ISO TR 12885 Nanotechnologies — Health and safety practices in occupational settings relevant to nanotechnologies - First Edition
Данный раздел/документ содержится в продуктах:
- Техэксперт: Машиностроительный комплекс
- Картотека зарубежных и международных стандартов
- ASTM E631 Standard Terminology of Building Constructions
- ASTM E1554/E1554M Standard Test Methods for Determining Air Leakage of Air Distribution Systems by Fan Pressurization
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ISO TS 21220 Particulate air filters for general ventilation - Determination of filtration performance - First Edition
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASTM E1554/E1554M Standard Test Methods for Determining Air Leakage of Air Distribution Systems by Fan Pressurization
- 01
- ASTM E631 Standard Terminology of Building Constructions
- ASTM E1554/E1554M Standard Test Methods for Determining Air Leakage of Air Distribution Systems by Fan Pressurization
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ISO TS 21220 Particulate air filters for general ventilation - Determination of filtration performance - First Edition
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASTM E1554/E1554M Standard Test Methods for Determining Air Leakage of Air Distribution Systems by Fan Pressurization
- 01.040
- ASTM E631 Standard Terminology of Building Constructions
- ASTM E1554/E1554M Standard Test Methods for Determining Air Leakage of Air Distribution Systems by Fan Pressurization
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ISO TS 21220 Particulate air filters for general ventilation - Determination of filtration performance - First Edition
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASTM E1554/E1554M Standard Test Methods for Determining Air Leakage of Air Distribution Systems by Fan Pressurization
- 01.040.91
- ASTM E631 Standard Terminology of Building Constructions
- ASTM E1554/E1554M Standard Test Methods for Determining Air Leakage of Air Distribution Systems by Fan Pressurization
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ISO TS 21220 Particulate air filters for general ventilation - Determination of filtration performance - First Edition
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASTM E1554/E1554M Standard Test Methods for Determining Air Leakage of Air Distribution Systems by Fan Pressurization
- ASTM E631 Standard Terminology of Building Constructions
- ASTM E631 Standard Terminology of Building Constructions
- ASTM E631 Standard Terminology of Building Constructions
- ASTM E1554/E1554M Standard Test Methods for Determining Air Leakage of Air Distribution Systems by Fan Pressurization
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ISO TS 21220 Particulate air filters for general ventilation - Determination of filtration performance - First Edition
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASTM E1258 Standard Test Method for Airflow Calibration of Fan Pressurization Devices
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ISO TS 21220 Particulate air filters for general ventilation - Determination of filtration performance - First Edition
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- ASME MFC-3M ADD Measurement of Fluid Flow in Pipes Using Orifice, Nozzle, and Venturi
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ISO TS 21220 Particulate air filters for general ventilation - Determination of filtration performance - First Edition
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- SNV SN EN ISO 29461-1 Air intake filter systems for rotary machinery - Test methods - Part 1: Static filter elements
- ISO TS 21220 Particulate air filters for general ventilation - Determination of filtration performance - First Edition
- ISO TS 21220 Particulate air filters for general ventilation - Determination of filtration performance - First Edition
- ISO 21501-1 Determination of particle size distribution - Single particle light interaction methods - Part 1: Light scattering aerosol spectrometer - First Edition
- BSI BS ISO 27891 Aerosol particle number concentration — Calibration of condensation particle counters
- ISO 15900 Determination of particle size distribution — Differential electrical mobility analysis for aerosol particles - First Edition
- CEN EN ISO 10801 Nanotechnologies - Generation of metal nanoparticles for inhalation toxicity testing using the evaporation/condensation method
- ASTM E631 Standard Terminology of Building Constructions
- Картотека зарубежных и международных стандартов
International Organization for Standardization
Nanotechnologies — Health and safety practices in occupational settings relevant to nanotechnologies - First Edition
N TR 12885
Annotation
This Technical Report describes health and safety practices in occupational settings relevant to nanotechnologies. The initial outline was prepared using U. S. NIOSH's Approaches to Safe Nanotechnology: An Information Exchange with NIOSH.1 This Technical Report focuses on the occupational manufacture and use of engineered nanomaterials. It does not address health and safety issues or practices associated with nanomaterials generated by natural processes, hot processes and other standard operations which unintentionally generate nanomaterials, or potential consumer exposures or uses, though some of the information in this Technical Report might be relevant to those areas. For more general information on the environment, health and safety of nanotechnologies, the reader can refer to other existing well documented reviews.2-7 Use of the information in this Technical Report could help companies, researchers, workers and other people to prevent adverse health and safety consequences during the production, handling, use and disposal of manufactured nanomaterials. This advice is broadly applicable across a range of nanomaterials and applications.
This Technical Report is based on current information about nanotechnologies, including characterization, health effects, exposure assessments, and control practices. The authors of the Technical Report have attempted to remain current with the use of terms and their definitions. However, definitions in this field are evolving and some terms have not yet undergone ISO consensus review. Therefore, the terms are intended to be used solely for the purpose of this Technical Report and not to be considered formal definitions beyond this Technical Report. It is expected that this Technical Report will be revised and updated and new safety standards will be developed as our knowledge increases and experience is gained in the course of technological advance.
