ISO 13099-3 Colloidal systems - Methods for zeta potential determination - Part 3: Acoustic methods - First Edition
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- ASTM E2246 Standard Test Method for Strain Gradient Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2244 Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ISO ISO/TR 18196 Nanotechnologies - Measurement technique matrix for the characterization of nano-objects - First Edition
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2244 Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer
- 37
- ASTM E2246 Standard Test Method for Strain Gradient Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2244 Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ISO ISO/TR 18196 Nanotechnologies - Measurement technique matrix for the characterization of nano-objects - First Edition
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2244 Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer
- 37.040
- ASTM E2246 Standard Test Method for Strain Gradient Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2244 Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ISO ISO/TR 18196 Nanotechnologies - Measurement technique matrix for the characterization of nano-objects - First Edition
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2244 Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer
- 37.040.20
- ASTM E2246 Standard Test Method for Strain Gradient Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2244 Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ISO ISO/TR 18196 Nanotechnologies - Measurement technique matrix for the characterization of nano-objects - First Edition
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2244 Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2246 Standard Test Method for Strain Gradient Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2246 Standard Test Method for Strain Gradient Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2246 Standard Test Method for Strain Gradient Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2244 Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ISO ISO/TR 18196 Nanotechnologies - Measurement technique matrix for the characterization of nano-objects - First Edition
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2245 Standard Test Method for Residual Strain Measurements of Thin, Reflecting Films Using an Optical Interferometer
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ISO ISO/TR 18196 Nanotechnologies - Measurement technique matrix for the characterization of nano-objects - First Edition
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ASTM E2530 Standard Practice for Calibrating the Z-Magnification of an Atomic Force Microscope at Subnanometer Displacement Levels Using Si (111) Monatomic Steps
- ISO ISO/TR 18196 Nanotechnologies - Measurement technique matrix for the characterization of nano-objects - First Edition
- ISO ISO/TR 18196 Nanotechnologies - Measurement technique matrix for the characterization of nano-objects - First Edition
- ISO 13099-3 Colloidal systems - Methods for zeta potential determination - Part 3: Acoustic methods - First Edition
- ISO 13099-2 Colloidal systems - Methods for zeta-potential determination - Part 2: Optical methods - First Edition
- BSI BS ISO 13099-3 Colloidal systems — Methods for zeta potential determination Part 3: Acoustic methods
- ISO 13099-1 Colloidal systems - Methods for zeta-potential determination - Part 1: Electroacoustic and electrokinetic phenomena - First Edition
- ASTM E2246 Standard Test Method for Strain Gradient Measurements of Thin, Reflecting Films Using an Optical Interferometer
- Картотека зарубежных и международных стандартов
International Organization for Standardization
Colloidal systems - Methods for zeta potential determination - Part 3: Acoustic methods - First Edition
N 13099-3
Annotation
This part of ISO 13099 describes in general electroacoustic effects than can be defined as high frequency eletrokinetic phenomena.
Particular attention is given to two methods of measurement of electrophoretic mobility of particles suspended in a liquid at high concentration above 1 % v/v, colloid vibration current (CVI)[2] and electric sonic amplitude (ESA), [3] [4] respectively.
Estimation of surface charge and determination of zeta potential can be achieved from measured electrophoretic mobility using proper theoretical models, which are described in detail in ISO 13099-1.
Автоматический перевод:
Коллоидные системы - Методы для определения потенциала дзэты - Часть 3: Акустические методы - Первый Выпуск
Эта часть ISO 13099 описывает в общих электроакустических эффектах, чем можно определить как высокая частота eletrokinetic явления.
Особое внимание обращено на два метода измерения электрофоретической мобильности частиц, приостановленных в жидкости при высокой концентрации выше 1% v/v, коллоидальный ток вибрации (CVI) [2] и электрическая звуковая амплитуда (ESA), [3] [4] соответственно.
