GBZ43998-2024 English PDF

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GBZ43998-2024: Nanotechnologies - Assessment of the concentrations of carbon black and amorphous silica in nanoscale in a mixed dust manufacturing environment
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Similar standards

GB/T 43248   GB/T 34986   GB/T 32910.3   GB/T 43705   GB/Z 44005.1   

Basic data

Standard ID: GB/Z 43998-2024 (GB/Z43998-2024)
Description (Translated English): Nanotechnologies - Assessment of the concentrations of carbon black and amorphous silica in nanoscale in a mixed dust manufacturing environment
Sector / Industry: National Standard
Classification of Chinese Standard: L04
Classification of International Standard: 07.120
Word Count Estimation: 18,164
Date of Issue: 2024-04-25
Date of Implementation: 2024-11-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GBZ43998-2024: Nanotechnologies - Assessment of the concentrations of carbon black and amorphous silica in nanoscale in a mixed dust manufacturing environment

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
GB /Z 43998-2024: Method for determination of the concentration of nanoscale carbon black and amorphous silicon dioxide in the ambient air of nanotechnology mixed dust manufacturing environments ICS 07:120 CCSL04 Guiding technical documents of the People's Republic of China on national standardization Nanotechnology mixed dust manufacturing ambient air Nanoscale carbon black and amorphous silica concentration Measurement methods (ISO /T S21361:2019, Nanotechnologies-Method to quantify air Published on April 25, 2024, implemented on November 1, 2024 State Administration for Market Regulation The National Standardization Administration issued

Table of Contents

Preface III Introduction IV 1 Scope 1 2 Normative references 1 3 Terms and Definitions 1 4 Principle 2 5 Abbreviations 3 6 Reagent 3 7 Device 3 8 Air Sample Collection 6 9 Analysis Process 7 10 Uncertainty 9 11 Test Report 10 Appendix A (Informative) Case Study Overview 11 Reference 12

Foreword

This document is in accordance with the provisions of GB/T 1:1-2020 "Guidelines for standardization work Part 1: Structure and drafting rules for standardization documents" Drafting: This document is equivalent to ISO /T S21361:2019 "Carbon black and The document type was changed from ISO technical specification to my country's national standardization specification: Guidance technical documentation: The following minimal editorial changes were made to this document: --- Change the name of the standard to "Measurement of the concentration of nano-scale carbon black and amorphous silicon dioxide in the air of the nanotechnology mixed dust manufacturing environment Measurement Methods: --- Correct Table 2 mentioned in 8:3 to Table 3: Please note that some of the contents of this document may involve patents: The issuing organization of this document does not assume the responsibility for identifying patents: This document was proposed by the Chinese Academy of Sciences: This document is under the jurisdiction of the National Nanotechnology Standardization Technical Committee (SAC/TC279): This document was drafted by: Institute of Basic Medicine, Chinese Academy of Medical Sciences, National Center for Nanoscience and Technology, Zaozhuang University, Qingdao Metrology and Technology Institute, Beijing Academy of Science and Technology Analysis and Testing Institute (Beijing Physical and Chemical Analysis and Testing Center): The main drafters of this document are: Wen Tao, Meng Jie, Liu Jian, Wu Xiaochun, Ji Yinglu, Bai Ru, Liu Jianbo, Zou Yaxiong, Liu Wei and Gao Yuan:

Introduction

Nanomaterials are already widely used in industrial settings in the manufacturing of consumer products: Carbon black and/or amorphous silica are often used in rubber These nanomaterials usually exist in the form of aggregates larger than the nanometer scale, but they are not easily found in the production and consumption process: During the process of nanomaterials, people may also be exposed to air containing these nanomaterials: Although such nanomaterials are widely used, they are still not suitable for mixed dust environments: Measuring the air concentration of specific nanomaterials in environments such as manufacturing has been a technical challenge and has become a major challenge in developing nano-related professional skills: This document describes a method for identifying and differentiating materials by size in an industrial manufacturing environment: and (based on air concentration) measurement of carbon black and amorphous silica particles: Silicon, but the basic principles can be applied to other nanomaterials in a variety of manufacturing environments: This document provides a method to distinguish specific materials and Quantitative information of exposure,Existing methods only provide quantitative information of nanoparticle exposure, but cannot distinguish the type of material,,hence the superiority: This document describes the procedures for collecting air samples in a manufacturing environment and the test protocol for analyzing the samples to obtain the target material The information needed to measure the air concentration of the sample is given in [4]: This document describes the measurement of carbon black and/or amorphous silica particles in air samples collected from mixed dust industrial manufacturing environments: This document describes methods for the collection of air samples and the characterization of particle size and elemental composition in air samples: Particles in the air sample are collected at different levels of the cascade impactor, where the median particle size distribution at the cut point of the cascade impactor is The particle size distribution of the particles is between 6nm and 10μm: The impact sampler determines the real-time particle size distribution of the particles based on the aerodynamic diameter of the particles: Offline analysis of particles collected at different impact layers using TEM and EDS can identify amorphous dioxide Silicon and carbon black particles: TEM-EDS detection provides the elemental composition and origin of the particles in each impact layer: TEM in the TEM-EDS combination Scanning electron microscopy (SEM) can also be used instead: The concentration of target nanoparticles (particles/cm3) in a specific size range is determined by sampling from the cascade impactor: The total particle concentration (particles/cm3) of the sample obtained by the sampler in this size range and the target material (such as carbon black) in the particles by TEM-EDS The method described in this document is applicable to carbon black and amorphous silica: The particle size of the particles ranges from 6nm to 2:5μm, and can be observed by TEM/SEM and chemically characterized by EDS: This document: The high sensitivity of the method described in this paper makes it a representative approach for quantifying nanoparticles by size in chemical exposure environments: Existing methods for identifying and measuring chemical exposure particles in the nanometer size range are mostly based on the characterization of mass concentration: In this size range, the sensitivity of the method described in this document is superior to mass concentration measurements: In addition, although other sampling methods may be applicable The methods described in this document are intended for the quantification of specific nanoparticles in an exposure environment: This method can be used as a higher-level method for nanoscale measurements when the exposed areas have been identified by other methods: The sampling and assessment of occupational exposure of materials is carried out to further understand the nature of exposure: The analysis results can be compared with the baseline values of the healthy environment to In addition, this approach also helps to select appropriate individuals as needed at an early stage in the production process: Protective equipment: Nanotechnology mixed dust manufacturing ambient air Nanoscale carbon black and amorphous silica concentration Measurement methods

1 Scope

This document provides a description of the presence of carbon black and/or amorphous particles in air, based on particle size, in air samples collected in mixed dust industrial manufacturing environments: A guide for quantitative analysis and identification of the number concentration (particles/cm3) of shaped silica particles: This document describes the use of an ELPCI (Charged Low Pressure Cascade Impactor) to collect air samples on a 25 mm diameter polycarbonate membrane: This document is applicable to sampling of air containing various types of particles in manufacturing environments: Aerosols composed of particles with different physical properties or environments with controlled interference factors (such as diesel sources): Although other sampling methods May also be applicable, but this document is limited to describing methods relevant to ELPCI: The particle morphology and elemental composition of the samples collected by ELPCI were analyzed by TEM and EDS to determine the particle type: The information is combined with the size-particle concentration information determined by ELPCI to obtain the concentration of the target material in the air:

2 Normative references

The contents of the following documents constitute the essential clauses of this document through normative references in this document: For referenced documents without a date, only the version corresponding to that date shall apply to this document; for referenced documents without a date, the latest version (including all amendments) shall apply to This document: ISO 4225 Air quality-General aspects-Vocabulary Note: GB/T 6919-1986 Air quality vocabulary (eqvISO 4225:1980) ISO 10312 Ambient air - Determination of asbestos fibres - Direct transmission electron microscopy ISO /T S10798 Nanotechnology Characterization of single-walled carbon nanotubes using scanning electron microscopy and energy dispersive X-ray spectroscopy Note: GB/T 32869-2016 Nanotechnology Single-walled carbon nanotubes - Scanning electron microscopy and energy dispersive X-ray spectroscopy characterization method (ISO / TS10798:2011,MOD) ISO 22309 Microbeam analysis - Quantitative analysis of elements with atomic number greater than or equal to 11 (Na) by energy spectrometry Note: GB/T 17359-2023 Microbeam analysis of elements with atomic number not less than 11 - Quantitative analysis by energy dispersive spectrometry (ISO 22309:2011, MOD) ISO /T S80004-1 Nanotechnologies Vocabulary - Part 1: Core Terms Part 1: Core terms) Note: GB/T 30544:1-2014 Nanotechnology Terminology Part 1: Core Terminology (ISO /T S80004-1:2010, IDT)

3 Terms and definitions

For this document, the terms and definitions defined in ISO 4225 and ISO /T S80004-1 and the following apply: ......

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