1.1 重量法和滴定法(Gravimetry and Titrimetry) 1
1.1.1 重量法(Gravimetry) 1
目录 1
1 主要分析技术的基础理论与基本知识(Basic Theory and Elementary Knowledge for Main Analytical Technology) 1
1.1.2 滴定法(Titrimetry) 2
1.2 吸光光度法(Spectrophotometry) 11
1.2.1 紫外与可见光吸收光谱的形成(Formation of Ultra-Violet and Visible Absorption Spectrum) 12
1.2.2 吸光光度法的基本原理及摩尔吸收系数(Principal of Spectrophotometry and Molar Absorption Coefficient) 13
1.2.4 应用吸光光度法测定配合物的组成(Estimation of the Composition of Complex by Spectrophotometry) 14
1.2.3 导致偏离朗伯-比尔定律的因素(The Factors which Lead to the Departure of Lambert-Beer's Law) 14
1.2.5 提高吸光光度法灵敏度和选择性的某些途径(Some Methods for Increasing the Sensitivity and Selectivity of Spectrophotometry) 17
1.3.2 极谱分析法(Polarography) 22
1.3.1 电重量分析(Electrogravimetry) 22
1.3 电分析化学法(Electroanalytical Chemistry) 22
1.3.3 溶出伏安法(Voltammetry) 27
1.3.4 离子选择电极法(Ion Selective Electrode) 28
1.4.1 原子吸收光谱的理论基础(Theoretical Foundation of Atomic Absorption Spectrometry) 30
1.4 原子吸收与原子荧光光谱法(Atomic Absorption and Fluorescence Spectrometry) 30
1.4.2 原子化过程(Atomization Process) 31
1.4.3 火焰(Flame) 32
1.4.4 仪器装置(Apparatus) 33
1.4.6 干扰及消除(Interferences and Their Elimination) 36
1.4.5 原子吸收光谱仪的类型(Types of Atomic Absorption Spectrometer) 36
1.4.8 测量方式(Measuring Modes) 37
1.4.7 仪器工作条件的选择(Selection of Work Condition) 37
1.4.9 鉴定仪器的几项指标(Several Indexes for Instrument Checkup) 38
1.4.10 原子吸收光谱仪的使用与维护(Operation and Maintanace of Atomuc Absorption Spectrometer) 39
1.4.11 原子吸收光谱法中的几种特殊技术(Some Special Techniques for AAS) 40
1.4.12 原子荧光光谱法(Atomic Fluorenscence Spectrometry) 43
1.5.2 原子发射光谱的产生(Generation of Atomic Emission Spectrum) 46
1.5.1 概述(Introduction) 46
1.5 原子发射光谱法(Atomic Emission Spectrometry) 46
1.5.3 仪器(Instrument) 47
1.5.4 定性及半定量分析(Qualitative and Semi-Quantitative Analysis) 57
9.4 三氧化二锑(Antimonous Oxide) 72
1.5.5 定量分析(Quantitative Analysis) 73
1.6.1 电感耦合等离子体(Inductively Coupled Plasma Source) 76
1.6 ICP光谱法和ICP质谱法(ICP-AES and ICP-MS) 76
1.6.2 ICP-AES与ICP MS共用的仪器设备(Instrumentation for Both ICP-AES and ICP-MS) 79
1.6.3 ICP光谱法(Inductively Coupled Plasma Spectrometry) 84
1.6.4 ICP质谱法(Inductively Coupled Plasma Mass Spectrometry) 92
1.6.5 ICP-MS与ICP-AES、AAS方法的比较(Comparision of ICP-MS with ICP-AES and AAS) 103
1.7.1 X射线光谱(X-Ray Spectrum) 107
1.7 X射线荧光光谱法(X-Ray Fluorescence Spectrometry) 107
1.7.3 XRF光谱仪和探测器(XRF Spectrometer and Detector) 109
1.7.2 X射线的吸收与散(Absorption and Scattering of X-Ray) 109
1.7.4 XRF分析中的基体效应及其校正(Matrix Effect and Calibration in XRF Analysis) 113
1.7.5 XRF定量分析方法(XRF Methods for Quantitative Analysis) 114
1.7.6 样品制备(Sample Preparation) 115
1.7.7 XRF仪发展展望(The Prospect of XRF Spectrometer) 117
1.8.1 流动注射分析的基本原理和主要特点(Principles and Main Features of Flow Injection Analysis) 118
1.8 流动注射分析(Flow Injection Analysis) 118
1.8.3 流动注射分析中常用的技术(Common Techniques in FIA) 119
1.8.2 FIA仪器装置及组件(Instrument Set and Parts of FIA) 119
1.8.4 建立FIA方法的基本过程(Essential Procedures for Establishment of FIA Method) 120
1.9.1 简介(Brief Introduction) 121
1.9 色谱法(Chromatography) 121
1.9.2 色谱仪器(Chromatography Instrument) 123
1.9.3 色谱法的分离理论(Separation Theory for Chromatography) 124
1.9.4 定性及定量方法(Methods for Qualitative and Quantitative Analysis) 125
1.10.1 分析化学的信息化与化学计量学(Informatization of Analytical Chemistry and Chemometrics) 126
1.10 化学计量学(Chemometrics) 126
1.10.2 分析化学的信息理论基础(Information Theory Foundation for Analytical Chemistry) 128
1.10.3 分析采样理论与方法(Sampling Theory and Method in Analytical Chemistry) 130
1.10.4 试验设计与优化方法(Experiment Design and Optimization Method) 131
1.10.5 分析信号处理(Signal Processing in Analytical Chemistry) 133
1.10.6 多元校正与多元分辨(Multi-Component Calibration and Resolution) 136
1.11.1 分析误差(Analytical Errors) 138
1.11 测量误差和不确定度(Errors and Uncertainty in Measurement) 138
1.11.2 分析数据处理(Analytical Data Processing) 141
1.11.3 能力验证(实验室比对)的统计分析(Statistic Analysis for Proficiency Testing/Laboratory Comparison) 145
1.11.4 测量不确定度(Uncertainty in Measurement) 147
1.11.5 标准不确定度的评定(Evaluating Standard Uncertainty) 149
2.1.1 碘量法(Iodometry) 155
2 矿石中常见元素的测定(Determination of Common Elements in Minerals) 155
2.1 铜的测定(Determination of Copper) 155
2.1.2 快速碘量法(Rapid Iodometry) 156
2.1.3 铜试剂吸光光度法(Cupral Spectrophotometry) 157
2.1.4 双环己酮草酰二腙吸光光度法(Bis(cyclohexanone)Oxalydihydrazone Spectrophotometry) 158
2.1.6 乙二胺底液极谱法(Polarography with Ethylenediamine Supporting Electrolyte) 159
2.1.5 氨水-氯化铵底液极谱法(Polarography with Ammonia-Ammonium Chloride Supporting Electrolyte) 159
2.2.1 EDTA滴定法(EDTA Titration) 160
2.1.7 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 160
2.2 铅的测定(Determination of Lead) 160
2.2.3 示波极谱法(Oscillopolarography) 163
2.2.2 乙酸钠底液极谱法(铅、锌连续测定)(Determination of Lead and Zinc by Polarography with Sodium Acetate Supporting Electrolyte) 163
2.2.4 催化示波极谱法(Catalytic Oscillopolarography) 164
2.2.6 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 165
2.2.5 邻苯三酚红吸光光度法(Pyrogallol Red Spectrophotometry) 165
2.3.1 EDTA滴定法(EDTA Titration) 166
2.3 锌的测定(Determination of Zinc) 166
2.3.3 乙酸-乙酸铵-硫氰酸钠底液极谱法(Polarography with Acetic Acid-Ammonium Acetate-Sodium Thiocyanate Supporting Electrolyte) 167
2.3.2 氨性底液极谱法(Polarography with Ammonia-Ammonium Chloride Supporting Electrolyte) 167
2.3.4 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 168
2.4.1 丁二酮肟沉淀分离EDTA滴定法(EDTA Titration after Separa tion with Dimethylglyoxime Precipitation) 169
2.4 镍的测定(Determination of Nickel) 169
2.4.3 丁二酮肟吸光光度法(Dimethylglyoxime Spectrophotometry) 170
2.4.2 EDTA直接滴定法(EDTA Titration without Separation) 170
2.4.5 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 171
2.4.4 三氯甲烷萃取分离丁二酮肟吸光光度法(Dimethylglyoxime Spectrophotometry after Chloroform Extraction) 171
2.5.1 碘量法(Iodometry) 172
2.5 钴的测定(Determination of Cobalt) 172
2.5.2 亚硝基-R盐吸光光度法(Nitroso-R Salt Spectrophotometry) 173
2.5.3 1-亚硝基-2-萘酚吸光光度法(1-Nitroso-2-naphthol Spectrophotometry) 174
2.5.4 二安替比林甲烷吸光光度法(Diantipyrylmethane Spectrophotometry) 175
2.5.5 5-Cl-PADAB吸光光度法(5-Cl-PADAB Spectrophotometry) 176
2.6.1 铝片还原碘量法(Iodometric Titration after Alumium Reduction) 177
2.5.6 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 177
2.6 锡的测定(Determination of Tin) 177
2.6.2 苯基荧光酮-CTAB吸光光度法(Phenyl Fluorone-Cetyl Trimethylamonium Bromide Spectrophotometry) 179
2.6.3 邻苯二酚紫-CTAB吸光光度法(Pyrocatechol Violet-Cetyl Trimethylamonium Bromide Spectrophotometry) 180
2.6.4 盐酸-氯化铵底液极谱(Polarography with Hydrochloric Acid-Ammonium Chloride Supporting Electrolyte) 182
2.6.5 催化示波极谱法(Catalytic Oscillopolarography) 183
2.7.1 EDTA滴定法(EDTA Titration) 184
2.7 铋的测定(Determination of Bismuth) 184
2.7.2 硫脲吸光光度法(Thiourea Spectrophotometry) 185
2.7.4 乙酸-乙酸铵底液极谱法(Polarography with Acetic Acid-Ammonium Acetate Supporting Electrolyte) 186
2.7.3 硫脲-碘化钾-马钱子碱吸光光度法(Thiourea-potassium Iodate-brucine Spectrophotometry after Extraction) 186
2.7.6 氢化物发生-原子荧光光谱法(Hydride Generation-Atomic Fluorescence Spectrometry) 187
2.7.5 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 187
2.8.1 氨水-氯化铵底液极谱法(Polarography with Ammonia-Ammonium Chloride Supporting Electrolyte) 188
2.8 镉的测定(Determination of Cadmium) 188
2.9.1 硫酸铈滴定法(Ceric Sulfate Titration) 189
2.8.2 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 189
2.9 锑的测定(Determination of Antimony) 189
2.9.2 孔雀绿吸光光度法(Malachite Green Spectrophotometry) 190
2.9.3 5-Br-PADAP吸光光度法(2-[(5-Bromo-2-pyridyl)azo]-5-(diethylamino)phenol Spectrophotometry) 191
2.9.5 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 192
2.9.4 盐酸-硫酸底液极谱法(Polarography with Hydrochloric Acid-Sulfuric Acid Supporting Electrolyte) 192
2.10.1 硫氰酸盐滴定法(Thiocyanometry) 193
2.10 汞的测定(Determination of Mercury) 193
2.10.2 双硫腙吸光光度法(Dithizone Spectrophotometry) 194
2.10.3 冷原子吸收光谱法(Cold Vapour Atomic Absorption Spectrometry) 195
2.11.1 钨酸铵灼烧重量法(Ammonium Tungstate Igniting Gravimetry) 196
2.11 钨的测定(Determination of Tungsten) 196
2.11.2 8-羟基喹啉重量法(8-Hydroxyquinoline Gravimetry) 197
2.11.3 硫氰酸盐吸光光度法(Thiocyanate Spectrophotometry) 198
2.11.4 环己烷-乙酸丁酯萃取硫氰酸盐吸光光度法(Thiocyanate Spectrophotometry after Cyclohexane-Butyl Acetate Extraction) 199
2.12.1 钼酸铅重量法(Lead Molybdate Gravimetry) 200
2.12 钼的测定(Determination of Molybdenum) 200
2.12.2 钒酸铵滴定法(Ammonium Vanadate Titration) 201
2.12.3 硫氰酸盐吸光光度法(Thiocyanate Spectrophotometry) 202
2.12.4 苯基荧光酮吸光光度(Phenyl Fluorone Spectrophotometry) 203
2.13.1 EDTA滴定法(EDTA Titrition) 204
2.12.5 催化极谱法(Catalytic Polarography) 204
2.13 三氧化二铝的测定(Determination of Aluminium Oxide) 204
2.13.2 铬天青S吸光光度法(Chromazurol S Spectrophotometry) 207
2.13.3 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 209
2.14.1 EDTA滴定法(EDTA Titration) 210
2.14 氧化钙及氧化镁的测定(Determination of Calcium Oxide and Magnesium Oxide) 210
2.14.2 二甲苯胺蓝Ⅱ吸光光度法测定镁(Determination of Magnesium by Xylidene Blue Ⅱ Spectrophotometry) 211
2.14.3 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 213
2.15.1 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 214
2.15 氧化钾和氧化钠的测定(Determination of Potassium Oxide and Sodium Oxide) 214
2.15.2 火焰光度法(Flame Photometry) 215
2.16.1 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 216
2.16 锶的测定(Determination of Strontium) 216
2.16.2 ICP发射光谱法测定锶和钡(Determination of Strontium and Barium by ICP-AES) 217
2.17.1 硫酸钡重量法(Barium Sulfate Gravimetry) 218
2.17 钡的测定(Determination of Barium) 218
2.17.2 铬酸盐转化-亚铁滴定法(The Ferrous Titrition after Transition of Barium Sulfate into Chromate) 219
2.18.1 硫酸高铁铵滴定法(Ammonium Ferric Sulfate Titration) 221
2.18 钛的测定(Determination of Titanium) 221
2.18.2 过氧化氢吸光光度法(Hydrogen Peroxide Spectrophotometry) 222
2.18.3 二安替比林甲烷吸光光度法(Diantipyrylmethane Spectrophotometry) 224
2.19.1 重铬酸钾滴定法(Dichromate Titration) 225
2.19 铁的测定(Determination of Iron) 225
2.19.2 钛(Ⅲ)还原-重铬酸钾滴定法(Dichromate Titration after Titanous Reduction) 227
2.19.4 EDTA滴定法(EDTA Titration) 228
2.19.3 硫酸铈滴定法(Cerium Sulfate Titration) 228
2.19.5 磺基水杨酸吸光光度法(Sulfosalicylic Acid Spectrophotometry) 229
2.19.6 邻菲啰啉吸光光度法(1,10-Phenanthroline Spectrophotometry) 230
2.19.9 重铬酸钾滴定法测定亚铁(Determination of Ferrous Iron by Dichromate Titration) 231
2.19.7 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 231
2.19.8 重铬酸钾滴定法测定金属(Determination of Iron Metal by Dichromate Titration) 231
2.19.10 钒(V)氧化-硫酸亚铁铵滴定法测定亚铁(Determination of Ferrous Iron by Ammonium Ferrous Sulfate Titration after being Oxided with Vanadyl) 232
2.20.1 高锰酸盐吸光光度法(Permanganate Spectrophotometry) 233
2.20 锰的测定(Determination of Manganese) 233
2.20.2 硫酸亚铁铵滴定法(Ammonium Ferrous Sulfate Titration) 234
2.20.4 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 236
2.20.3 高锰酸钾电位滴定法(Potentiometric Titration with Potassium Permanganate) 236
2.21.1 硫酸亚铁铵滴定法(Ferrous Ammonium Sulfate Titration) 237
2.21 铬的测定(Determination of Chromium) 237
2.21.2 二苯氨基脲吸光光度法(Phenylanilineurea Spectrophotometry) 238
2.21.3 示波极谱法(Oscillopolarography) 239
2.22.1 硫酸亚铁铵滴定法(Ferrous Ammonium Sulfate Titration) 240
2.21.4 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 240
2.22 钒的测定(Determination of Vanadium) 240
2.22.2 磷钨钒酸吸光光度法(Phosphotungstenvanadic Acid Spectrophotometry) 242
2.22.3 钽试剂吸光光度法(N-Benzoyl-N-phenylhydroxyamine Spectrophotometry) 243
2.22.4 PAR吸光光度法(4-(2-Pyridylazo)-resorcinol Spectrophotometry) 244
2.23.1 酸碱滴定法(Neutralization Titration) 245
2.23 磷的测定(Determination of Phosphorus) 245
2.23.2 快速酸碱滴定法(Rapid Neutralization Titration) 246
2.23.3 磷钼钒酸吸光光度法(Phosphomolybdiumvanadic Acid Spectrophotometry) 247
2.23.4 铋盐-钼蓝吸光光度法(Bismuth Salts-Molybdenum Blue Spectrophotometry) 248
2.24.1 次亚磷酸盐还原-碘滴定法(Iodin Titration with Hypophosphite Reduction) 249
2.24 砷的测定(Determination of Arsenic) 249
2.24.2 DDTC-Ag吸光光度法(Silver Diethyldithiocarbaminate Spectrop- hotometry) 251
2.25.1 重量法(Gravimetry) 252
2.25 二氧化硅的测定(Determination of Silicon Dioxide) 252
2.25.2 氟硅酸钾滴定法(Potassium Fluosilicate Titration) 254
2.25.3 硅钼蓝吸光光度法(Silicon Molybdenum Blue Spectrophotometry) 255
2.26.1 硫酸钡重量法(Barium Sulfate Gravimetry) 257
2.26 硫的测定(Determination of Sulfur) 257
2.26.2 燃烧-中和滴定法(Combustion-Neutralization Titration) 258
2.26.3 燃烧-碘量法(Combustion-Iodimetry) 260
2.26.4 高频感应炉燃烧红外吸收法测定硫和碳(Determination of Sulfur and Carbon by Infra-red Absorption Method after High Frequency Induction Furnace Combustion) 261
2.27.1 非水滴定法(Nonaqueous Titration) 262
2.27 碳的测定(Determination of Carbon) 262
2.28.1 离子选择性电极法(Ion Selective Electrode Method) 263
2.28 氟的测定(Determination of Fluorine) 263
2.28.3 EDTA滴定法(EDTA Titration) 264
2.28.2 镧-茜素络合腙吸光光度法(Lanthanum-Alizarin Complexone Spectrophotometry) 264
2.29.1 EDTA滴定法(EDTA Titration) 265
2.29 氟化钙的测定(Determination of Calcium Fluoride) 265
2.29.2 高锰酸钾滴定法(Potassium Permanganate Titration) 269
2.30.1 甲亚胺-H酸吸光光度法(Methylenimine-H-acid Spectrophotometry) 270
2.30 硼的测定(Determination of Boron) 270
2.30.3 示波极谱法(Oscillopolarography) 271
2.30.2 离子选择性电极法(Ion-selective Electrode Method) 271
2.31.1 吸附水(H2O-)(Absorption Moisture) 272
2.30.4 ICP发射光谱法(ICP-AES) 272
2.31 水分的测定(Determination of Moisture) 272
2.32 烧失量的测定(Determination of Loss Content on Ignition) 273
2.31.2 化合水(H2O+)(Combined Moisture) 273
3.1 贵金属元素的火试金法富集(Noble Metal Element Concentration by Fire-assaying) 274
3 矿石中贵金属元素的测定(Determination of Noble Metal Elements in Minerals) 274
3.1.2 吸光光度法测定金、铂、钯(Determination of Au、Pt and Pd in Assaying Prill by Spetrophotometry) 278
3.1.1 重量法测定金、银(Determination of Gold and Silver in Assaying Prill by Gravimetry) 278
3.2.1 铅试金富集原子吸收光谱法(Atomic Absorption Spectrometry with Fire Assaying Concentration) 280
3.2 金的测定(Determination of Gold) 280
3.2.2 活性炭富集碘量法(Iodimetry with Activated Carbon Concentration) 281
3.2.4 活性炭富集异戊醇萃取硫代米蚩酮吸光光度法(Thiomichlerketone Spectrophotometry after Activated Carbon Concentration-Amyl Alcohol Extraction) 284
3.2.3 活性炭富集原子吸收光谱法(Atomic Absorption Spectrometry after Activated Carbon Concentration) 284
3.2.6 活性炭富集催化吸光光度法(Catalytic Spectrophotometry after Activated Carbon Concentration) 285
3.2.5 活性炭富集硫代米蚩酮水相吸光光度法(Thio-Michler'Ketone Spectrophotometry with Activated Carbon Concentration) 285
3.2.7 泡沫塑料富集原子吸收光谱法(Atomic Absorption Spectrometry after Foamed Plastic Concentration) 287
3.2.9 4-甲基-2-戊酮萃取火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry with Methyl Isobutyl Ketone Extraction) 288
3.2.8 螯合树脂富集原子吸收光谱法(Chelating Resin Concentration-Atomic Absorption Spectrometry) 288
3.2.11 巯基树脂富集高阶导数卷积溶出伏安法(Mercapto Resin Concentration-High-Order Derivative Convolution Stripping Voltammetry) 289
3.2.10 二苯硫脲-乙酸丁酯萃取石墨炉原子吸收光谱法(GFAAS with Diphenyl-thiourea-Butyl Acetate Extraction) 289
3.3.1 铅试金富集硫氰酸钾滴定法(Potassium Thiocyanate Titration after Lead-Assaying Concentration) 290
3.3 银的测定(Determination of Silver) 290
3.3.2 催化吸光光度法(Catalysis Spectrophotometry) 291
3.3.3 双硫腙-苯萃取吸光光度法(Spectrophotometry with Dithizone-benzene Extraction) 292
3.3.4 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 293
3.3.6 石墨炉原子吸收光谱法(Graphite Furnace Atomic Absorption Spectrometry) 294
3.3.5 二苯硫脲-乙酸丁酯萃取火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry after Diphenylthiourea-Butyl Acetate Extraction) 294
3.4.1 DDO吸光光度法测定氨浸液中钯(Determination of Palladium in Ammonia Leaching by DDO Spectrophotometry) 295
3.3.7 4-甲基-2-戊酮萃取火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry after Methyl Isobutyl Ketone Extraction) 295
3.4 铂、钯的测定(Determination of Platinum and Palladium) 295
3 4.2 DDO吸光光度法测定酸浸液中铂、钯(Determination of Platinum and Palladium in Acid Leaching by DDO Spectrophotometry) 296
3.4.3 EDTA滴定法测定铂(Determination of Platinum by EDTA Titration) 297
3.4.4 Zeph萃取富集-石墨炉原子吸收光谱法连续测定矿石中微量金、铂、钯(Successive Determination of Trace Gold,Platinum and Palladium in Ores by Zeph Extraction-GFAAS) 298
3.4.5 半微分阳极溶出伏安法同时测定金和钯(Simultaneous Determination of Gold,Palladium by Semi-differential Anodic Stripping Voltammery) 299
3.4.6 催化极谱法测定铂(Determination of Platinum by Catalytic Polarography) 300
3.5.1 硫脲富集-催化极谱法测定铑(Determination of Rhodium by Catalytic Polarography with Thiourea Concentration) 301
3.5 铑、铱的测定(Determination of Rhodium and Iridium) 301
3.5.2 硫脲富集-催化吸光光度法测定铱(Determination of Iridium by Catalytic Spectrophotometry with Thiourea Concentration) 302
3.6.1 催化吸光光度法(Catalytic Spectrophotometry) 304
3.6 锇、钌的测定(Determination of Osmium and Ruthenium) 304
3.6.2 硫脲吸光光度法(Thiourea Spectrophotometry) 306
4.1.1 原子发射光谱法测定锂(Determination of Lithium by Atomic Emission Spectrometry) 308
4 矿石中稀有稀散元素的测定(Determination of Rare and Spread Elements in Minerals) 308
4.1 锂、铷和铯的测定(Determination of Lithium,Rubidium and Cesium) 308
4.1.3 原子发射光谱法测定铷、铯(Determination of Rubidium and Cesium by Atomic Emission Spectrometry) 309
4.1.2 火焰原子吸收光谱法测定锂(Determination of Lithium by Flame Atomic Absorption Spectrometry) 309
4.2.1 磷酸盐重量法(Phosphate Gravimetry) 310
4.2 铍的测定(Determination of Beryllium) 310
4.2.2 铍试剂Ⅱ吸光光度法(Berryllon ⅡSpectrophotometry) 311
4.3.1 苦杏仁酸重量法(Mandelic Acid Gravimetry) 312
4.2.3 铬天青S吸光光度法(Chrome Azurol S Spectrophotometry) 312
4.3 锆(铪)的测定(Determination of Zirconium(Hafnium)) 312
4.3.2 EDTA滴定法(EDTA Titration) 313
4.3.3 二甲酚橙吸光光度法(Xylenol Orange Spectrophotometry) 314
4.3.4 偶氮胂Ⅲ吸光光度法(Arsenazo Ⅲ Spectrophotometry) 316
4.4.2 5-Br-PADAP吸光光度法(5-Br-PADAP Spectrophotometry) 317
4.4 铀的测定(Determination of Uranium) 317
4.4.1 钒酸铵滴定法(Ammonium Vanadate Titration) 317
4.4.3 偶氮胂Ⅲ吸光光度法(ArsenazoⅢSpectrophotometry) 319
4.4.4 示波极谱法(Oscillopolarography) 320
4.5.2 EDTA滴定法(EDTA Titration) 321
4.5 钍的测定(Determination of Thorium) 321
4.5.1 苯甲酸钍重量法(Thorium Benzene Carbonate Gravimetry) 321
4.5.3 偶氮胂Ⅲ吸光光度法(Arsenazo Ⅲ Spectrophotometry) 322
4.6.2 硅胶富集-PAR、丁基罗丹明B吸光光度法测定铌、钽(Determination of Niobi um/Tantal um by PAR/Butyl Rhodamine B Spectrophotometry with Silicon Gel Enrichment) 325
4.6 铌、钽的测定(Determnation of Niobium and Tantalum) 325
4.6.1 纸色层分离测定铌、钽(Seperation and Determination by Paper Chromatography) 325
4.6.3 氯代磺酚S吸光光度法测定铌(Determination of Niobium by Sulfochloro-phenol S Spectrophotometry) 327
4.7.1 草酸盐重量法(稀土、钍总量)(Dicarboxylic Gravimetry) 328
4.7 稀土总量的测定(Determination of Total Rare Earth Elements) 328
4.7.2 硫酸亚铁铵滴定法(Ferrous Ammonium Sulfate Titration) 329
4.7.3 EDTA滴定法(EDTA Titration) 330
4.7.4 偶氮胂Ⅲ吸光光度法(ArsenazoⅢSpectrophotometry) 331
4.8.1 罗丹明B吸光光度法(Rhodamine B Spectrophotometry) 333
4.8 镓的测定(Determination of Gallium) 333
4.8.2 镓、铟的连续测定(Determination of Gallium and Indium in Succession) 335
4.9.1 结晶紫吸光光度法(Crystal Violet Spectrophotometry) 336
4.9 铟的测定(Determination of Indium) 336
4.9.2 丁基罗丹明B吸光光度法(Butyl Rhodamine B Spectrophotometry) 337
4.10.1 苯基荧光酮吸光光度法(Phenylfluorone Spectrophotometry) 338
4.9.3 盐酸羟胺底液示波极谱法(Oscillopolarography with Hydrochloric Acid Hydroxylamine Supporting Electrolyte) 338
4.9.4 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 338
4.10 锗的测定(Determination of Germanium) 338
4.10.2 示波极谱法(Oscillopolarography) 339
4.11.1 结晶紫吸光光度法(Crystal Violet Spectrophotometry) 340
4.11 铊的测定(Determination of Thallium) 340
4.11.2 示波极谱法(Oscillopolarography) 341
4.12.1 3,3′-二氨基联苯胺吸光光度法(3,3′-Diaminobenzidine Spectrophotometry) 342
4.11.3 火焰原子吸收光谱法(Flame Atomic Absorption Spectrometry) 342
4.12 硒的测定(Determination of Selenium) 342
4.12.2 亚硫酸钠-碳酸钾底液示波极谱法(Polarography with Na2SO3-K2CO3 Supporting Electrolyte) 343
4.12.3 亚硫酸钠-氨性底液示波极谱法(Polarography with Na2SO3-Amino Buffer Supporting Electrolyte) 344
4.13.1 二安替比林丙基甲烷吸光光度法(Diantipyrylpropylmethane Spectrophotometry) 345
4.13 碲的测定(Determination of Tellurium) 345
4.13.2 硫酸-氯化钠底液极谱法(Polarography with H 2SO4-NaCl Supporting Electrolyte) 346
4.14.1 硫氰酸盐吸光光度法(Thiocyanate Spectrophotometry) 347
4.13.3 亚硫酸钠-碳酸钾底液示波极谱法(Polarography with Na2SO3-K2CO3 Supporting Electrolyte) 347
4.14 铼的测定(Determination of Rhenium) 347
4.14.2 示波极谱法(Oscillopolarography) 349
5.1.1 碘量法测定铜(Determination of Copper by Thiosulfate Iodimetry) 350
5 有色金属精矿化学分析(Chemical Analysis for Nonferrous Metal Concentrates) 350
5.1 铜精矿(Copper Concentrates) 350
5.1.2 硫代硫酸钠分离-碘量法测定铜(Determination of Copper by Iodometric Method after Separation) 351
5.1.4 火焰原子吸收光谱法测定铅、锌、镉和镍(Determination of Lead,Zinc,Cadmium and Nickle by Flame Atomic Absorption Spectrometry) 352
5.1.3 EDTA滴定法测定铅(Determination of Lead by EDTA Titration) 352
5.1.5 EDTA滴定法测定锌(Determination of Zinc by EDTA Titration) 353
5.1.6 火焰原子吸收光谱法测定氧化镁(Determination of Magnesium Oxide by Flame Atomic Absorption Spectrometry) 354
5.1.7 干湿试金法测定金、银(Determination of Gold and Silver by Fire-assaying Method) 355
5.1.8 火试金测定金和银(Determination of Gold and Silver by Fire-assaying Method) 356
5.1.9 燃烧-中和法测定硫(Determination of Sulfur by Combustion-NaOH Titration) 358
5.1.11 溴酸钾滴定法测定砷(Determination of Arsenic by Potassium Bromate Titration) 359
5.1.10 硫酸钡重量法测定硫(Determination of Sulfur by Barium Sulfate Gravimetry) 359
5.1.12 DDTC-Ag吸光光度法测定砷(Determination of Arsenic by DDTC-Ag Spectrophotometry) 360
5.1.13 氟离子选择电极法测定氟(Determination of Fluorine by Ion Selection Electrode Method) 361
5.1.15 氢化物发生-原子荧光光谱法测定砷和铋(Determination of Arsenic and Bismuth by Hydride Generation-Atomic Fluorescence Spectrometry) 362
5.1.14 火焰原子吸收光谱法测定银(Determination of Silver by Flame Atomic Absorption Spectrometry) 362
5.1.16 氢化物发生-原子荧光光谱法测定锑(Determination of Antimony by Hydride Generation-Atomic Fluorescence Spectrometry) 363
5.2.1 EDTA滴定法测定铅(Determination of Lead by EDTA Titration) 364
5.2 铅精矿(Lead Concentrates) 364
5.2.4 砷铋钼蓝吸光光度法测定砷(Determination of Arsenic by As-Bi Molybdenum Blue Spectrophotometry) 366
5.2.2 EDTA滴定法测定锌(Determination of Zinc by EDTA Titration) 366
5.2.3 火焰原子吸收光谱法测定铜(Determination of Copper by Flame Atomic Absorption Spectrometry) 366
5.2.5 火焰原子吸收光谱法测定氧化镁(Determination of Magnesium Oxide by Flame Atomic Absorption Spectrometry) 367
5.2.6 铬天青S吸光光度法测定三氧化二铝(Determination of Aluminium Oxide by Chromazurol S Spectrophotometry) 368
5.2.8 极谱法测定铋(Determination of Bismuth by Polarography) 369
5.2.7 二硫代二安替比林甲烷吸光光度法测定铋(Determination of Bismuth by DTPM Spectrophotometry) 369
5.2.9 火试金法测定金、银(Determination of Gold and Silver by Fire-assaying Method) 370
5.3.1 EDTA滴定法测定锌(Determination of Zinc by EDTA Titration) 371
5.3 锌精矿(Zinc Concentrates) 371
5.3.2 燃烧-中和法测定硫(Determination of Sulfur by Combustion-NaOH Titration) 372
5.3.8 离子选择电极法测定氟(Determination of Fluorine by Ion Selection Electrode Method) 373
5.3.3 EDTA滴定法测定铁(Determination of Iron by EDTA Titration) 373
5.3.4 火焰原子吸收光谱法测定铅(Determination of Lead by Flame Atomic Absorption Spectrometry) 373
5.3.5 火焰原子吸收光谱法测定铜(Determination of Copper by Flame Atomic Absorption Spectrometry) 373
5.3.6 溴酸钾滴定法测定砷(Determination of Arsenic by Potassium Bromate Titration) 373
5.3.7 火焰原子吸收光谱法测定镉(Determination of Cadmium by Flame Atomic Absorption Spectrometry) 373
5.3.11 火焰原子吸收光谱法测定银(Determination of Silver by Flame Atomic Absorption Spectrometry) 374
5.3.9 苯基荧光酮-CTAB吸光光度法测定锡(Determination of Tin by Phenyl-fluorone-CTAB Spectrophotometry) 374
5.3.10 孔雀绿吸光光度法测定锑(Determination of Antimony by Melachite Green Spectrophotometry) 374
5.3.12 硅钼蓝吸光光度法测定二氧化硅(Determination of Silicon Dioxide by Silicon Molybdenum Blue Spectrophotometry) 375
5.3.13 氢化物发生-原子荧光光谱法测定锡(Determination of Tin by Hydride Generation-Atomic Fluorescence Spectrometry) 376
5.3.14 氢化物发生-原子荧光光谱法测定锑(Determination of Antimony by Hydride Genertion-Atomic Fluorescence Spectrometry) 377
5.3.16 火焰原子吸收光谱法测定镍(Determination of Nickel by Flame Atomic Absorption Spectrometry) 378
5.3.15 氢化物发生-原子荧光光谱法测定砷(Determination of Arsenic by Hydride Generation-Atomic Fluorescence Spectrometry) 378
5.4.1 丁二酮肟重量法测定镍(Determination of Nickel by Diacetyldioxime Gravimetry) 379
5.4 镍精矿(高冰镍)(Nickel Concentrates) 379
5.4.3 磺基水杨酸吸光光度法测定铁(Determination of Iron by Sulphosalicylic Acid Spectrophotometry) 380
5.4.2 EDTA滴定法测定镍(Determination of Nickel by EDTA Titration) 380
5.4.5 电位滴定法测定钴(Determination of Cobalt by Potentiometric Titration) 381
5.4.4 亚硝基-R盐吸光光度法测定钴(Determination of Cobalt by Nitroso-R Spectrophotometry) 381
5.4.8 EDTA滴定法测定氧化镁(Determination of Magnesium Oxide by EDTA Titration) 382
5.4.6 碘量法测定铜(Determination of Copper by Iodometric Titration) 382
5.4.7 硫酸钡重量法测定硫(Determination of Sulfur by Barium Sulfate Gravimetry) 382
5.5.1 亚硝基-R盐吸光光度法测定钴(Determination of Cobalt by Nitroso-R Spectrophotometry) 384
5.5 钴硫精矿(Cobaltiferous Pyrite Concentrates) 384
5.5.4 碘量法测定铜(Determination of Copper by Iodometric Titration) 385
5.5.2 亚硝酸钴钾重量法测定钴(Determination of Cobalt by Potassium-Cobalt Nitrite Gravimetry) 385
5.5.3 丁二酮肟吸光光度法测定镍(Determination of Nickel by Diacetyldioxime Spectrophotometry) 385
5.5.5 重铬酸钾滴定法测定铁(Determination of Iron by Potassium Dichromate Titration) 386
5.5.7 极谱法测定铅(Determination of Lead by Polarography) 387
5.5.6 高碘酸钾吸光光度法测定锰(Determination of Manganese by Potassium Periodate Spectrophotometry) 387
5.5.9 砷钼蓝吸光光度法测定砷(Determination ofArsenic by Arsenic Molybdenum Blue Spectrophotometry) 388
5.5.8 萃取分离极谱法测定锌(Determination of Zinc by Polarography After Extraction) 388
5.5.10 氟硅酸钾滴定法测定二氧化硅(Determination of Silicon Dioxide by Potassium Fluorosilicate Titration) 389
5.5.11 燃烧-酸碱滴定法测定有效硫(Determination of Sulfur by Combustion-Acid-base Titration) 390
5.6.1 铍载-过氧化钠熔融-碘量法测定锡(Determination of Tin by Iodometric Titration after Separation with Beryllium Coprecipitation) 392
5.6 锡精矿(Tin Concentrates) 392
5.6.3 锌粉-氯化铵熔样碘量法测定锡(Determination of Tin by Iodometric Titration after Sintering with Zinc Powder and Ammonium Chloride) 394
5.6.2 锌粉-硼砂-硼酸熔样碘量法测定锡(Determination of Tin by Iodometric Titration after Sintering with Zinc Powder,Borax and Boric Acid) 394
5.6.4 硫酸铈滴定法测定铁(Determination of Iron by Cerium Sulphate Titration) 395
5.6.6 火焰原子吸收光谱法测定铅、铜(Determination of Lead and Copper by Flame Atomic Absorption Spectrometry) 396
5.6.5 双环己酮草酰二腙吸光光度法测定铜(Determination of Copper by Biscyclohexylone-oxalyldihydrazone Spectrophotometry) 396
5.6.7 EDTA滴定法测定铅(Determination of Lead by EDTA Titration) 397
5.6.8 极谱法测定铅(Determination of Lead by Polarography) 398
5.6.9 次磷酸盐-碘量法测定砷(Determination of Arsenic by Iodometry after Sodium Hypophosphite Monohydrate Reduction) 399
5.6.11 DDTC-Ag吸光光度法测定砷(Determination of Arsenic by Silver Diethyldithiocarbamate Spectrophotometry) 400
5.6.10 砷锑钼蓝吸光光度法测定砷(Determination of Arsenic by Antimony-Arseno-Molybdenum Bl ue Spectrophotometry) 400
5.6.12 孔雀绿吸光光度法测定锑(Determination of Antimony by Malachite Green Spectrophotometry) 401
5.6.13 火焰原子吸收光谱法测定锑(Determination of Antimony by Flame Atomic Absorption Spectrometry) 402
5.6.15 火焰原子吸收光谱法测定铋(Determination of Bismuth by Flame Atomic Absorption Spectrometry) 403
5.6.14 二硫代二安替比林甲烷吸光光度法测定铋(Determination of Bismuth by Dithiodiantipyrylmethane Spectrophotometry) 403
5.6.16 极谱法测定锌(Determination of Zinc by Polarography) 404
5.6.18 硫氰酸盐吸光光度法测定三氧化钨(Determination of Tungsten Trioxide by Thiocyanate Spectrophotometry) 405
5.6.17 火焰原子吸收光谱法测定锌(Determination of Zinc by Flame Atomic Absorption Spectrometry) 405
5.6.19 燃烧-碘量法测定硫(Determination of Sulfur by Combustion-Iodometry) 406
5.6.20 高频燃烧-红外吸收法测定硫(Determination of Sulfur by High Frequency Combustion-Infrared Absorption Method) 407
5.6.21 硅钼蓝吸光光度法测定二氧化硅(Determination of Silicon Dioxide by Silicon Molybdenum Blue Spectrophotometry) 408
5.6.22 铬天青S吸光光度法测定三氧化二铝(Determination of Aluminium Oxide by Chromazurol S Spectrophotometry) 409
5.6.23 EDTA滴定法测定氧化钙(Determination of Calcium Oxide by EDTA Titration) 411
5.6.24 二甲苯胺蓝Ⅱ吸光光度法测定氧化镁(Determination of Magnesium Oxide by Xylidene Blue Ⅱ Spectrophotometry) 412
5.6.25 火焰原子吸收光谱法测定氧化镁、氧化钙(Determination of Magnesium Oxide and Calcium Oxide by Flame Atomic Absorption Spectrometry) 413
5.6.26 离子选择电极法测定氟(Determination of Fluorine by Ion Selection Electrode Method) 414
5.6.27 火焰原子吸收光谱法测定银(Determination of Silver by Flame Atomic Absorption Spectrometry) 415
5.6.29 重量法测定水分(Determination of Hygroscopic Moisture by Gravimetry) 416
5.6.28 冷原子吸收光谱法测定汞(Determination of Mercury by Cold Vapor Atomic Absorption Spectrometry) 416
5.7.1 EDTA滴定法测定铋(Determination of Bismuth by EDTA Titration) 417
5.7 铋精矿(Bismuth Concentrates) 417
5.7.3 碘量法测定砷(Determination of Arsenic by Iodometric Titration) 418
5.7.2 硫氰酸盐吸光光度法测定三氧化钨(Determination of Tungsten Trioxide by Thiocyanate Spectrophotometry) 418
5.7.4 硅钼蓝吸光光度法测定二氧化硅(Determination of Silicon Dioxide by Silicon Molybdenum Blue Spectrophotometry) 419
5.7.5 硫酸钡重量法测定硫(Determination of Sulfur by Barium Sulfate Gravimetry) 420
5.7.6 EDTA滴定法测定铁(Determination of Iron by EDTA Titration) 421
5.7.7 重铬酸钾滴定法测定铁(Determination of Iron by Potassium Dichromate Titration) 422
5.7.8 EDTA滴定法测定铅(Determination of Lead by EDTA Titration) 423
5.7.10 火焰原子吸收光谱法测定铅、铜(Determination of Lead and Copper by Flame Atomic Absorption Spectrometry) 424
5.7.9 火焰原子吸收光谱法测定银(Determination of Silver by Flame Atomic Absorption Spectrometry) 424
5.7.11 铬天青S吸光光度法测定三氧化二铝(Determination of Aluminium Oxide by Chromazurol S Spectrophotometry) 425
5.7.13 硫氰酸盐吸光光度法测定钼(Determination of Molybdenum by Thiocyanate Spectrophotometry) 426
5.7.12 碘量法测定铜(Determination of Copper by Iodometric Titration) 426
5.8.1 硫酸铈滴定法测定锑(Determination of Antimony by Ceric Sulfate Titration) 427
5.8 锑精矿(Antimony Concentrates) 427
5.8.2 溴酸钾滴定法测定砷(Determination of Arsenic by Potassium Bromate Titration) 428
5.8.4 示波极谱法测定铅(Determination of Lead by Oscillopolarography) 429
5.8.3 火焰原子吸收光谱法测定铅(Determination of Lead by Flame Atomic Absorption Spectrometry) 429
5.8.6 3,3′-二氨基联苯胺吸光光度法测定硒(Determination of Selenium by 3,3′-Diaminobenzidine Spectrophotometry) 430
5.8.5 火焰原子吸收光谱法测定锌(Determination of Zinc by Flame Atomic Absorption Spectrometry) 430
5.8.7 催化极谱法测定硒(Determination of Seleniun by Catalytic Polarography) 431
5.8.8 冷蒸气原子吸收光谱法测定汞(Determination of Mercury by Cold Vapor Atomic Absorption Spectrometry) 432
5.8.9 燃烧-中和滴定法测定硫(Determination of Sulfur by Combustion-NaOH Titration) 433
5.8.10 火试金-重量法测定金(Determination of Gold by Fire Assaying-Gravimetry) 434
5.8.11 火焰原子吸收光谱法测定金(Determination of Gold by Flame Atomie Absorption Spectrometry) 435
5.8.13 重量法测定湿存水(Determination of Hygroscopic Moisture by Gravimetry) 436
5.8.12 火焰原子吸收光谱法测定银(Determination of Silver by Flame Atomic Absorption Spectrometry) 436
5.9.2 碘酸钾滴定法测定锡(Determination of Tin by Potassium Iodate Titration) 437
5.9 钨精矿(Tungsten Concentrates) 437
5.9.1 钨酸铵灼烧重量法测定三氧化钨(Determination of Tungsten Trioxide by Ammonium Tungstate Igniting Gravimetry) 437
5.9.3 水杨基荧光酮-氯化十四烷基吡啶吸光光度法测定锡(Determination of Tin by Salicylfluorone-tetradecyl Pyridine Chloride Spectro-photometry) 438
5.9.5 硫酸钡重量法测定硫(Determination of Sulfur by Barium Sulfate Gravimetry) 440
5.9.4 钼黄吸光光度法测定磷(Determination of Phosphorus by Molybdenum Yellow Spectrophotometry) 440
5.9.6 EDTA滴定法测定钙(Determination of Calcium by EDTA Titration) 441
5.9.7 火焰原子吸收光谱法测定钙(Determination of Calcium by Flame Atomic Absorption Spectrometry) 442
5.9.8 氯代磺酚S吸光光度法测定铌、丁基罗丹明B萃取吸光光度法测定钽(Determination of Niobium by Chlorosulphophenol S Spectrophotometry and Determination of Tantalum by Butylrhodamine B Extraction Spectrophotometry) 443
5.9.9 硫氰酸盐吸光光度法测定钼(Determination of Molybdenum by Thiocyanate Spectrophotometry) 444
5.9.10 火焰原子吸收光谱法测定铜(Determination of Copper by Flame Atomic Absorption Spectrometry) 445
5.9.12 盐酸-氯化钠底液示波极谱法测定铅(Determination of Lead by Oscillopolarography with Hydrochloric Acid-Sodium Chloride Supporting Electrolyte) 446
5.9.11 铜试剂吸光光度法测定铜(Determination of Copper by Cupral Spectrophotometry) 446
5.9.13 氨水-氯化铵底液极谱法测定锌(Determination of Zinc by Polarography with Ammonia Ammonium Chloride Supporting Electrolyte) 447
5.9.14 钼蓝吸光光度法测定二氧化硅(Determination of Silicon Dioxide by Molybdenum Blue Spectrophotometry) 448
5.9.15 DDTC-Ag吸光光度法测定砷(Determination of Arsenic by Silver Diethyldithiocar-bamate Spectrophotometry) 449
5.9.17 硫酸亚铁铵滴定法测定锰(Determination of Manganese by Ferrous Ammonium Sulfate Titration) 450
5.9.16 火焰原子吸收光谱法测定锰(Determination of Manganese by Flame Atomic Absorption Spectrometry) 450
5.9.18 半二甲酚橙吸光光度法测定铋(Determination of Bismuth by Semi-xylenol Orange Spectrophotometry) 451
5.9.19 磺基水杨酸吸光光度法测定铁(Determination of Iron by Sulphosalicylic Acid Spectrophotometry) 452
5.10.1 钼酸铅重量法测定钼(Determination of Molybdenum by Lead Molybdenate Gravimetry) 453
5.9.20 5-Br-PADAP吸光光度法测定锑(Determination of Antimony by 2-[(5-Bromo-2-pyridyl)azo]-5-(diethylamino)phenol Spectrophotometry) 453
5.9.21 重量法测定湿存水分(Determination of Hygroscopic Moisture by Gravimetry) 453
5.10 钼精矿(Molybdenum Concentrates) 453
5.10.2 硫氰酸盐吸光光度法测定钨(Determination of Tungsten Trioxide by Thiocyanate Spectrophotometry) 454
5.10.3 火焰原子吸收光谱法测定铜和铅(Determination of Copper and Lead by Flame Atomic Absorption Spectrometry) 455
5.10.5 水杨基荧光酮-溴化十六烷基三甲基铵吸光光度法测定锡(Determination of Tin by Salicylfluorone-CTMAB Spectrophotometry) 456
5.10.4 极谱法测定铜(Determination of Copper by Polarography) 456
5.10.6 火焰原子吸收光谱法测定铋(Determination of Bismuth by F1ame Atomic Absorption Spectrometry) 457
5.10.7 磷钼蓝吸光光度法测定磷(Determination of Phosphorus by Phosphorus Molybdenum Blue Spectrophotometry) 458
5.10.8 DDTC-Ag吸光光度法测定砷(Determination of Arsenic by DDTC-Ag Spectrophotometry) 459
5.10.9 硅钼蓝吸光光度法测定二氧化硅(Determination of Silicon Dioxide by Silicon Molybdenum Blue Spectrophotometry) 460
5.10.11 高锰酸钾滴定法测定氧化钙(Determination of Calcium Oxide by Potassium Permanganate Titration) 461
5.10.10 重量法测定二氧化硅(Determination of Silicon Dioxide by Gravimetry) 461
5.10.13 火焰原子吸收光谱法测定钾和钠(Determination of Potassium and Sodium by Flame Atomic Absorption Spectrometry) 462
5.10.12 火焰原子吸收光谱法测定钙(Determination of Calcium by Flame Atomic Absorption Spectrometry) 462
5.10.14 萃取吸光光度法测定铼(Determination of Rhenium by Spectro-photometry After Extraction) 463
5.11.1 EDTA滴定法测定氧化铝(Determination of Aluminium Oxide by EDTA Titration) 464
5.10.15 重量法测定油和水分总量(Determination of Content for Moisture plus Oil by Gravimetry) 464
5.11 铝土矿(Bauxite Ores) 464
5.11.2 重量-钼蓝吸光光度法测定二氧化硅(Determination of Silicon Dioxide by Gravimetric-Molybdenum Blue Spectrophotometry) 465
5.11.3 硅钼蓝吸光光度法测定二氧化硅(Determination of Silicon Dioxide by Silicon Molybdenum Blue Spectrophotometry) 466
5.11.4 重铬酸钾滴定法测定三氧化二铁(Determination of Iron Oxide by Potassium Dichromate Titration) 467
5.11.5 邻菲啰啉吸光光度法测定三氧化二铁(Determination of Iron Oxide by 1,10-Phenanthroline Spectrophotometry) 468
5.11.7 EDTA滴定法测定氧化钙(Determination of Calcium Oxide by EDTA Titration) 469
5.11.6 二安替比林甲烷吸光光度法测定二氧化钛(Determination of Titanium Dioxide by Diantipyrylmethane Spectrophotometry) 469
5.11.8 火焰原子吸收光谱法测定氧化钙和氧化镁(Determination of Calcium Oxide and Magnesium Oxide by Flame Atomic Absorption Spectrometry) 470
5.11.9 二甲苯胺蓝Ⅱ吸光光度法测定氧化镁(Determination of Magnesium Oxide by Xylidyl BlueⅡSpectrophotometry) 471
5.11.10 火焰原子吸收光谱法测定氧化钾和氧化钠(Determination of Potassium Oxide and Sodium Oxide by Flame Atomic Absorption Spectrometry) 472
5.11.11 火焰原子吸收光谱法测定氧化锰(Determination of Manganese Oxide by Flame Atomic Absorption Spectrometry) 473
5.11.12 火焰原子吸收光谱法测定三氧化二铬(Determination of Chromium Oxide by Flame Atomic Absorption Spectrometry) 474
5.11.14 钽试剂吸光光度法测定五氧化二钒(Determination of Vanadium Pentoxide by N-benzoyl-N-phenythyroxylamine Spectro-photometry) 475
5.11.13 二苯基羰酰二肼吸光光度法测定三氧化二铬(Determination of Chromium Oxide by Diphenyicarbazide Spectrophotometry) 475
5.11.15 火焰原子吸收光谱法测定锌(Determination of Zinc by Flame Atomic Absorption Spectrometry) 476
5.11.17 三溴偶氮胂吸光光度法测定稀土氧化物总量(Determination of Total Contents of Rare Earth Oxide by Tribromo-arsenazo Spectro-photometry) 477
5.11.16 半二甲酚橙吸光光度法测定二氧化锆(Determination of Zirconium Oxide by Semi-xylenol Orange Spectrophotometry) 477
5.11.19 磷钼蓝吸光光度法测定五氧化二磷(Determination of Phosphorus Pentoxide by Phosphorus Molybdenum Blue Spectrophotometry) 479
5.11.18 罗丹明B萃取吸光光度法测定三氧化二镓(Determination of Gallium Oxide by Rhodamine B-exatraction Spectrophotometry) 479
5.11.20 燃烧-碘量法测定硫(Determination of Sulfur by Combustion-iodometric Method) 480
5.11.21 燃烧-非水滴定法测定总碳量(Determination of Total Carbon by Non-aqueous Titration after Combustion) 481
5.11.22 重量法测定灼烧失量(Determination of Loss Contents on Ignition by Gravimetry) 482
5.12.1 火试金法测定金和银(Determination of Gold and Silver by Fire-assaying Method) 483
5.12 金精矿(Gold Concentrates) 483
5.12.2 火焰原子吸收光谱法测定银(Determination of Silver by Flame Atomic Absorption Spectrometry) 484
5.12.3 二乙基二硫代氨基甲酸银吸光光度法测定砷(Determination of Arsenic by Silver Diethyldithioccarbamate Spectrophotometry) 485
5.12.4 碘量法测定砷(Determination of Arsenic by Iodometric Method) 486
5.13.1 火试金法测定金和银(Determination of Gold and Silver by Fire-assaying Method) 487
5.13 银精矿(Silver Concentrates) 487
5.13.2 火焰原子吸收光谱法测定铜(Determination of Copper by Flame Atomic Absorption Spectrometry) 488
5.13.3 碘量法测定铜(Determination of Copper by Iodometry) 489
5.13.4 氢化物发生-原子荧光光谱法测定砷和铋(Determination of Arsenic and Bismuth by Hydride Generation-Atomic Fluorescence Spectrometry) 490
5.13.5 溴酸钾滴定法测定砷(Determination of Arsenic by Potassium Bromate Titration) 491
5.13.6 铬天青S胶束增溶光度法测定三氧化二铝(Determination of Aluminium Oxide by Chromazurol S Spectrophotometry) 492
5.13.7 EDTA滴定法测定三氧化二铝(Determination of Aluminium Oxide by EDTA Titration) 493
5.13.10 火焰原子吸收光谱法测定氧化镁(Determination of Magnesium Oxide by Flame Atomic Absorption Spectrometry) 494
5.13.8 硫酸钡重量法测定硫(Determination of Sulfur by Barium Sulfate Gravimetry) 494
5.13.9 燃烧-酸碱滴定法测定硫(Determination of Sulfur by Combustion-NaOH Titration) 494
5.13.11 EDTA滴定法测定铅(Determination of Lead by EDTA Titration) 495
5.13.12 EDTA滴定法测定锌(Determination of Zinc by EDTA Titration) 497
5.13.13 火焰原子吸收光谱法测定铅、锌(Determination of Lead and Zinc by Flame Atomic Absorption Spectrometry) 498
5.13.14 火焰原子吸收光谱法测定镉(Determination of Cadmium by Flame Atomic Absorption Spectrometry) 499
6.1.1 电解法测定铜(Determination of Copper by Electrolytic Method) 500
6 重金属化学分析(Chemical Analysis for Heavy Metals) 500
6.1 铜及铜合(Copper and Copper Alloys) 500
6.1.2 硫代硫酸钠滴定法测定粗铜中铜(Determination of Copper in Crude Copper by Sodium Thiosulfate Titration) 501
6.1.3 催化示波极谱法测定硒、碲(Determination of Selenium and Tellurium by Catalytic Oscillopolargraphy) 502
6.1.4 碘化钾吸光光度法测定铋(Determination of Bismuth by Potassium Iodide Spectrophotometry) 503
6.1.5 5-Br-PADAP吸光光度法测定锑(Determination of Antimony by 5-Br-PADAP Spectrophotometry) 504
6.1.7 砷钼杂多酸-结晶紫吸光光度法测定砷(Determination of Arsenic by Heteropoly Arsenomolybdic Acid-Crystal Violet Spectrophotometry) 505
6.1.6 罗丹明B吸光光度法测定锑(Determination of Antimony by Rhodamine B Spectrophotometry) 505
6.1.8 DDTC-Ag吸光光度法测定砷(Determination of Arsenic by Silver Diethyldithiocarbamate Spectrophotometry) 507
6.1.10 苯基荧光酮-OP吸光光度法测定锡(Determination of Tin by Phenyl-fluorone p-Octyl Polyethylene Glycol Phenyl Spectrophotometry) 508
6.1.9 邻菲啰啉吸光光度法测定铁(Determination of Iron by 1,10-Phenan-throline Spectrophotometry) 508
6.1.11 火焰原子吸收光谱法测定锌(Determination of Zinc by Flame Atomic Absorption Spectrometry) 509
6.1.12 氢化物发生-无色散原子荧光光谱法测定砷、锑、铋(Determination of Arsenic,Antimony,Bismuth by Hydride Generation-None Dispersion Atomic Fluorescence Spectrometry) 510
6.1.14 乙酸丁酯萃取-磷钼杂多酸-结晶紫吸光光度法测定磷(Determination of Phosphorus by Butyl Acetate Extraction-Phospho-molybdic Acid-Crystal Violet Spectrophotometry) 511
6.1.13 磷钒钼杂多酸-结晶紫吸光光度法测定磷(Determination of Phosphorus by Heteropoly Phospho--vanado-molybdic Acid-Crystal Violet Spectrophotometry) 511
6.1.15 塞曼效应电热原子吸收法测定铁、钴、铅、镍、锡、铬、镉、锰(Determination of Iron,Cobalt,Lead,Nickel,Tin,Chromium,Cadmium,Manganese by Zeeman Effect Electrothermal Atomic Absorption Spectrometry) 512
6.1.16 火焰原子吸收光谱法测定银(Determination of Silver by Flame Atomic Absorption Spectrometry) 514
6.1.18 燃烧-碘量法测定硫(Determination of Sulfur by Combustion-iodometry) 515
6.1.17 火焰原子吸收光谱法测定铅(Determination of Lead by Flame Atomic Absorption Spectrometry) 515
6.1.19 丁二酮肟吸光光度法测定镍(Determination of Nickel by Dimethylglyoxime Spectrophotometry) 517
6.1.21 硅钼蓝吸光光度法测定硅(Determination of Silicon by Silicon Molybdenum Blue Spectrophotometry) 518
6.1.20 脉冲加热-电量法测定氧(Determination of Oxygen by Pulse Heating-coulometric Method) 518
6.1.23 高频感应炉燃烧红外吸收法测定碳和硫(Determination of Carbon and Sulfur by Infra-red Absorption Method after High Frequency Induction Furnace Combustion) 520
6.1.22 火焰原子吸收光谱法测定镁(Determination of Magnesium by Flame Atomic Absorption Spectrometry) 520
6.1.24 火焰原子吸收光谱法测定镍(Determination of Nickel by Flame Atomic Absorption Spectrometry) 521
6.1.25 原子发射光谱法测定金属铜中杂质元素(Determination Of Impurity Elements in Copper Metal by Spectrographic Method) 522
6.2.2 火焰原子吸收光谱法测定铜(Determination of Copper by Flame Atomic Absorption Spectrometry) 523
6.2 铅及铅合金(Lead and Lead Alloy) 523
6.2.1 双环己酮草酰二腙吸光光度法测定铜(Determination of Copper by Bis-cyclohexylone-oxalyldihydrazone Spectrophotometry) 523
6.2.4 火焰原子吸收光谱法测定银(Determination of Silver by Flame Atomic Absorption Spectrometry) 524
6.2.3 新铜试剂-甲基橙萃取吸光光度法测定银(Determination of Silver by Neocuproine-Methyl Orange Extraction Spectrophotometry) 524
6.2.5 碘化钾-马钱子碱吸光光度法测定铋(Determination of Bismuth by Potassium Iodide-Brucine Spectrophotometry) 525
6.2.6 DDTC-Ag吸光光度法测定砷(Determination of Arsenic by Silver Diethyldithiocarbamate Spectrophotometry) 526
6.2.7 孔雀绿吸光光度法测定锑(Determination of Antimony by Malachite Green Spectrophotometry) 527
6.2.9 硫酸铈滴定法测定锑(Determination of Antimony by Cerium Sulfate Titration) 528
6.2.8 结晶紫吸光光度法测定锑(Determination of Antimony by Crystal Violet Spectrophotometry) 528
6.2.10 邻苯二酚紫-CTAB吸光光度法测定锡(Determination of Tin by Catechol Violet-Cetyl trimethyl ammonium Bromide Spectrophotometry) 529
6.2.11 碘酸钾滴定法测定锡(Determination of Tin by Potassium Iodate Titration) 530
6.2.13 邻菲啰啉吸光光度法测定铁(Determination of Iron by 1,10-Phenanthroline Spectrophotometry) 531
6.2.12 火焰原子吸收光谱法测定锌(Determination of Zinc by Flame Atomic Absorption Spectrometry) 531
6.2.15 示波极谱法测定硒和碲(Determination of Selenium and Tellurium by Oscillopolarograthy) 532
6.2.14 结晶紫吸光光度法测定铊(Determination of Thallium by Crystal Violet Spectrophotometry) 532
6.2.16 火焰原子吸收光谱法测定钙(Determination of Calcium by Flame Atomic Absorption Spectrometry) 533
6.2.17 火焰原子吸收光谱法测定银、锌、镁和钠(Determination of Silver,Zinc,Magnesium and Sodium by Flame Atomic Absorption Spectrometry) 534
6.2.18 氢化物-原子荧光光谱法测定锡(Determination of Tin by Hydride Generation-Atomic Fluorescence Spectrometry) 535
6.2.19 氢化物-原子荧光光谱法测定碲(Determination of Tellurium by Hydride Generation-Atomic Fluorescence Spectrometry) 536
6.2.21 微量砷、银、锡、锑、铋的ICP-MS法测定(Determination of Arsenic,Silver,Tin,Antimony and bismuth by ICP-MS) 537
6.2.20 氢化物发生-无色散原子荧光光谱法测定砷、锑、铋(Determination of Arsenic,Antimony,Bismuth by Hydride Generation-None Dispersion Atomic Fluorescence Spectrometry) 537
6.3.1 EDTA滴定法测定铝(Determination of Aluminium by EDTA Titration) 538
6.2.22 原子发射光谱法测定金属铅中杂质元素(Determination of impurity Elements in Lead Metal by Spectrographic Method) 538
6.3 锌及锌合金(Zinc and Zinc Alloys) 538
6.3.2 二乙基二硫代氨基甲酸铅吸光光度法测定铜(Determination of Copper by Lead Diethyldithio-carbamate Spectrophotometry) 539
6.3.4 砷钼蓝吸光光度法测定砷(Determination of Arsenic by Arseno-molybdenum Blue Spectrophotometry) 540
6.3.3 磺基水杨酸吸光光度法测定铁(Determination of Iron by Sulfosalicylic Acid Spectrophotometry) 540
6.3.5 火焰原子吸收光谱法测定铅、镉(Determination of Lead and Cadmium by Flame Atomic Absorption Spectrometry) 541
6.3.7 苯基荧光酮-CTAB吸光光度法测定锡(Determination of Tin by Phenyl Fluorone-CTAB Spectrophotometry) 542
6.3.6 火焰原子吸收光谱法测定锑(Determination of Antimony by Flame Atomic Absorption Spectrometry) 542
6.3.8 电热原子吸收光谱法测定铝(Determination of Aluminium by Electrothermal Atomic Absorption Spectrometry) 543
6.3.10 火焰原子吸收光谱法测定镁(Determination of Magnesium by Flame Atomic Absorption Spectrometry) 544
6.3.9 火焰原子吸收光谱法测定铁(Determinationof Iron by Flame Atomic Absorption Spectrometry) 544
6.3.12 铬天青S-OP-TPB吸光光度法测定铝(Determination of Aluminium by Chromazurol S Spectrophotometry) 545
6.3.11 火焰原子吸收光谱法测定铜(Determination of Copper by Flame Atomic Absorption Spectrometry) 545
6.3.13 硅钼蓝吸光光度法测定硅(Determination of Silicon by Silicon Molybdenum Blue Spectrophotometry) 546
6.3.14 电感耦合等离子发射光谱法测定RZnAl5RE合金中的镧、铈、铝、铁、铅、镉(Determination of Lanthanum,Cerium,Aluminum,Iron,Lead,Cadmium by ICP-AES) 547
6.3.15 原子发射光谱法测定金属锌中杂质元素(Determination of Impurity Elements in Zinc Metal by Spectrographic Method) 548
6.4.1 火焰原子吸收光谱法测定钴、铜、锰、镉、锌和铅(Determination of Cobalt,Copper,Manganese,Cadmium,Zinc and Lead by Flame Atomic Absorption Spectrometry) 549
6.4 镍(Nickel) 549
6.4.2 火焰原子吸收光谱法测定镁(Determination of Magnesium by Flame Atomic Absorption Spectrometry) 550
6.4.3 电热原子吸收光谱法测定砷、锑、铋、锡和铅(Determination of Arsenic,Antimony,Bismuth,Tin and Lead by Electrothermal Atomic Absorption Spectrometry) 551
6.4.4 磺基水杨酸吸光光度法测定铁(Determination of Iron by Sulfosalicylic Acid Spectrophotometry) 552
6.4.5 铬天青S-OP-TPB吸光光度法测定铝(Determination of Aluminium by Chromazurol S-p-Octyl Polyethylene Glycol Phenyl Ether-Tetradecyl Phridinium Bromine Spectrophotometry) 553
6.4.6 磷钼蓝吸光光度法测定磷(Determination of Phosphorus by Phosphorus Molybdenum Blue Spectrophotometry) 554
6.4.8 蒸馏-示波极谱法测定硫(Determination of Sulfur by Oscillopolarographic Method after Distillation) 555
6.4.7 硅钼蓝吸光光度法测定硅(Determination of Silicon by Silicon Molybdenum Blue Spectrophotometry) 555
6.4.9 高频感应炉燃烧红外吸收法测定碳和硫(Determination of Carbon and Sulfur by Infra-red Absorption Method after High Frequency Induction Furnace Combustion) 557
6.4.10 氢化物发生-原子荧光光谱法测定砷、锑、铋、硒和碲(Determination of Arsenic,Antimony,Bismuth,Selenium and Tellurium by Hydride Generation-Atomic Fluorescence Spectrometry) 558
6.4.12 原子发射光谱法测定金属镍中杂质元素(Determination of Impurity Elements in Nickel Metal by Spectrographic Method) 559
6.4.11 ICP-AES法测定金属镍中杂质元素(Determination of Impurities in Nickel Metal by ICP-AES) 559
6.5.1 磺基水杨酸吸光光度法测定铁(Determination of Iron by Sulfosalicylic Acid Spectrophotometry) 560
6.5 钴(Cobalt) 560
6.5.2 铬天青S-聚乙二醇辛基苯基醚-溴代十四烷基吡啶混合胶束增溶吸光光度法测定铝(Determination of Aluminum by Chrome azurol S-p-Octyl Polyethylene Glycol Phenyl Ether-Tetradecyl Phridinium Bromine Mixed Micellar Solubilization Spectrophotometry) 561
6.5.3 硅钼蓝吸光光度法测定硅(Determination of Silicon by Silicon Molybdenum Blue Spectrophotometry) 562
6.5.4 砷钼蓝吸光光度法测定砷(Determination of Arsenic by Arsenic Molybdenum Blue Spectrophotometry) 563
6.5.6 火焰原子吸收光谱法测定镁(Determination of Magnesium by Flame Atomic Absorption Spectrometry) 564
6.5.5 磷钼蓝吸光光度法测定磷(Determination of Phosphorus by Phosphorus Molybdenum Blue Spectrophotometry) 564
6.5.8 火焰原子吸收光谱法测定镉(Determination of Cadmium by Flame Atomic Absorption Spectrometry) 565
6.5.7 火焰原子吸收光谱法测定锌(Determination of Zinc by Flame Atomic Absorption Spectrometry) 565
6.5.9 火焰原子吸收光谱法测定铅(Determination of Lead by Flame Atomic Absorption Spectrometry) 566
6.5.11 火焰原子吸收光谱法测定铜、(Determination of Copper and Manganese by Flame Atomic Absorption Spectrometry) 567
6.5.10 火焰原子吸收光谱法测定镍(Determination of Nickel by Flame