ASTM F470 Standard Practice for Caking Temperature of Dry Electrostatic Toner
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- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
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- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
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- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
- 85
- ASTM F854 Standard Test Method for Cleanliness of Carbon Paper
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1042 Standard Practice for Estimating Toner and Dispersant Usage in Copiers Utilizing Liquid Developers
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
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- ASTM F854 Standard Test Method for Cleanliness of Carbon Paper
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1042 Standard Practice for Estimating Toner and Dispersant Usage in Copiers Utilizing Liquid Developers
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
- ASTM F854 Standard Test Method for Cleanliness of Carbon Paper
- ASTM F854 Standard Test Method for Cleanliness of Carbon Paper
- ASTM F1225 Standard Test Method for Measuring the Ribbon Exit Force for Film and Fabric Cartridges
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1042 Standard Practice for Estimating Toner and Dispersant Usage in Copiers Utilizing Liquid Developers
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
- ASTM F129 Standard Practice for Amount of Ink Deposit on Carbon Paper and Inked Ribbons, Other Than Fabric Type
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1042 Standard Practice for Estimating Toner and Dispersant Usage in Copiers Utilizing Liquid Developers
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
- ASTM F221 Standard Terminology Relating to Carbon Paper and Inked Ribbon Products and Images Made Therefrom
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1042 Standard Practice for Estimating Toner and Dispersant Usage in Copiers Utilizing Liquid Developers
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM E2390 Standard Guide for Examination of Documents Produced with Toner Technology
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1042 Standard Practice for Estimating Toner and Dispersant Usage in Copiers Utilizing Liquid Developers
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM F1434 Standard Practice for Estimating the Performance of a Fuser Oil in an Electrostatic Copier or Printer
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1042 Standard Practice for Estimating Toner and Dispersant Usage in Copiers Utilizing Liquid Developers
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F995 Standard Practice for Estimating Toner Usage in Copiers Utilizing Dry Two-Component Developer
- ASTM F1042 Standard Practice for Estimating Toner and Dispersant Usage in Copiers Utilizing Liquid Developers
- ASTM F1042 Standard Practice for Estimating Toner and Dispersant Usage in Copiers Utilizing Liquid Developers
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- Картотека зарубежных и международных стандартов
ASTM International
Standard Practice for Caking Temperature of Dry Electrostatic Toner
N F470
Annotation
This practice covers the determination of the temperature at which a dry toner will cake as storage temperatures are raised.
In certain cases the effects of pressure or pressure combined with heat can cause blocking and caking of a dry toner. This recommended practice does not provide for evaluation of such pressure effects.
This practice consists of testing samples at controlled temperatures and evaluating them for any sign of blocking after a specified period.
The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.
This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Автоматический перевод:
Утвержденный технологический процесс для температуры спекания сухого электростатического тонера
Эта практика покрывает определение температуры, при которой сухой тонер будет пирог, поскольку температуры хранения повышены.
