透射电子显微镜检测标准透射电子显微镜-中析研究所检测

(CMA)

(CNAS)

(ISO)

(高新技术企业)

透射电子显微镜相关标准参考信息

GB/T 35098-2018 微束分析透射电子显微术植物病毒形态学的透射电子显微镜鉴定方法
简介：
信息：ICS：71.040.40 CCS：G04 发布：2018-05-14 00:00:00.0 实施：2019-04-01 00:00:00.0

T/CSTM 00166.3-2020 石墨烯材料表征第3部分透射电子显微镜法
简介：本部分规定了透射电子显微镜法表征石墨烯材料的术语和定义、原理、仪器设备、测试样品制备、测试及计算过程、不确定度评定及测试报告。本部分适用于石墨烯材料微观形貌、层数和层间距测量。
信息：ICS：59.100.20 CCS：M745 发布：2020-03-23 实施：2020-03-23

BS ISO 29301-2010 微光束分析.分析透射电子显微镜法.利用具有周期性结构的标准物质进行标定图像放大的方法
简介：
信息：ICS： CCS：N33 发布：2010-06-30 实施：2010-06-30

GB/T 35098-2018 微束分析透射电子显微术植物病毒形态学的透射电子显微镜鉴定方法
简介：本标准规定了使用透射电子显微镜对植物病毒进行形态学观察和鉴定的步骤、质量要求及鉴定报告的发布。本标准适用于各种类型透射电镜对植物病毒形态的观察和鉴定。
信息：ICS：71.040.40 CCS：G04 发布：2018-05-14 实施：2019-04-01

ISO 10312:2019 环境空气.石棉纤维的测定.直接转移透射电子显微镜法
简介：
信息：ICS：13.040.20 CCS：发布：2019-10-11 实施：

GB/T 34331-2017 黄瓜绿斑驳花叶病毒透射电子显微镜检测方法
简介：
信息：ICS：71.040.40 CCS：G04 发布：2017-10-14 00:00:00.0 实施：2018-09-01 00:00:00.0

ISO 10312-2019 环境空气.石棉纤维的测定.直接转移透射电子显微镜法
简介：
信息：ICS：13.040.20 CCS：发布：2019-10-11 实施：

BS ISO 25498-2010 微光束分析.解析电子显微测定法.透射式电子显微镜对选定区域进行电子衍射分析
简介：
信息：ICS： CCS：G04 发布：2010-06-30 实施：2010-06-30

GB/T 34168-2017 金、银纳米颗粒材料生物效应的透射电子显微镜检测方法
简介：
信息：ICS：71.040.40 CCS：G04 发布：2017-09-07 00:00:00.0 实施：2018-08-01 00:00:00.0

ISO 13794-2019 环境空气 - 石棉纤维的测定 - 间接转移透射电子显微镜法
简介：
信息：ICS：13.040.20 CCS：发布：2019-10-01 实施：

GB/T 33839-2017 基于生物效应含碳基纳米材料生物样品的透射电子显微镜检测方法
简介：
信息：ICS：71.040.40 CCS：G04 发布：2017-05-31 00:00:00.0 实施：2018-04-01 00:00:00.0

ISO 13794:2019 环境空气 - 石棉纤维的测定 - 间接转移透射电子显微镜法
简介：
信息：ICS：13.040.20 CCS：发布：2019-10-01 实施：

ISO 25498-2010 微光束分析.解析电子显微测定法.透射式电子显微镜对选定区域进行电子衍射分析
简介：This International Standard specifies the method of selected-area electron diffraction (SAED) analysis using atransmission electron microscope (TEM) to analyse micrometer and sub-micrometer sized areas of thincrystalline specimens. Such specimens can be obtained in the form of thin sections from a variety of metallicand non-metallic materials, as well as fine powders, or alternatively by the use of extraction replicas. Theminimum diameter of the selected area in a specimen which can be analysed by this method depends on thespherical aberration coefficient of the objective lens of the microscope and approaches 0,5 μm for a modernTEM.When the diameter of an analysed specimen area is smaller than 0,5 μm, the analysis procedure can also bereferred to this International Standard but, because of the effect of spherical aberration, some of the diffractioninformation in the pattern can be generated from outside of the area defined by the selected-area aperture. Insuch cases, the use of microdiffraction or convergent beam electron diffraction, where available, might bepreferred.The success of the selected-area electron diffraction method relies on the validity of indexing the diffractionpatterns arising, irrespective of which axis in the specimen lies parallel to the incident electron beam. Suchanalysis is therefore aided by specimen tilt and rotation facilities.This International Standard is applicable to acquisition of SAED patterns from crystalline specimens, indexingthe patterns and calibration of the diffraction constant.
信息：ICS：71.040.50 CCS：N33 发布：2010-06 实施：

GB/T 27765-2011 SiO₂、TiO₂、Fe₃O₄及Al₂O₃纳米颗粒生物效应的透射电子显微镜检测方法
简介：本标准规定了透射电子显微镜检测含有SiO、TiO、FeO及AlO纳米颗粒材料的生物试样的技术和规范。本标准适用于SiO、TiO、FeO及AlO纳米颗粒材料的生物效应透射电镜检测的生物薄试样超微结构分析。
信息：ICS：71.040.99 CCS：C40 发布：2011-12-30 实施：2012-05-01

ASTM E3143-18b 脂质体低温透射电子显微镜的标准实施规程
简介：
信息：ICS：17.180.30 CCS：发布：2018-11-15 实施：

ISO 29301-2010 微光束分析.分析的透射电子显微镜法.具有周期性结构的基准物质校准图像放大的方法
简介：This International Standard specifies a calibration procedure applicable to images recorded over a widemagnification range in a transmission electron microscope (TEM). The reference materials used for calibrationpossess a periodic structure, such as a diffraction grating replica, a super-lattice structure of semiconductor oran analysing crystal for X-ray analysis, and a crystal lattice image of carbon, gold or silicon. This InternationalStandard is applicable to the magnification of the TEM image recorded on a photographic film, or an imagingplate, or detected by an image sensor built into a digital camera. This International Standard also refers to thecalibration of a scale bar. This International Standard does not apply to the dedicated critical dimensionmeasurement TEM (CD-TEM) and the scanning transmission electron microscope (STEM).
信息：ICS：37.020 CCS：N32 发布：2010-06 实施：

GB/T 28044-2011 纳米材料生物效应的透射电子显微镜检测方法通则
简介：本标准规定了透射电子显微镜检测纳米材料生物性样品的技术和规范。本标准适用于纳米材料生物敢应透射电镜检测的超微结构分析。
信息：ICS：71.040.99 CCS：C40 发布：2011-10-31 实施：2012-02-01

YB/T 4676-2018 钢中析出相的分析透射电子显微镜法
简介：
信息：ICS：77.040.99 CCS：H24 发布：2018-10-22 实施：2019-04-01

ISO 25498:2010 微束分析——分析电子显微镜——用透射电子显微镜进行选区电子衍射分析
简介：
信息：ICS：71.040.50 CCS：发布：2010-05-17 实施：

GB/T 17507-2008 透射电子显微镜X射线能谱分析生物薄标样的通用技术条件
简介：本标准规定了透射电子显微镜X射线能谱分析生物薄标样的技术要求、检测条件和检测方法。本标准适用于生物薄标样的透射电子显微镜X射线能谱分析。
信息：ICS：71.040.99 CCS：N53 发布：2008-06-16 实施：2009-03-01

ASTM E3143-18a 脂质体低温透射电子显微镜的标准实施规程
简介：
信息：ICS：17.180.30 CCS：发布：2018-06-01 实施：

ISO 29301:2010 微束分析——分析透射电子显微镜——用具有周期结构的标准物质校准图像放大率的方法
简介：
信息：ICS：37.020 CCS：发布：2010-05-17 实施：

GB/T 18873-2008 生物薄试样的透射电子显微镜-X射线能谱定量分析通则
简介：本标准规定了透射电子显微镜-X射线能谱仪定量分析生物薄试样的技术要求和规范。本标准适用于生物薄试样所含非超轻元素的透射电子显微镜X射线能谱定量分析。
信息：ICS：71.040.99 CCS：N53 发布：2008-06-16 实施：2009-03-01

BS ISO 25498-2018 微光束分析.解析电子显微测定法.透射式电子显微镜对选定区域进行电子衍射分析
简介：
信息：ICS：71.040.50 CCS：G04 发布：2018-03-23 实施：2018-03-23

GOST R 8.697-2010 确保测量一致性的国家体系.晶体中的平面间距.利用透射电子显微镜的测量方法
简介：
信息：ICS：17.040.01 CCS：发布：2010 实施：2010-09-01

GB/Z 21738-2008 一维纳米材料的基本结构.高分辨透射电子显微镜检测方法
简介：本指导性技术文件规定了采用高分辨透射电子显微镜检测纳米材料中一维或准一维纳米材料的原理，术语和定义，仪器和设备，样品制备，测量程序，结果表示以及试验报告等。本指导性技术文件适用于测量一维或准一维纳米材料的基本结构（形貌、排列情况、大小线度的分布、晶化情况、生长取向关系），元素组分，截面及界面原子排布等。
信息：ICS：17.180.01 CCS：G04;N30 发布：2008-05-08 实施：2008-12-01

ASTM E3143-18 脂质体低温透射电子显微镜的标准实施规程
简介：
信息：ICS：17.180.30 CCS：发布：2018-02-01 实施：

ASTM D5755-09 通过透射电子显微镜对石棉结构数表面加载的微尘真空取样和间接分析灰尘的标准测试方法
简介：
信息：ICS：13.040.20 CCS：发布：2009-12-01 实施：

GB/T 21637-2008 冠状病毒透射电子显微镜形态学鉴定方法
简介：本标准规定了应用透射电子显微镜观察与鉴定冠状病毒的方法、要求和冠状病毒的形态和形态发生学特征（参见附录A、附录B）。本标准适用于利用透射电子显微镜对冠状病毒形态的鉴定。
信息：ICS：01.100;71.040.99 CCS：C04;N53 发布：2008-04-11 实施：2008-10-01

ISO 20263-2017 微束分析 - 分析透射电子显微镜 - 分层材料横截面图像中界面位置的测定方法
简介：
信息：ICS：71.040.50 CCS：发布：2017-12-01 实施：

ASTM D6281-09 通过透射电子显微镜直接转移（TEM）测定的环境和室内环境中的空气中石棉浓度的标准测试方法
简介：
信息：ICS：13.040.01 CCS：发布：2009-12-01 实施：

GB/T 18907-2002 透射电子显微镜选区电子衍射分析方法
简介：本标准规定了用透射电子显微镜对薄晶体试样微米级区域进行选区电子衍射分析的方法。本方法适用于各种金属与非金属晶体薄膜（包括粉末试样与萃取复型试样）的电子衍射分析。可分析的最小试样区直径为lμm。应用电子衍射谱可以获得试样晶体对称性、点阵常数和布拉菲格子类型等数据。利用已知晶体薄膜的电子衍射谱可以测定透射电子显微镜的衍射常数。被分析试样区直径小于lμm时，可参照执行。
信息：ICS：37.020;17.180 CCS：N33 发布：2002-12-05 实施：2003-05-01

ISO 19214:2017 微束分析 - 分析电子显微镜 - 通过透射电子显微镜测定线状晶体的表观生长方向的方法
简介：
信息：ICS：71.040.50 CCS：发布：2017-04-25 实施：

ASTM D6281-2009 用透射式电子显微镜直接转移法测定周围环境和室内空气中气载石棉浓度的标准试验方法
简介：This test method is applicable to the measurement of airborne asbestos in a wide range of ambient air situations and for detailed evaluation of any atmosphere in which asbestos structures are likely to be present. Most fibers in ambient atmospheres are not asbestos, and therefore, there is a requirement for fibers to be identified. Most of the airborne asbestos fibers in ambient atmospheres have diameters below the resolution limit of the light microscope. This test method is based on transmission electron microscopy, which has adequate resolution to allow detection of small thin fibers and is currently the only technique capable of unequivocal identification of the majority of individual fibers of asbestos. Asbestos is often found, not as single fibers, but as very complex, aggregated structures, which may or may not also be aggregated with other particles. The fibers found suspended in an ambient atmosphere can often be identified unequivocally if sufficient measurement effort is expended. However, if each fiber were to be identified in this way, the analysis would become prohibitively expensive. Because of instrumental deficiencies or because of the nature of the particulate matter, some fibers cannot be positively identified as asbestos even though the measurements all indicate that they could be asbestos. Therefore, subjective factors contribute to this measurement, and consequently, a very precise definition of the procedure for identification and enumeration of asbestos fibers is required. The method defined in this test method is designed to provide a description of the nature, numerical concentration, and sizes of asbestos-containing particles found in an air sample. The test method is necessarily complex because the structures observed are frequently very complex. The method of data recording specified in the test method is designed to allow reevaluation of the structure-counting data as new applications for measurements are developed. All of the feasible specimen preparation techniques result in some modification of the airborne particulate matter. Even the collection of particles from a three-dimensional airborne dispersion on to a two-dimensional filter surface can be considered a modification of the particulate matter, and some of the particles, in most samples, are modified by the specimen preparation procedures. However, the procedures specified in this test method are designed to minimize the disturbance of the collected particulate material. This test method applies to analysis of a single filter and describes the precision attributable to measurements for a single filter (see 13.1). Multiple air samples are usually necessary to characterize airborne asbestos concentrations across time and space. The number of samples necessary for this purpose is proportional to the variation in measurement across samples, which may be greater than the variation in a measurement for a single sample.1.1 This test method is an analytical procedure using transmission electron microscopy (TEM) for the determination of the concentration of asbestos structures in ambient atmospheres and includes measurement of the dimension of structures and of the asbestos fibers found in the structures from which aspect ratios are calculated. 1.1.1 This test method allows determination of the type(s) of asbestos fibers present. 1.1.2 This test method cannot always discriminate between individual fibers of the asbestos and non-asbestos analogues of the same amphibole mineral. 1.2 This test method is suitable for determination of asbestos in both ambient (outdoor) and building atmospheres. 1.2.1 This test method is defined for polycarbonate capillary-pore filters or cellulose ester (either mixed esters of cellulose or cellulose nitrate) filters through which a known volume of air has been drawn and for blank filters.
信息：ICS：13.040.01 (Air quality in general) CCS：Z15 发布：2009 实施：

GB/T 18873-2002 生物薄试样的透射电子显微镜-X射线能谱定量分析通则
简介：本标准规定了透射电子显微镜-X射线能谱仪定量分析生物薄试样的技术要求和规范。本标准适用于生物薄试样所含非超轻元素的定量分析。
信息：ICS：17.180.30 CCS：N33 发布：2002-11-11 实施：2003-06-01

ISO 19214-2017 微束分析. 分析电子显微术. 采用透射电子显微镜术测定丝状晶体显著增长方向的方法
简介：
信息：ICS：71.040.50 CCS：G60 发布：2017-04 实施：

ASTM D5755-2009 用石棉结构值表面负荷用透射电子显微镜对尘埃微真空取样和间接分析的标准试验方法
简介：This microvacuum sampling and indirect analysis method is used for the general testing of non-airborne dust samples for asbestos. It is used to assist in the evaluation of dust that may be found on surfaces in buildings such as ceiling tiles, shelving, electrical components, duct work, carpet, etc. This test method provides an index of the surface loading of asbestos structures in the dust per unit area analyzed as derived from a quantitative TEM analysis. This test method does not describe procedures or techniques required to evaluate the safety or habitability of buildings with asbestos-containing materials, or compliance with federal, state, or local regulations or statutes. It is the user''s responsibility to make these determinations. At present, no relationship has been established between asbestos-containing dust as measured by this test method and potential human exposure to airborne asbestos. Accordingly, the users should consider other available information in their interpretation of the data obtained from this test method. This definition of dust accepts all particles small enough to pass through a 1 mm (No. 18) screen. Thus, a single, large asbestos containing particle(s) (from the large end of the particle size distribution) dispersed during sample preparation may result in anomalously large asbestos surface loading results in the TEM analyses of that sample. It is, therefore, recommended that multiple independent samples are secured from the same area, and that a minimum of three samples be analyzed by the entire procedure.1.1 This test method covers a procedure to (a) identify asbestos in dust and (b) provide an estimate of the surface loading of asbestos in the sampled dust reported as the number of asbestos structures per unit area of sampled surface. 1.1.1 If an estimate of the asbestos mass is to be determined, the user is referred to Test Method D5756. 1.2 This test method describes the equipment and procedures necessary for sampling, by a microvacuum technique, non-airborne dust for levels of asbestos structures. The non-airborne sample is collected inside a standard filter membrane cassette from the sampling of a surface area for dust which may contain asbestos. 1.2.1 This procedure uses a microvacuuming sampling technique. The collection efficiency of this technique is unknown and will vary among substrates. Properties influencing collection efficiency include surface texture, adhesiveness, electrostatic properties and other factors. 1.3 Asbestos identified by transmission electron microscopy (TEM) is based on morphology, selected area electron diffraction (SAED), and energy dispersive X-ray analysis (EDXA). Some information about structure size is also determined. 1.4 This test method is generally applicable for an estimate of the surface loading of asbestos structures starting from approximately 1000 asbestos structures per square centimetre. 1.4.1 The procedure outlined in this test method employs an indirect sample preparation technique. It is intended to disperse aggregated asbestos into fundamental fibrils, fiber bundles, clusters, or matrices that can be more accurately quantified by transmission electron microscopy. However, as with all indirect sample preparation techniques, the asbestos observed for quantification may not represent the physical form of the asbestos as sampled. More specifically, the procedure described neither creates nor destroys asbestos, but it may alter the physical form of the mineral fibers. 1.5 The values stated in SI units are to be regarded as the standard. The values given in parentheses are for information only. ......
信息：ICS：13.040.20 (Ambient atmospheres) CCS：C51 发布：2009 实施：

ISO/TS 22292:2021 纳米技术.用透射电子显微镜重建棒支撑纳米物体的三维图像
简介：
信息：ICS： CCS：发布：2021-06-14 实施：

KS D 8544-2016(2021) 金属涂层——涂层厚度测量——透射电子显微镜法
简介：
信息：ICS：25.220.40 CCS：发布：2016-12-19 实施：

ASTM D5755-2009(2014)e1 用石棉结构值表面负荷用透射电子显微镜对尘埃微真空取样和间接分析的标准试验方法
简介：5.1x00a0;This microvacuum sampling and indirect analysis method is used for the general testing of non-airborne dust samples for asbestos. It is used to assist in the evaluation of dust that may be found on surfaces in buildings such as ceiling tiles, shelving, electrical components, duct work, carpet, etc. This test method provides an index of the surface loading of asbestos structures in the dust per unit area analyzed as derived from a quantitative TEM analysis. 5.1.1x00a0;This test method does not describe procedures or techniques required to evaluate the safety or habitability of buildings with asbestos-containing materials, or compliance with federal, state, or local regulations or statutes. It is the userx2019;s responsibility to make these determinations. 5.1.2x00a0;At present, no relationship has been established between asbestos-containing dust as measured by this test method and potential human exposure to airborne asbestos. Accordingly, the users should consider other available information in their interpretation of the data obtained from this test method. 5.2x00a0;This definition of dust accepts all particles small enough to pass through a 1-mm (No. 18) screen. Thus, a single, large asbestos containing particle(s) (from the large end of the particle size distribution) dispersed during sample preparation may result in anomalously large asbestos surface loading results in the TEM analyses of that sample. It is, therefore, recommended that multiple independent samples are secured from the same area, and that a minimum of three samples be analyzed by the entire procedure. 1.1x00a0;This test method covers a procedure to (a) identify asbestos in dust and (b) provide an estimate of the surface loading of asbestos in the sampled dust reported as the number of asbestos structures per unit area of sampled surface. 1.1.1x00a0;If an estimate of the asbestos mass is to be determined, the user is referred to Test Method D5756. 1.2x00a0;This test method describes the equipment and procedures necessary for sampling, by a microvacuum technique, non-airborne dust for levels of asbestos structures. The non-airborne sample is collected inside a standard filter membrane cassette from the sampling of a surface area for dust which may contain asbestos. 1.2.1x00a0;This procedure uses a microvacuuming sampling technique. The collection efficiency of this technique is unknown and will vary among substrates. Properties influencing collection efficiency include surface texture, adhesiveness, electrostatic properties and other factors. 1.3x00a0;Asbestos identified by transmission electron microscopy (TEM) is based on morphology, selected area electron diffraction (SAED), and energy dispersive X-ray analysis (EDXA). Some information about structure size is also determined. 1.4x00a0;This test......
信息：ICS：13.040.20 (Ambient atmospheres) CCS：发布：2009 实施：

PNS ISO 21363-2021 纳米技术.用透射电子显微镜测量粒度和形状分布
简介：
信息：ICS： CCS：N50/59 发布：2021 实施：

ASTM D6281-15 通过透射电子显微镜直接转移（TEM）测定的环境和室内环境中的空气中石棉浓度的标准测试方法
简介：
信息：ICS：13.040.01 CCS：发布：2015-12-01 实施：

KS D 2716-2008(2018) 纳米颗粒直径的测量－透射电子显微镜
简介：
信息：ICS：71.040 CCS：发布：2008-12-26 实施：

NF T16-404-2020 纳米技术. 通过透射电子显微镜测量粒度和形状分布
简介：
信息：ICS： CCS：发布：2020-11-07 实施：2020-11-07

ASTM D6281-2015 用透射电子显微镜术直接移植法 (TEM) 测定环境和室内大气下空气中石棉浓度的标准试验方法
简介：5.1x00a0;This test method is applicable to the measurement of airborne asbestos in a wide range of ambient air situations and for detailed evaluation of any atmosphere for asbestos structures. Most fibers in ambient atmospheres are not asbestos, and therefore, there is a requirement for fibers to be identified. Most of the airborne asbestos fibers in ambient atmospheres have diameters below the resolution limit of the light microscope. This test method is based on transmission electron microscopy, which has adequate resolution to allow detection of small thin fibers and is currently the only technique capable of unequivocal identification of the majority of individual fibers of asbestos. Asbestos is often found, not as single fibers, but as very complex, aggregated structures, which may or may not also be aggregated with other particles. The fibers found suspended in an ambient atmosphere can often be identified unequivocally if sufficient measurement effort is expended. However, if each fiber were to be identified in this way, the analysis would become prohibitively expensive. Because of instrumental deficiencies or because of the nature of the particulate matter, some fibers cannot be positively identified as asbestos even though the measurements all indicate that they could be asbestos. Therefore, subjective factors contribute to this measurement, and consequently, a very precise definition of the procedure for identification and enumeration of asbestos fibers is required. The method defined in this test method is designed to provide a description of the nature, numerical concentration, and sizes of asbestos-containing particles found in an air sample. The test method is necessarily complex because the structures observed are frequently very complex. The method of data recording specified in the test method is designed to allow reevaluation of the structure-counting data as new applications for measurements are developed. All of the feasible specimen preparation techniques result in some modification of the airborne particulate matter. Even the collection of particles from a three-dimensional airborne dispersion on to a two-dimensional filter surface can be considered a modification of the particulate matter, and some of the particles, in most samples, are modified by the specimen preparation procedures. However, the procedures specified in this test method are designed to minimize the disturbance of the collected particulate material. 5.2x00a0;This test method applies to analysis of a single filter and describes the precision attributable to measurements for a single filter (see 13.1). Multiple air samples are usually necessary to characterize airborne asbestos concentrations across time and space. The number of samples necessary for this purpose is proportional to the variation in measurement across samples, which may be greater than the variation in a measurement for a single sample. 1.1x00a0;This test method2 is an analytical procedure using transmission electron microscopy (TEM) for the determination of the concentration of asbestos structures in ambient atmospheres and includes measurement of the dimension of structures and of the asbestos fibers found in the structures from which aspect ratios are calculated. 1.1.1x00a0;This test method allows determination of the type(s) of asbestos fibers present. 1.1.2x00a0;This test method cannot alw......
信息：ICS：13.040.01 CCS：发布：2015 实施：

KS D 2716-2008 纳米粒子的直径测量技术.透射电子显微镜
简介：이 표준은 투과전자현미경을 이용하여 공기 중의 부유물이나 부형제 속에 있는 구형 금속 나노
信息：ICS：71.040 CCS：H14 发布：2008-12-26 实施：2008-12-26

JY/T 0581-2020 透射电子显微镜分析方法通则
简介：
信息：ICS：03.180 CCS：Y51 发布：2020-09-29 实施：2020-12-01

ASTM D5755-09(2014)e1 通过透射电子显微镜对石棉结构数表面加载的微尘真空取样和间接分析灰尘的标准测试方法
简介：
信息：ICS：13.040.20 CCS：发布：2014-04-01 实施：

KS I ISO 13794-2008(2018) 环境空气中石棉纤维含量的测定间接透射电子显微镜法
简介：
信息：ICS：13.040.20 CCS：发布：2008-12-02 实施：

ISO 21363-2020 纳米技术 - 通过透射电子显微镜测定粒度分布的方案
简介：
信息：ICS： CCS：发布：2020-06-25 实施：

ISO/TS 10797-2012 纳米技术.利用透射电子显微镜法进行单壁碳纳米管特征探测
简介：
信息：ICS：07.030 CCS：A43 发布：2012-06 实施：

KS I ISO 10312-2008(2018) 环境空气石棉纤维的测定直接透射电子显微镜法
简介：
信息：ICS：13.040.20 CCS：发布：2008-08-28 实施：

ASTM D7201-06(2020) 通过相位对比显微镜（带有透射电子显微镜选项）在工作场所取样和计数机载纤维（包括石棉纤维）的标准实践
简介：
信息：ICS：13.040.30 CCS：发布：2020-04-15 实施：

ASTM D7201-06(2011) 通过相位对比显微镜（带有透射电子显微镜选项）在工作场所取样和计数机载纤维（包括石棉纤维）的标准实践
简介：
信息：ICS：13.040.30 CCS：发布：2011-10-01 实施：

KS D 8544-2006 金属涂层.涂层厚度测量.透射电子显微镜法
简介：이 규격은 투과 전자 현미경(TEM)으로 금속 피막 단면을 관찰하여 피막층의 국부 두께를
信息：ICS：25.220.40 CCS：H10 发布：2006-10-30 实施：2006-10-30

T/CSTM 00162-2020 透射电子显微镜校准方法
简介：本部分规定了透射电镜校准方法的术语和定义、概述、计量特性、校准条件、校准项目和校准方法、测量结果不确定度评定、校准结果表达和复校时间间隔。本标准适用于透射电镜放大倍率、样品污染率和样品漂移率的校准。
信息：ICS：17.020 CCS：M745 发布：2020-03-23 实施：2020-03-23

ASTM D6480-05(2010) 间接制备表面擦拭取样和用透射电子显微镜分析石棉结构数浓度的标准试验方法
简介：
信息：ICS：13.300 CCS：发布：2010-10-01 实施：