Flotation Chemistry（《浮选化学》）是全英文教材，主要内容包含矿物加工工程专业学生必须掌握的浮选英文基本知识，以及英语写作与表达的基本技能。
浮选体系中，酸、碱等化学药剂的添加及矿物溶解等，使矿浆溶液中发生大量的化学反应，而这些化学反应在浮选过程中对浮选起到至关重要的作用。因此，本书在介绍浮选基本理论的基础上，详细介绍浮选化学基础，之后分别介绍天然可浮性矿物、硫化物矿物、不能溶解的氧化物和硅酸盐矿物、微溶盐和可溶解盐矿物的浮选化学。前言下方附二维码，供学生下载专业词汇，方便学习。
本书的主要特点是理论与实践相结合，包含从基础理论到实际应用的内容，可供矿物加工工程相关专业本科生及研究生，以及从事相关专业的工程技术人员参考使用。

Chapter 1 Introduction
1.1 Flotation
1.2 Flotation Application
1.3 Flotation Machines
1.4 Factors Affecting Flotation
1.5 Flotation Chemistry
Chapter 2 Flotation Theory
2.1 Theory of Surface Hydrophobicity
2.1.1 Contact angle
2.1.2 Free energy
2.2 Theory of Surface Charge
2.2.1 Electrical charge
2.2.2 Electrical double layer
2.3 Theory of Mineral Adsorption
2.3.1 The kind of adsorption
2.3.2 CMC’s implication to flotation
Chapter 3 Chemistry of Flotation Reagent
3.1 The Equilibration of Flotation Reagent in Solution
3.1.1 Acid-base theories
3.1.2 Balance equations for solution equilibria
3.1.3 pH value of solution of flotation reagent
3.1.4 Dissociation equilibrium of monobasic weak acid(base)
3.1.5 The diagram method of solution equilibria of reagent
3.2 Chemistry of Collector
3.2.1 Collectors and collector salts
3.2.2 Cationic collectors
3.2.3 Oxhydryl anionic collectors
3.2.4 Sulphydryl anionic collectors
Chapter 4 Chemistry of Mineral Solution
4.1 Solubility of Minerals in Pure Water
4.1.1 Solubility of sulfide minerals
4.1.2 Solubility of oxide minerals
4.1.3 Solubility of salt minerals
4.2 The Effect of Mineral Dissolution on Flotation
4.2.1 pH value of pulp and its buffering properties
4.2.2 Mineral solubility and floatability
4.2.3 Activation of mineral dissolved ions
4.2.4 Influence of mineral dissolved ions on collector action
4.3 Chemical Reactions and Surface Mutual Transformation of Mineral Dissolved
Ions in Mineral Surfaces
4.4 Logarithmic Concentration Diagram of Mineral Dissolved Components
Chapter 5 Flotation Chemistry of Naturally Hydrophobic Minerals
5.1 Flotation of Hydrophobic Minerals
5.1.1 Naturally hydrophobic minerals
5.1.2 Sulfides in oxygen-deficient systems
5.1.3 Flotation and depression of naturally hydrophobic minerals
5.2 Flotation Practice of Coal
5.2.1 Floatability of coal
5.2.2 Coal flotation
5.3 Flotation Practice of Molybdenite
5.3.1 Floatability of molybdenite
5.3.2 Molybdenite flotation
Chapter 6 Flotation Chemistry of Sulfide
6.1 General Considerations in Xanthate Adsorption
6.1.1 Oxygen-deficient system
6.1.2 Presence of oxygen
6.1.3 Electrochemical phenomena in sulfide systems
6.1.4 Effect of semiconductor property of sulphide mineral on xanthate adsorption
6.2 Flotation Chemistry of Galena
6.2.1 Galena flotation
6.2.2 Depression of galena flotation
6.3 Flotation Chemistry of Chalcocite
6.3.1 Chalcocite flotation
6.3.2 Depression of chalcocite flotation
6.4 Flotation Chemistry of Sphalerite
6.4.1 Sphalerite flotation
6.4.2 Activation
6.4.3 Prevention of activation
6.5 Flotation Chemistry of Pyrite
6.5.1 Pyrite flotation
6.5.2 Depression of pyrite flotation
6.6 Flotation Chemistry of Chalcopyrite
6.6.1 Chalcopyrite flotation
6.6.2 Depression of chalcopyrite flotation
6.7 Flotation Practice of Lead-Zinc Sulfide Ore
Chapter 7 Flotation Chemistry of Insoluble Oxide and Silicate
7.1 Flotation Chemistry of Physical Adsorption
7.1.1 Flotation by physical adsorption
7.1.2 Modulation of flotation
7.2 Flotation Chemistry of Chemisorption
7.2.1 Flotation by chemisorption
7.2.2 Modulation of flotation
7.3 Quartz Flotation
7.3.1 Quartz flotation by physical adsorption
7.3.2 Quartz flotation by chemisorption
Chapter 8 Flotation Chemistry of Semisoluble Salt
8.1 Flotation of Semisoluble Salt
8.1.1 Calcite and dolomite flotation
8.1.2 Apatite - collophane flotation
8.1.3 Fluorite flotation
8.1.4 Anglesite, cerussite and malachite flotation
8.2 Modifiers and Depressants
8.2.1 Inorganic modifiers and depressants
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