颗粒计数器检测标准颗粒计数器-中析研究所检测

(CMA)

(CNAS)

(ISO)

(高新技术企业)

颗粒计数器相关标准参考信息

GB/T 29024.4-2017 粒度分析单颗粒的光学测量方法第4部分：洁净间光散射尘埃粒子计数器
简介：
信息：ICS：19.120 CCS：A28 发布：2017-09-29 实施：2018-04-01 00:00:00.0

ISO 11171-2016 液压传动.液体自动颗粒计数器的校准
简介：
信息：ICS：23.100.60 CCS：J20 发布：2016-10 实施：

KS B ISO 11171-2008 液压传动.液体自动颗粒计数器的校准
简介：이 표준은 액체용 자동 입자 계수기의 보정에 대하여 규정한다.이 표준은 다음 사항에
信息：ICS：23.100.60 CCS：J71 发布：2008-08-28 实施：2008-08-28

GB/T 29024.2-2016 粒度分析单颗粒的光学测量方法第2部分:液体颗粒计数器光散射法
简介：
信息：ICS： CCS：发布：2016-02-24 实施：2016-06-01

JIS B9932-2015 液压流体动力.流体自动颗粒计数器的校准
简介：
信息：ICS：23.100.60 CCS：J20 发布：2015-12-21 实施：

ASTM D6786-08 使用自动光学粒子计数器的矿物绝缘油中颗粒计数的标准测试方法
简介：
信息：ICS：91.100.15 CCS：发布：2008-01-01 实施：

GB/T 18854-2015 液压传动液体自动颗粒计数器的校准
简介：
信息：ICS： CCS：发布：2015-12-31 实施：2016-07-01

ASTM D6786-15 使用自动光学粒子计数器的矿物绝缘油中颗粒计数的标准测试方法
简介：
信息：ICS：91.100.15 CCS：发布：2015-10-01 实施：

ASTM D6786-07 使用自动光学粒子计数器的矿物绝缘油中颗粒计数的标准测试方法
简介：
信息：ICS：91.100.15 CCS：发布：2007-12-01 实施：

GB/T 18854-2015 液压传动液体自动颗粒计数器的校准
简介：
信息：ICS：/ CCS：/ 发布：2015-12-31 实施：0000-00-00

BS ISO 27891-2015 气溶胶颗粒数量浓度. 凝聚粒子计数器的校准
简介：
信息：ICS：19.120 CCS：发布：2015-03-31 实施：2015-03-31

BS ISO 16232-9-2007 道路车辆.液压管路部件清洁度.自动消光颗粒计数器测量粒径和计数
简介：This part of ISO 16232 defines methods for determining the size distribution of particulate contaminants extracted from automotive components using techniques described in ISO 16232-3, ISO 16232-4 and ISO 16232-5, using automatic light extinction particle counter instruments (APC). It only applies to the analysis of the whole volume of extraction liquid. The size range of particles that can be measured by this technique is limited to
信息：ICS：43.040.99 CCS：T32 发布：2007-06-29 实施：2007-06-29

GB/T 29024.3-2012 粒度分析单颗粒的光学测量方法：第3部分：液体颗粒计数器光阻法
简介：GB/T 29024的本部分规定了光阻法液体颗粒计数器(LELPC)的校准和检定方法,该仪器用来测量悬浮在液体中的颗粒粒径和颗粒数量浓度、本部分描述的光阻法基于对单颗粒的测量,由该方法测定的典型粒径范围是1 μm~100 μm、该仪器既可用于评价药品(如:注射剂、注射用水、静脉注射液)的洁净度,也可用于测量各种液体中的颗粒数量浓度及粒度分布、本部分包括以下几方面:--粒径校准;--粒径设定值的验证;--计数准确性;--粒径分辨力;--最大颗粒数量浓度;--取样流量;--取样时间;--取样体积;--校准周期;--测试报告、
信息：ICS：19.120 CCS：A28 发布：2012-12-31 实施：2013-10-01

DIN 33899-2-2014 工作场所暴露. 气溶胶检测用直读仪器的使用指南. 第2部分: 采用光学粒子计数器评估气载颗粒浓度
简介：
信息：ICS：13.040.30 CCS：C70 发布：2014-02 实施：

ISO 16232-9-2007 道路车辆.液压管路部件清洁度.第9部分:用自动消光颗粒计数器测量粒径和计数
简介：This part of ISO 16232 defines methods for determining the size distribution of particulate contaminantsextracted from automotive components using techniques described in ISO 16232-3, ISO 16232-4 andISO 16232-5, using automatic light extinction particle counter instruments (APC).It only applies to the analysis of the whole volume of extraction liquid.The size range of particles that can be measured by this technique is limited to
信息：ICS：13.040.50;43.180 CCS：T32 发布：2007-06-01 实施：2007-06-01

GB/T 18854-2002 液压传动液体自动颗粒计数器的校准
简介：本标准提供了用于液体自动颗粒计数器校准的方法和程序，以此作为校准者的一种指导，包括： a）一次颗粒尺寸校准、传感器分辨力和计数性能的确定； b）使用NIST标准物质制成的悬浮液进行二次颗粒尺寸校准； c）确定合格的工作范围和性能极限； d）使用ISO UFTD校验颗粒传感器的性能； e）测定重合误差极限和流速极限。
信息：ICS：23.100.60;29.240.01 CCS：J20 发布：2002-10-11 实施：2003-05-01

NB/SH/T 0868-2013 喷气燃料洁净度的测定.便携式自动颗粒计数器法
简介：本标准规定了测定粒径从4μm ~ 30μm的尘粒和微小水滴在喷气燃料中分散程度的方法,每毫升试样中累计计数最大可以测定到60000。
信息：ICS：75.160.20 CCS：E31 发布：2013-06-08 实施：2013-10-01

ISO 16232-9:2007 道路车辆——流体回路部件的清洁度Spart 9:自动消光颗粒计数器的颗粒尺寸和计数
简介：
信息：ICS：13.040.50 CCS：发布：2007-05-10 实施：

GB/T 6167.2-1985 尘埃粒子计数器性能试验方法颗粒数浓度
简介：本方法适用于光散射式尘埃粒子计数器对空气中尘埃粒子的颗粒数浓度的测量准确程度进行评价。
信息：ICS：91.140.30 CCS：P46 发布：1985-06-18 实施：1986-04-01

ASTM D7619-12b 通过自动粒子计数器对光和中间馏分燃料中的颗粒进行尺寸和计数的标准测试方法
简介：
信息：ICS：75.160.20 CCS：发布：2012-12-01 实施：

ASTM D6786-2007 使用自动光粒子计数器测定矿物绝缘油中的颗粒数量的标准试验方法
简介：Particles in insulating oil can have a detrimental effect on the dielectric properties of the fluid, depending on the size, concentration, and nature of the particles. The source of these particles can be external contaminants, oil degradation by-products, or internal materials such as metals, carbon, or cellulose fibers. Particle counts provide a general degree of contamination level and may be useful in accessing the condition of specific types of electrical equipment. Particle counts can also be used to determine filtering effectiveness when processing oil. If more specific knowledge of the nature of the particles is needed, other tests such as metals analysis or fiber identification and counting must be performed.1.1 This test method covers the determination of particle concentration and particle size distribution in mineral insulating oil. It is suitable for testing oils having a viscosity of 6 to 20 cSt at 40x00B0;C. The test method is specific to liquid automatic particle analyzers that use the light extinction principle. 1.2 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.
信息：ICS：91.100.15 (Mineral materials and products) CCS：发布：2007 实施：

ASTM D7619-22 用自动颗粒计数器测定轻馏分和中间馏分燃料中颗粒大小和计数的标准试验方法
简介：
信息：ICS：75.160.20 CCS：发布：2022-04-01 实施：

SN/T 3230-2012 航空涡轮燃料洁净度的测定.便携式自动颗粒计数器法
简介：本标准规定了测定分散在航空涡轮燃料中颗粒的方法。本标准适用于粒径在4μm～30μm，总累计计数在60000个/mL范围内的尘埃和水滴的测定。
信息：ICS： CCS：E31 发布：2012-10-23 实施：2013-05-01

GJB 380.3A-2004 航空工作液污染测试第3部分：自动颗粒计数器校准
简介：
信息：ICS： CCS：发布：2004-09-01 实施：2004-12-01

ISO 11171-2022 液压传动.液体自动颗粒计数器的校准
简介：
信息：ICS：23.100.60 CCS：发布：2022-03-18 实施：

ASTM D7619-12a 通过自动粒子计数器对光和中间馏分燃料中的颗粒进行尺寸和计数的标准测试方法
简介：
信息：ICS：75.160.20 CCS：发布：2012-06-01 实施：

SAE AIR 5455-2003 试验尘埃污染物和颗粒计数器校准的变化对实验室过滤器元件性能和液体清洁度等级的影响
简介：This SAE Aerospace Information Report (AIR) discusses the impact of the ISO Test Dusts, chosen as replacement contaminants for the Arizona Test Dusts (AC Test Dusts), and the ISO calibration procedure ISO 11171 for automatic particle counters, which replaces the calibration procedure ISO 4402 (1991), on laboratory performance of filter elements utilized in aerospace lubrication, hydraulic and fuel systems, and fluid cleanliness levels determined with automatic particle counters.
信息：ICS：49.080 CCS：Z15 发布：2003-07-01 实施：

ISO 11171:2022 液压传动.液体自动颗粒计数器的校准
简介：
信息：ICS：23.100.60 CCS：发布：2022-03-18 实施：

ASTM D7619-12 通过自动粒子计数器对光和中间馏分燃料中的颗粒进行尺寸和计数的标准测试方法
简介：
信息：ICS：75.160.20 CCS：发布：2012-04-15 实施：

JIS B9932-2003 液压流体动力.流体自动颗粒计数器的校准
简介：この規格は，次の手順を含む液体用自動粒子計数器の校正方法について規定する。
信息：ICS：23.100.60 CCS：J20 发布：2003-03-20 实施：

NF E48-663-2021 液压传动. 液体自动颗粒计数器的校准
简介：Domaine d'applicationLe présent document spécifie des modes opératoires portant sur les aspects suivants :a) l'étalonnage dimensionnel primaire pour des tailles de particules supérieures ou égales à 1 micron m (c) , la résolution du capteur et les performances de comptage des com
信息：ICS：23.100.60 CCS：J20 发布：2021-01-23 实施：2021-01-23

SAE AIR 5455A-2012 试验尘埃污染物和颗粒计数器校准的变化对实验室过滤器元件性能和液体清洁度等级的影响
简介：This document has been declared "Stabilized" and will no longer be subjected to periodic reviews for currency. Users are responsible for verifying references and continued suitability or technical requirements. New technology may exist. This SAE Aerospace Information Report (AIR) discusses the impact of the ISO Test Dusts, chosen as replacement contaminants for the Arizona Test Dusts (AC Test Dusts), and the ISO calibration procedure ISO 11171 for automatic particle counters, which replaces the calibration procedure ISO 4402 (1991), on laboratory performance of filter elements utilized in aerospace lubrication, hydraulic and fuel systems, and fluid cleanliness levels determined with automatic particle counters.
信息：ICS：49.080 CCS：V29 发布：2012-01-03 实施：

ISO/TR 16144:2002 液压流体动力——液体自动颗粒计数器的校准——用于认证标准参考材料SRM 2806的程序
简介：
信息：ICS：23.100.60 CCS：发布：2002-10-22 实施：

ASTM D8166-21 使用连续流量和瓶子取样器自动粒子计数器测定轻质和中等馏分燃料和生物柴油混合物（B6至B20）中的颗粒大小和计数的标准测试方法
简介：
信息：ICS：75.160.20 CCS：发布：2021-01-01 实施：

ASTM D7619-2012b 通过自动颗粒计数器在轻质和中间馏出燃料颗粒的粒度测量和计数方法的标准试验方法
简介：5.1x00a0;This test method is intended for use in the laboratory or in the field for evaluating the cleanliness of distillate fuels, and liquid bio fuels. It is not applicable to on or in-line applications. 5.2x00a0;This test method offers advantage over traditional filtration methods in that it is a precise rapid test, and advantage over visual methods as it is not subjective. 5.3x00a0;An increase in particle counts can indicate a change in the fuel condition caused by storage or transfer for example. 5.4x00a0;High levels of particles can cause filter blockages and have a serious impact on the life of pumps, injectors, pistons and other moving parts. Knowledge of particle size in relation to the metallurgy can provide vital information especially if the hardness of particles is also known from other sources. 5.5x00a0;This test method specifies a minimum requirement for reporting measurements in particle size bands (see A1.1.2). Some specific applications may require measurements in other particle size bands. 5.6x00a0;Obtaining a representative sample and following the recommended sample and test specimen preparation procedures and timescales is particularly important with particle counting methods. (See Sections 8, 10, 14.1.4 and Note 8.) 1.1x00a0;This test method uses a specific automatic particle counter2 (APC) to count and measure the size of dispersed dirt particles, water droplets and other particles, in light and middle distillate fuel, and bio fuels such as biodiesel and biodiesel blends, in the overall range from 4 x00b5;m(c) to 100 x00b5;m(c) and in the size bands x2265;4 x00b5;m(c), x2265;6 x00b5;m(c), and x2265;14 x00b5;m(c). Note 1x2014;ASTM and military specification fuels falling within the scope of this test method include Specifications: D975 grades 1D and 2D, D1655, D3699, D4814 (see 14.1.1.1), D6751, D7467, distillate grades of D396 and
信息：ICS：75.160.20 (Liquid fuels) CCS：E31 发布：2012 实施：

ASTM D6786-02 使用自动光学粒子计数器的矿物绝缘油中颗粒计数的标准测试方法
简介：
信息：ICS：91.100.15 CCS：发布：2002-04-10 实施：

ISO 11171:2020 液压油功率 - 液体自动颗粒计数器的校准
简介：
信息：ICS：23.100.60 CCS：发布：2020-11-19 实施：

ASTM D7619-2012a 通过自动颗粒计数器在轻质和中间馏出燃料颗粒的粒度测量和计数方法的标准试验方法
简介：This test method is intended for use in the laboratory or in the field for evaluating the cleanliness of distillate fuels, and liquid bio fuels. It is not applicable to on or in-line applications. This test method offers advantage over traditional filtration methods in that it is a precise rapid test, and advantage over visual methods as it is not subjective. An increase in particle counts can indicate a change in the fuel condition caused by storage or transfer for example. High levels of particles can cause filter blockages and have a serious impact on the life of pumps, injectors, pistons and other moving parts. Knowledge of particle size in relation to the metallurgy can provide vital information especially if the hardness of particles is also known from other sources. This test method specifies a minimum requirement for reporting measurements in particle size bands (see A1.1.2). Some specific applications may require measurements in other particle size bands. Obtaining a representative sample and following the recommended sample and test specimen preparation procedures and timescales is particularly important with particle counting methods. (See Sections 8, 10, 14.1.4 and Note 8.)1.1 This test method uses a specific automatic particle counter (APC) to count and measure the size of dispersed dirt particles, water droplets and other particles, in light and middle distillate fuel, and bio fuels such as biodiesel and biodiesel blends, in the overall range from 4 x00B5;m(c) to 100 x00B5;m(c) and in the size bands x2265;4 x00B5;m(c), x2265;6 x00B5;m(c), and x2265;14 x00B5;m(c). Note 18212;ASTM specification fuels falling within the scope of this test method include Specifications: D975 grades 1D and 2D, D1655, D3699, D4814 (see 14.1.1.1), D6751, D6985, D7467 and distillate grades of D396 and D2880. Note 28212;For the purposes of this test method, water droplets are counted as particles, and agglomerated particles are detected and counted as a single larger particle. Dirt includes biological particles. Although the projected area of a particle is measured, this is expressed as the diameter of a sphere for the purposes of this test method. Note 38212;The notation (c), used with particle sizes, is used to denote that the apparatus has been calibrated in accordance with ISO 11171. Strictly this only applies to particles up to 50 x00B5;m. Note 48212;This test method may be used for particle sizes bands up to 100 x00B5;m(c), however the precision has only been determined for the size bands x2265;4 x00B5......
信息：ICS：75.160.20 (Liquid fuels) CCS：E31 发布：2012 实施：

ISO 11171 CORR 1-2001 液压传动液体自动颗粒计数器的校准技术勘误1
简介：This is Technical Corrigendum 1 to ISO 11171-1999 (Hydraulic fluid power — Calibration of automatic particle counters for liquids)
信息：ICS：23.100.60 CCS：J20 发布：2001-10 实施：

ISO 11171-2020 液压传动. 液体自动颗粒计数器的校准
简介：
信息：ICS：23.100.60 CCS：J20 发布：2020-11-00 实施：

ASTM D7619-2012 通过自动颗粒计数器在轻质和中间馏出燃料颗粒的粒度测量和计数方法的标准试验方法
简介：This test method is intended for use in the laboratory or in the field for evaluating the cleanliness of distillate fuels, and liquid bio fuels. It is not applicable to on or in-line applications. This test method offers advantage over traditional filtration methods in that it is a precise rapid test, and advantage over visual methods as it is not subjective. An increase in particle counts can indicate a change in the fuel condition caused by storage or transfer for example. High levels of particles can cause filter blockages and have a serious impact on the life of pumps, injectors, pistons and other moving parts. Knowledge of particle size in relation to the metallurgy can provide vital information especially if the hardness of particles is also known from other sources. This test method specifies a minimum requirement for reporting measurements in particle size bands (see A1.1.2). Some specific applications may require measurements in other particle size bands. Obtaining a representative sample and following the recommended sample and test specimen preparation procedures and timescales is particularly important with particle counting methods. (See Sections 8, 10, 14.1.4 and Note 8.)1.1 This test method uses a specific automatic particle counter (APC) to count and measure the size of dispersed dirt particles, water droplets and other particles, in light and middle distillate fuel, and bio fuels such as biodiesel and biodiesel blends, in the overall range from 4 x00B5;m(c) to 100 x00B5;m(c) and in the size bands x2265;4 x00B5;m(c), x2265;6 x00B5;m(c), and x2265;14 x00B5;m(c). Note 18212;ASTM specification fuels falling within the scope of this test method include Specifications: D975 grades 1D and 2D, D3699, D4814 (see 14.1.1.1), D6751, D6985, D7467 and distillate grades of D396 and D2880. Note 28212;For the purposes of this test method, water droplets are counted as particles, and agglomerated particles are detected and counted as a single larger particle. Dirt includes biological particles. Although the projected area of a particle is measured, this is expressed as the diameter of a sphere for the purposes of this test method. Note 38212;The notation (c), used with particle sizes, is used to denote that the apparatus has been calibrated in accordance with ISO 11171. Strictly this only applies to particles up to 50 x00B5;m. Note 48212;This test method may be used for particle sizes bands up to 100 x00B5;m(c), however the precision has only been determined for the size bands x2265;4 x00B5;m(c), x2265;6 x00B5;m(c), and ......
信息：ICS：75.160.20 CCS：E31 发布：2012 实施：

ANSI/ASTM F649-2001 用比较程序进行气载颗粒计数器二次校正惯例
简介：This practice covers procedures for adjusting the size ranges of an airborne discrete particle counter (DPC) to match size/concentration data from a reference DPC that has been calibrated for counting and sizing accuracy in accordance with Practice F 328 and is kept in good working order. The practice is applied in situations where time, capabilities, or both, required for carrying out procedures in Practice F 328 are not available. It is particularly useful where more than one DPC may be required to observe an environment where the particulate material being counted and sized is different in composition from the precision spherical particulate materials used for calibration in Practice F 328 and/or all of the DPCs in use are not similar in optical or electronic design. Procedures covered here include those to measure sampled and observed air volume or flow rate, zero count level, particle sizing and counting accuracy, particle sizing resolution, particle counting efficiency, and particle concentration limit.
信息：ICS：17.020 CCS：N50 发布：2001 实施：

KS B ISO 11171-2017(2022) 液压传动－液体自动颗粒计数器的校准
简介：
信息：ICS：23.100.60 CCS：发布：2017-12-26 实施：

NF R19-501-9-2011 道路车辆.液压管路部件清洁度.第9部分:自动消光颗粒计数器测量粒径和计数.
简介：
信息：ICS：43.040.99 CCS：T32 发布：2011-02-01 实施：2011-02-12

JIS B9932-2000 液压动力.液体自动颗粒计数器的校正
简介：
信息：ICS：23.100.60 CCS：J20 发布：2000-08-20 实施：

ASTM D8166-17 使用连续流量和瓶子取样器自动粒子计数器测定轻质和中等馏分燃料和生物柴油混合物（B6至B20）中的颗粒大小和计数的标准测试方法
简介：
信息：ICS：75.160.20 CCS：发布：2017-12-01 实施：

NF E48-663-2011 液压传动.液体自动颗粒计数器的校准.
简介：
信息：ICS：23.100.60 CCS：J20 发布：2011-01-01 实施：2011-01-22

ANSI/ASTM F658-2000 使用近似单向扩散球形颗粒材料定义液体传送颗粒计数器的尺寸、校准、分辨率和计数精度惯例
简介：This practice covers procedures for calibrating and determining performance of an optical liquid-borne particle counter (LPC) which uses an optical system based upon light extinction measurement. This practice is directed towards determination of accuracy and resolution of the LPC for characterizing the size and number of particles, which have been passed into the sample inlet of the LPC. Consideration of inlet sampling efficiency is not part of this practice. The procedures covered in this practice include those to measure sample volume and flow rate, zero count level, particle sizing and counting accuracy, particle sizing resolution, particle counting efficiency, and particle concentration limit. The particle size parameter reported in this practice is the equivalent optical diameter based on projected area of calibration particles with known physical properties dispersed in liquid. The manufacturer normally specifies the minimum diameter that can be reported by an LPC; the dynamic range of the LPC being used determines the maximum diameter that can be reported for a single sample. Typical minimum reported diameters are approximately 2 'm, and a typical dynamic range specification will be approximately from 50 to 1. The counting rate capability of the LPC is limited by temporal coincidence of particles in the sensing volume of the LPC and by the saturation level or maximum counting rate capability of the electronic sizing and counting circuitry. Coincidence is defined as the simultaneous presence of more than one particle within the LPC optically defined sensing zone at any time. The coincidence limit is a statistical function of particle concentration in the sample and the sensing zone volume when particle size is insignificant in comparison to the sensing volume dimensions. This limitation may be modified by the presence of particles with dimension so large as to be a significant fraction of the sensing zone dimension. The saturation level rate of the electronic counting circuitry shall be specified by the manufacturer and is normally greater than the LPC recommended maximum counting rate for the particle concentrations used for any portion of this practice. Calibration in accordance with all parts of this practice may not be required for routine field calibration of an LPC unless significant changes have occurred in operation of the LPC or major component repairs or replacements have been made. The LPC shall then be taken to a suitable metrology facility for complete calibration. Normal routine field calibration may determine sample flow rate, zero count level, and particle sizing accuracy. The specific LPC functions to be calibrated shall be determined on the basis of agreement between the purchaser and the user. The maximum time interval between calibrations shall be determined by agreement between the purchaser and the user, but shall not exceed twelve months, unless LPC stability for longer periods is verified by measurements in accordance with this practice. This standard may involve hazardous materials, operation, and equipment. 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.
信息：ICS：17.020 CCS：G04 发布：2000 实施：

ASTM D7619-17 通过自动粒子计数器对光和中间馏分燃料中的颗粒进行尺寸和计数的标准测试方法
简介：
信息：ICS：75.160.20 CCS：发布：2017-07-01 实施：

ISO 11171-2010 液压传动.液体自动颗粒计数器的校准
简介：This International Standard specifies procedures for:a)primary particle-sizing calibration, sensor resolution and counting performance of automatic particle counters (APCs) for liquids capable of analysing bottle samples;b)secondary particle-sizing calibration using suspensions verified with a primary calibrated APC;c)establishing acceptable operation and performance limits;d)verifying particle sensor performance using a truncated test dust;e)determining coincidence and flow rate limits.
信息：ICS：23.100.60 CCS：J20 发布：2010-11-01 实施：2010-11-01

ISO 11171:1999 液压油功率 - 液体自动颗粒计数器的校准
简介：
信息：ICS：23.100.60 CCS：发布：1999-12-09 实施：

GOST 34236-2017 轻馏分和中馏分燃料. 用自动颗粒计数器测定粒度和计数颗粒
简介：
信息：ICS：75.160.20 CCS：发布：2017-00-00 实施：2019-07-01

JJG 1061-2010 液体颗粒计数器检定规程
简介：本规程适用于采用光阻法、电阻法原理测量液体中微米级固体颗粒粒径和数量浓度的液体颗粒计数器(血细胞分析仪除外)的首次检定、后续检定和使用中检验。
信息：ICS： CCS：A50 发布：2010-09-06 实施：2010-12-06

ISO 11171-1999 液压传动液体自动颗粒计数器的校准
简介：This International Standard contains procedures for:a) primary particle-sizing, sensor resolution and counting performance;b) secondary particle-sizing calibration using suspensions prepared with NIST reference materials;c) establishing acceptable operation and performance limits;d) verifying particle sensor performance using a truncated test dust;e) determining coincidence and flow rate limits.
信息：ICS：23.100.60 CCS：J20 发布：1999-12 实施：

ASTM D7619-2017 利用自动颗粒计数器对轻质中间馏出燃料中的粒子进行尺寸测定和计数的标准试验方法
简介：5.1x00a0;This test method is intended for use in the laboratory or in the field for evaluating the cleanliness of distillate fuels, and liquid bio fuels. It is not applicable to on or in-line applications. 5.2x00a0;This test method offers advantage over traditional filtration methods in that it is a precise rapid test, and advantage over visual methods as it is not subjective. 5.3x00a0;An increase in particle counts can indicate a change in the fuel condition caused by storage or transfer for example. 5.4x00a0;High levels of particles can cause filter blockages and have a serious impact on the life of pumps, injectors, pistons and other moving parts. Knowledge of particle size in relation to the metallurgy can provide vital information especially if the hardness of particles is also known from other sources. 5.5x00a0;This test method specifies a minimum requirement for reporting measurements in particle size bands (see A1.1.2). Some specific applications may require measurements in other particle size bands. 5.6x00a0;Obtaining a representative sample and following the recommended sample and test specimen preparation procedures and timescales is particularly important with particle counting methods. (See Sections 8, 10, 14.1.4 and Note 8.) 5.7x00a0;This test method can also be used to estimate the total particulate counts excluding free water droplets in aviation turbine fuels by a chemical pretreatment of the fuel. See Appendix X2. 1.1x00a0;This test method uses a specific automatic particle counter2 (APC) to count and measure the size of dispersed dirt particles, water droplets and other particles, in light and middle distillate fuel, and bio fuels such as biodiesel and biodiesel blends, in the overall range from 48201;x00b5;m(c) to 1008201;x00b5;m(c) and in the size bands x2265;48201;x00b5;m(c), x2265;68201;x00b5;m(c), and x2265;148201;x00b5;m(c). Note 1:x00a0;ASTM and military specification fuels falling within the scope of this test method include Specifications: D975 grades 1D and 2D, D1655, D3699, D4814 (see 14.1.1.1), D6751, D7467, distillate grades of D396 and D2880, MIL-DTL-83133, and MIL-DTL-16884. Note 2:x00a0;For the purposes of ......
信息：ICS：75.160.20 CCS：E31 发布：2017 实施：

ASTM D7619-10 用自动颗粒计数器测定轻馏分和中间馏分燃料中颗粒大小和计数的标准试验方法
简介：
信息：ICS：75.160.20 CCS：发布：2010-05-01 实施：

DIN 50452-3-1995 半导体工艺材料的检验.液体中颗粒分析的试验方法.第3部分:光学粒子计数器校正
简介：The document describes methods for the determination of measuring deviations of particle sizes, particle concentrations and the resolving capacity of optical particle counters based upon measuring of the laser light-scattering.,,
信息：ICS：29.040.30 CCS：H82 发布：1995-10 实施：

SH/T 0940-2016 使用特定的四合一试验仪分析在用润滑油的试验方法（原子发射光谱、红外光谱、粘度和激光颗粒计数器）
简介：
信息：ICS：75.160 CCS：E31 发布：2016-12-05 实施：2017-05-01

ASTM D7619-2010 使用自动粒子计数器确定轻质和中间馏分燃料的粒度尺寸和颗粒数量的标准试验方法
简介：This test method is intended for use in the laboratory or in the field for evaluating the cleanliness of distillate fuels, and liquid bio fuels. It is not applicable to on or in-line applications. This test method offers advantage over traditional filtration methods in that it is a precise rapid test, and advantage over visual methods as it is not subjective. An increase in particle counts can indicate a change in the fuel condition caused by storage or transfer for example. High levels of particles can cause filter blockages and have a serious impact on the life of pumps, injectors, pistons and other moving parts. Knowledge of particle size in relation to the metallurgy can provide vital information especially if the hardness of particles is also known from other sources. This test method specifies a minimum requirement for reporting measurements in particle size bands (see A1.1.2). Some specific applications may require measurements in other particle size bands. Obtaining a representative sample and following the recommended sample and test specimen preparation procedures and timescales is particularly important with particle counting methods. (See Sections 8, 10, 14.1.4 and Note 10.)1.1 This test method uses a specific automatic particle counter (APC) to count and measure the size of dispersed dirt particles, water droplets and other particles, in light and middle distillate fuel, and bio fuels such as biodiesel and biodiesel blends, in the overall range from 4 x00B5;m(c) to 100 x00B5;m(c) and in the size bands x2265;4 x00B5;m(c), x2265;6 x00B5;m(c), and x2265;14 x00B5;m(c). Note 18212;ASTM specification fuels falling within the scope of this test method include Specifications: D975 grades 1D and 2D, D3699, D4814 (see 14.1.1.1), D6751, D6985, D7467 and distillate grades of D396 and D2880. Note 28212;For the purposes of this test method, water droplets are counted as particles, and agglomerated particles are detected and counted as a single larger particle. Dirt includes biological particles. Although the projected area of a particle is measured, this is expressed as the diameter of a sphere for the purposes of this test method. Note 38212;The notation (c), used with particle sizes, is used to denote that the apparatus has been calibrated in accordance with ISO 11171. Strictly this only applies to particles up to 50 x00B5;m. Note 48212;This test method may be used for particle sizes bands up to 100 x00B5;m(c), however the precision has only been determined for the size bands x2265;4 x00B5;m(c),
信息：ICS：75.160.20 CCS：E31 发布：2010 实施：

DIN 50452-2-1991 半导体工艺材料的检验.液体中颗粒分析的试验方法.第2部分:用光学粒子计数器对颗粒的测定
简介：The standard defines the test method for the determination of the concentration of particles in liquids with optical particle counters.
信息：ICS：29.045 CCS：H82 发布：1991-03 实施：