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Coating powders - Part 1: Determination of particle size distribution by sieving
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Basic data
| Standard ID | GB/T 21782.1-2025 (GB/T21782.1-2025) |
| Description (Translated English) | Coating powders - Part 1: Determination of particle size distribution by sieving |
| Sector / Industry | National Standard (Recommended) |
| Classification of Chinese Standard | G50 |
| Classification of International Standard | 87 |
| Word Count Estimation | 14,176 |
| Date of Issue | 2025-10-05 |
| Date of Implementation | 2026-02-01 |
| Older Standard (superseded by this standard) | GB/T 21782.1-2008 |
| Issuing agency(ies) | State Administration for Market Regulation and Standardization Administration of China |
GB/T 21782.1-2025: Coating powders - Part 1: Determination of particle size distribution by sieving
---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.
ICS 87
CCSG50
National Standards of the People's Republic of China
Replaces GB/T 21782.1-2008
Powder Coatings Part 1.Using Sieving Method
Determination of particle size distribution
(ISO 8130-1.2019, MOD)
Published on 2025-10-05
Implemented on February 1, 2026
State Administration for Market Regulation
The State Administration for Standardization issued a statement.
Table of contents
Preface III
Introduction V
1.Scope 1
2 Normative References 1
3.Terms and Definitions 1
4.Principle 1
5.Instruments 1
6 sampling 3
7.Selection of screening methods and screening selectivity 3
8.Preparation of test sieves 4
9.Experimental Steps 4
10.Representation of Results 5
11 Test Report 5
Appendix A (Informative) Screen Mesh Sizes for Test Sieve 6
References 7
Foreword
This document complies with the provisions of GB/T 1.1-2020 "Standardization Work Guidelines Part 1.Structure and Drafting Rules of Standardization Documents".
Drafting.
This document is Part 1 of GB/T 21782 "Powder Coatings". GB/T 21782 has the following parts published.
---Part 1.Determination of particle size distribution by sieving method;
---Part 2.Determination of density using a gas comparative hydrometer (arbitration method);
---Part 3.Determination of density using the liquid displacement specific gravity bottle method;
---Part 4.Calculation of the Lower Explosive Limit;
---Part 5.Determination of the flowability of powder-air mixtures;
---Part 7.Determination of mass loss during baking;
---Part 8.Assessment of the storage stability of thermosetting powders;
---Part 9.Sampling;
---Part 10.Determination of Deposition Efficiency;
---Part 11.Determination of the Flowability of Inclined Plates;
---Part 12.Determination of compatibility;
---Part 13.Particle Size Analysis by Laser Diffraction;
---Part 14.Terminology.
This document supersedes GB/T 21782.1-2008 "Powder Coatings - Part 1.Determination of Particle Size Distribution by Sieve Analysis". (The last sentence appears to be incomplete and unrelated to the preceding text.)
Compared to.2008, aside from structural adjustments and editorial changes, the main technical changes are as follows.
a) A new chapter on "Terms and Definitions" has been added (see Chapter 3);
b) A chapter on "Principles" has been added (see Chapter 4);
c) A vibrating screen device was added (see 5.3);
d) Increased the selection of screening methods and screening selectivity (see Chapter 7);
e) Manual screening and vibrating screening have been added (see 9.2, 9.4).
This document is modified to adopt ISO 8130-1.2019 "Powder coatings - Part 1.Determination of particle size distribution by sieving".
Compared with ISO 8130-1.2019, this document has undergone the following structural adjustments.
---Chapter 9, sections 9.3.1 to 9.3.4 correspond to sections 9.3.2 to 9.3.5 of ISO 8130-1.2019;
---Chapter 11, corresponding to Chapter 12 of ISO 8130-1.2019.
The technical differences between this document and ISO 8130-1.2019, and the reasons therefor, are as follows.
---The scope has been changed (see Chapter 1 of ISO 8130-1.2019) to suit my country's testing requirements and technical conditions;
---The standard upon which the "Terms and Definitions" are based has been changed, replacing ISO 8130-14.2014 with GB/T 21782.14 (see Chapter 3).
Chapter 3 of ISO 8130-1.2019 conforms to my country's actual operational requirements;
---The standard upon which the "Metal Wire Braided Mesh Test Sieve" is based has been changed, replacing ISO 3310-1.2016 with GB/T 6003.1 (see...).
5.1 (ISO 8130-1.2019, 5.1) conforms to the actual operational requirements in my country;
---The standard upon which the "Metal Perforated Plate Test Sieve" is based has been changed, replacing ISO 3310-2.2013 with GB/T 6003.2 (see...).
5.1 (ISO 8130-1.2019, 5.1) conforms to the actual operational requirements in my country;
---The standard for "sampling" has been changed, replacing ISO 15528 (see Chapter 6, ISO 8130-1.2019) with GB/T 3186.
(Chapter 6), which conforms to my country's actual operational requirements;
---The content regarding the "Airflow Screen Device" has been modified (see 9.3, 9.3.1 of ISO 8130-1.2019) to improve operability and facilitate this document.
application.
The following editorial changes have been made to this document.
---The note in Figure 1 has been deleted;
---The note for Chapter 10 has been deleted.
Please note that some content in this document may involve patents. The issuing organization of this document assumes no responsibility for identifying patents.
This document was proposed and is under the jurisdiction of the National Technical Committee on Standardization of Hazardous Chemicals Management.
This document was drafted by. Guangzhou Customs Technology Center, Fujian Wan'an Industrial Group Co., Ltd., Zhejiang Chaolang New Materials Co., Ltd., and Foshan.
Nanhai Jiaduocai Powder Coating Co., Ltd., Shanghai Chemical Industry Research Institute Testing Co., Ltd., Jiangsu Huaguang Holding Group Co., Ltd., Guangdong Huajiang Powder
Mo Technology Co., Ltd., and CNOOC Changzhou Coatings & Chemicals Research Institute Co., Ltd.
The main drafters of this document are. Liu Nengsheng, Li Zhengjun, Li Han, Huo Weijiang, Deng Liangjian, Xiao Qian, Huang Wen, Yang Qingwei, Li Liangjian, and Wu Hao.
Pan Xutao, Yi Xiaojun, Wu Xiangping.
The release history of this document and the document it replaces is as follows.
---First published in.2008 as GB/T 21782.1-2008;
---This is the first revision.
Introduction
The GB/T 21782 series of standards covers the testing and evaluation of key indicators of powder coatings, such as particle size distribution, density determination, and storage stability.
This series of standards defines a set of tests and applications for powder coatings. Each document in this series describes a specific set of tests and applications. The GB/T 21782 series of standards aims to provide a standard for powder coatings.
This standard provides a unified and reliable testing process for manufacturers and powder coating testers, and supports product quality control, safe production, and international standards.
Trade provides scientific support. The GB/T 21782 series of standards is proposed to consist of the following 13 parts.
---Part 1.Determination of Particle Size Distribution by Sieving Method. This part specifies two methods for determining particle size distribution. manual sieving and mechanical vibrating sieving.
Determine the particle size distribution and the mass percentage of residue on the sieve of the powder coating.
---Part 2.Determination of Density by Gas Comparative Hydrometer Method (Arbitration Method). This part specifies the method for determining density based on the principle of gas displacement, using gas...
A comparative method for determining the density of powder coatings using a specific gravity meter.
---Part 3.Determination of Density by Liquid Displacement Specific Gravity Bottle Method. This part specifies the method for determining density based on Archimedes' principle using liquid displacement specific gravity bottles.
A method for determining the density of powder coatings.
---Part 4.Calculation of the Lower Explosive Limit. This part specifies the calculation of the lower explosive limit of powder coatings based on the total calorific value or the calorific value of the combustible components.
The method of lower limit.
---Part 5.Determination of the flowability of powder-air mixtures. This part characterizes the flowability of powder-air mixtures by measuring the fluidization factor and powder flow rate.
Flow characteristics of powder during conveying and spraying.
---Part 7.Determination of mass loss during baking. This part specifies the application of powder coatings to substrates using an electrostatic spraying process.
Then, a method for measuring mass loss during the curing and baking process was developed.
---Part 8.Evaluation of the Storage Stability of Thermosetting Powders. This part assesses the storage stability of thermosetting powder coatings by placing them in specific storage environments.
In this study, storage stability is assessed by observing changes in free flow properties after storing the product at a specified temperature for a specified period of time.
---Part 9.Sampling. This part specifies the standard procedure for sampling from the delivery batch, and the quantitative reduction of the sample into test samples.
Technical requirements for the product.
---Part 10.Determination of Deposition Efficiency. This part specifies the spraying process for depositing on test samples under known spray gun and environmental conditions.
Methods for determining the percentage of powder by mass.
---Part 11.Determination of flowability of inclined plates. This part specifies the process for thermosetting powder coatings to melt downwards along an inclined plate at a fixed angle.
Methods for detecting the flow characteristics during melting and flow.
---Part 12.Compatibility Testing. This part specifies the surface properties of the final coating resulting from mixing two different powder coatings.
Methods for determining degradation.
---Part 13.Particle Size Analysis by Laser Diffraction. This part specifies the method for determining the equivalent spherical particle size of powder coatings by laser diffraction.
Distribution methods.
---Part 14.Terminology. This part defines the concepts of terms such as powder coating, deposition rate, and gelation time, providing a framework for the powder coating industry.
Provide a unified terminology standard.
Powder Coatings Part 1.Using Sieving Method
Determination of particle size distribution
1 Scope
This document describes the principle, instrumentation, sampling, selection of sieving methods, and sieving selectivity for determining the particle size distribution of powder coatings using the sieving method.
Preparation, test procedures, presentation of results, and test report for screening.
This document applies to particle size distribution determination in the range of 32μm to 300μm.
2 Normative references
The contents of the following documents, through normative references within the text, constitute essential provisions of this document. Dated citations are not included.
For references to documents, only the version corresponding to that date applies to this document; for undated references, the latest version (including all amendments) applies.
This document.
GB/T 3186 Sampling of paints and varnishes and their raw materials (GB/T 3186-2006, ISO 15528.2000, IDT)
GB/T 6003.1 Technical requirements and inspection of test sieves - Part 1.Metal Wire Braided Mesh Test Sieves (GB/T 6003.1-
2022, ISO 3310-1.2016, MOD)
GB/T 6003.2 Technical requirements and inspection of test sieves - Part 2.Metal perforated plate test sieves (GB/T 6003.2-2024)
ISO 3310-2.2013, IDT
GB/T 21782.14 Powder Coatings - Part 14.Terminology (GB/T 21782.14-2010, ISO 8130-14.2014, IDT)
3 Terms and Definitions
The terms and definitions defined in GB/T 21782.14 apply to this document.
4.Principles
The weighed powder coating is sieved into two or more parts using one or more test sieves, and the mass of the portion retained on the test sieve is determined.
Sieving analysis can be performed manually or mechanically. Coating powder particles can pass through the sieve due to gravity, shear force, and/or hydrodynamic force.
5 Instruments
5.1 Test sieves
5.1.1 The sieve mesh shall conform to the provisions of GB/T 6003.1 and GB/T 6003.2.The diameter of the circular sieve surface shall be.200 mm, or a diameter of [missing information] may be selected.
The sieve should have a 300mm sieve surface, and both the sieve frame and mesh should be made of metal. The sieve aperture size should be between 32μm and 300μm.
The dimensions may be determined through consultation among the relevant parties and should conform to the supplementary dimensions requirements in Appendix A. Test sieves should have a transparent sieve cover and a sieve bottom.
5.1.2 The selection of sieve aperture size can be determined based on actual conditions. When the particle size distribution of the sample is known, a sieve aperture size appropriate to the particle size range can be used.
The test sieve.
...
