD Method
Parallel Algorithm for the Effective Electromagnetic Properties of Heterogeneous Materials on 3D RC Network MOdel
Chapter Ⅱ New Technology of Microwave Applications in Material and Chemical Engineering
Microwave Plasma Sintering of Nanocrystalline Alumina
Influences of Temperatures on Tungsten Copper Alloy Prepared by Microwave Sintering
Application of Response Surface Methodology(RSM)for Optimization of the Sintering Process of Preparation Calcia Partially Stabilized Zirconia(CaO—PSZ)Using Natural Baddeleyite
Microwave Initiated Self—Propagating High——Temperature Synthesis of SiC
Microwave Ignited Combustion Synthesis of Aluminium Nitride
Microwave Initiated Self—Propagating High Temperature Synthesis of Materials:A Review
……
Chapter Ⅲ New Technology of Ultrasonic Metallurgy
Chapter Ⅳ New Technology of Microfluidic
About the Laboratory
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