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材料手册 8 气体 液体 英文版2025|PDF|Epub|mobi|kindle电子书版本百度云盘下载
- FrancoisCardarelli著 著
- 出版社: 哈尔滨:哈尔滨工业大学出版社
- ISBN:9787560344546
- 出版时间:2014
- 标注页数:1180页
- 文件大小:41MB
- 文件页数:158页
- 主题词:材料科学-技术手册-英文;气体-技术手册-英文;液体-技术手册-英文
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图书目录
Introduction13
19 Gases1037
19.1 Properties of Gases1037
19.1.1 Pressure1037
19.1.2 The Boyle-Mariotte Law1039
19.1.3 Charles and Gay-Lussac's Law1040
19.1.4 The Avogadro-Ampere Law1040
19.1.5 Normal and Standard Conditions1040
19.1.6 Equation of State of Ideal Gases1041
19.1.7 Dalton's Law of Partial Pressure1041
19.1.8 Equations of State of Real Gases1042
19.1.8.1 Van der Waals Equation of State1042
19.1.8.2 Virial Equation of State1043
19.1.9 Density and Specific Gravity of Gases1044
19.1.10 Barometric Equation1045
19.1.11 Isobaric Coefficient of Cubic Expansion1046
19.1.12 Compressibility Factor1046
19.1.13 Isotherms of Real Gases and Critical Constants1046
19.1.14 Critical Parameters1047
19.1.15 The Principle of Corresponding States1048
19.1.16 Microscopic Properties of Gas Molecules1048
19.1.17 Molar and Specific Heat Capacities1049
19.1.18 Dynamic and Kinematic Viscosities1049
19.1.19 Solubility of Gases in Liquids1050
19.1.20 Gas Permeability of Polymers1051
19.1.21 Dielectric Properties of Gases,Permittivity and Breakdown Voltage1052
19.1.22 Psychrometryand Hygrometry1054
19.1.23 Vapor Pressure1054
19.1.23.1 Absolute Humidity or Humidity Ratio1054
19.1.23.2 Mass Fraction of Water Vapor or Specific Humidity1056
19.1.23.3 Relative Humidity1056
19.1.23.4 Humid Heat1056
19.1.23.5 Humid or Specific Volume1056
19.1.23.6 Dry-Bulb Temperature1057
19.1.23.7 Wet-Bulb Temperature1057
19.1.23.8 Wet-Bulb Depression1057
19.1.23.9 Dew Point Temperature1057
19.1.23.10 Specific Enthalpy1057
19.1.23.11 Latent Heat of Fusion1057
19.1.23.12 Latent Heat of Vaporization1058
19.1.23.13 RefractivityofMoist Air1058
19.1.23.14 Psychrometric Charts1058
19.1.23.15 Psychrometric Equations1058
19.1.24 Flammability of Gases and Vapors1062
19.1.24.1 Flammability Limits1062
19.1.24.2 Explosive Limits1062
19.1.24.3 Autoignition Temperature1063
19.1.24.4 Ignition Energy1063
19.1.24.5 Maximum Explosion Pressure1063
19.1.24.6 Maximum Rate of Pressure Rise1063
19.1.24.7 High and Low Heating Values1063
19.1.25 Toxicity of Gases and Threshold Limit Averages1064
19.2 Physico-Chemical Properties of Major Gases1064
19.3 Monographies on Major Industrial Gases1074
19.3.1 Air1074
19.3.2 Nitrogen1075
19.3.3 Oxygen1076
19.3.4 Hydrogen1078
19.3.5 Methane1086
19.3.6 Carbon Monoxide1087
19.3.7 Carbon Dioxide1089
19.3.8 Helium and Noble Gases1090
19.3.8.1 Neon1091
19.3.8.2 Argon1092
19.3.8.3 Krypton1092
19.3.8.4 Xenon1092
19.3.8.5 Radon1092
19.4 Halocarbons1093
19.5 Hydrates of Gases and Clathrates1094
19.6 Materials for Drying and Purifying Gases1095
19.6.1 Drying Agents and Dessicants1095
19.6.2 Molecular Sieves1095
19.6.3 Getters and Scavengers1099
19.7 Producers and Manufacturers of Major Industrial Gases1100
19.8 Further Reading1101
20 Liquids1103
20.1 Properties of Liquids1103
20.1.1 Density and Specific Gravity1103
20.1.2 Hydrometer Scales1104
20.1.3 Dynamic and Kinematic Viscosities1104
20.1.3.1 Shear Stress1105
20.1.3.2 Shear Rate1105
20.1.3.3 Absolute or Dynamic Viscosity1105
20.1.3.4 Kinematic Viscosity1105
20.1.3.5 Temperature Dependence of the Dynamic Viscosity1106
20.1.4 Classification of Fluids1106
20.1.5 The Hagen-Poiseuille Equation and Pressure Losses1106
20.1.5.1 Pressure Drop1106
20.1.5.2 Friction Losses1106
20.1.6 Sedimentation and Free settling1109
20.1.7 Vapor Pressure1110
20.1.8 Surface Tension,Wetting and Capillarity1110
20.1.8.1 Surface Tension1110
20.1.8.2 Temperature Dependence and Order of Magnitude of Surface Tension1112
20.1.8.3 Parachor and Walden's Rule1113
20.1.8.4 Wetting1113
20.1.8.5 Contact Angle1113
20.1.8.6 Young's Equation1113
20.1.8.7 Work of Cohesion,Work of Adhesion and Spreading Coefficient1114
20.1.8.8 Two Liquids and a Solid1115
20.1.8.9 Antonoffs Rule1116
20.1.8.10 Capillarity and the Young-Laplace Equation1116
20.1.8.11 Jurin's Law1116
20.1.8.12 Measurements of Surface Tension1117
20.1.9 Colligative Properties of Nonvolatile Solutes1118
20.1.9.1 Raoult's Law for Boiling Point Elevation1118
20.1.9.2 Raoult's Law and Freezing Point Depression1119
20.1.9.3 Van't Hoff Law for Osmotic Pressure1120
20.1.10 Flammability of Liquids1121
20.2 Properties of Most Common Liquids1121
20.3 Monographies on Liquids1121
20.3.1 Properties of Water and Heavy Water1121
20.3.2 Properties of Liquid Acids and Bases1168
20.3.3 Properties of Heavy Liquids(Heavy Media)1171
20.3.3.1 Dense Halogenated Organic Solvents1171
20.3.3.2 Dense Aqueous Solutions of Inorganic Salts1172
20.3.3.3 Low Temperature of Molten Inorganic Salts1174
20.3.3.4 Dense Emulsions and Suspensions1174
20.3.3.5 Paramagnetic Liquid Oxygen1175
20.4 Properties of Liquid Metals1175
20.5 Properties of Molten Salts1177
20.6 Properties of Heat Transfer Fluids1178
20.7 Colloidal and Dispersed Systems1180
20.8 Further Reading1180
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