(CMA)
(CNAS)
(ISO)
(高新技术企业)
晶粒度检测标准相关信息
GB/T 36165-2018 金属平均晶粒度的测定 电子背散射衍射(EBSD)法
简介:
信息:ICS:77.040.99 CCS:H24 发布:2018-05-14 00:00:00.0 实施:2019-02-01 00:00:00.0
KS D ISO 4499-2-2009(2019) 硬质合金显微组织的金相测定第2部分:WC晶粒度的测定
简介:
信息:ICS: CCS: 发布:2009-10-06 实施:
KS D 0202-1987(2022) 锻铜和铜合金平均晶粒度的估算方法
简介:
信息:ICS: CCS: 发布:1987-10-06 实施:
GB/T 36165-2018 金属平均晶粒度的测定 电子背散射衍射(EBSD)法
简介:本标准规定了采用电子背散射衍射(EBSD)测定晶粒度方法的原理、设备、取样、试样制备、校准与核查、测量步骤。本标准适用于测量完全再结晶的多晶金属材料的平均晶粒度。其他能产生高质量高标定率电子背散射衍射花样的晶体材料可参照此方法执行。
信息:ICS:77.040.99 CCS:H24 发布:2018-05-14 实施:2019-02-01
TCVN 5052-2-2009 硬质合金.微观结构的金相测定.第2部分:碳化钨晶粒度的测量
简介:
信息:ICS: CCS: 发布:2009 实施:
ASTM E1181-1987(1998)e1 双重晶粒度表征的标准试验方法
简介:1.1 These test methods provide simple guidelines for deciding whether a duplex grain size exists. The test methods separate duplex grain sizes into one of two distinct classes, then into specific types within those classes, and provide systems for grain size characterization of each type. 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 consult appropriate safety and health practices and determine the applicability of regulatory limitations prior to its use.
信息:ICS:19.120 (Particle size analysis. Sieving) CCS: 发布:1987 实施:
GB/T 6394-2017 金属平均晶粒度测定方法
简介:
信息:ICS:77.040.99 CCS:H24 发布:2017-02-28 00:00:00.0 实施:2017-11-01 00:00:00.0
ISO 4499-2:2008 硬质合金与粉煤灰;显微组织的金相测定第2部分:WC晶粒度的测量
简介:
信息:ICS:77.160 CCS: 发布:2008-09-15 实施:
JIS H0501-1986 锻造铜及铜合金平均晶粒度评估的方法
简介:この規格は,主として銅及び銅合金展伸材のα単一相からたるとみなされる焼なまし材の結晶粒度の側定方法及びその表示方法について規定する。
信息:ICS:77.120.30 CCS:H24 发布:1986-03-01 实施:
GB/T 4335-2013 低碳钢冷轧薄板铁素体晶粒度测定法
简介:本标准规定了低碳钢冷轧薄板的铁素体晶粒度的术语和定义、试样及制备、测定方法、试验报告等。本标准适用于测定含碳量小于0.2%的低碳钢冷轧薄板的铁素体晶粒度,晶粒形状与本标准系列评级图相似的其他金属材料的晶粒度测定也可参照本标准执行。
信息:ICS:77.040.99 CCS:H24 发布:2013-12-17 实施:2014-09-01
ASTM E930-99(2007) 估计金相截面中观察到的最大晶粒度的标准试验方法(ALA晶粒度)
简介:
信息:ICS:19.120 CCS: 发布:2007-10-01 实施:
ISO 643:1983 钢.铁素体或奥氏体晶粒度的显微照相测定
简介:
信息:ICS:77.040.99 CCS: 发布:1983-09-01 实施:
GB/T 14999.7-2010 高温合金铸件 晶粒度、一次枝晶间距和显微疏松测定方法
简介:本标准规定了高温含金铸件等轴晶宏观和显微平均晶粒度、柱状晶晶粒度、柱状晶和单晶一次枝晶平均间距、显微疏松的测定方法及结果表示方法。本标准适用于普通精密铸造铸件、定向凝固柱晶铸件中晶粒度的测定;定向凝固柱晶和单晶铸件中一次枝晶间距的测定;普通精密铸造铸件、定向凝固柱晶和单晶铸件中显微疏松的测定。本标准仅作为推荐性测定方法,不对高温合金铸件验收测试的合格级别范围进行规定。
信息:ICS:77.140.99 CCS:H57 发布:2010-12-23 实施:2011-09-01
YS/T 347-2004 铜及铜合金.平均晶粒度测定方法
简介:
信息:ICS:77.040.99 CCS:H24 发布:2004-06-17 实施:2004-11-01
NF A04-102-1980 钢铁产品.钢的铁素体或奥氏体晶粒度的测度
简介:
信息:ICS:77.040.99 CCS:H24 发布:1980-11-01 实施:1980-11-03
GB/T 24177-2009 双重晶粒度表征与测定方法
简介:本标准规定了判别双重晶粒度的方法。本标准将双重晶粒度分为两大类共六种类型,并分别描述了各类型的特征,提供了相应的表征方法及报告格式。本标准仅作为推荐性试验方法,不对材料验收测试的合格级别范围进行规定。
信息:ICS:77.040.99 CCS:H24 发布:2009-06-25 实施:2010-04-01
NF A04-102-2003 钢.表观晶粒度的显微照相测定
简介:
信息:ICS:77.040.99 CCS:H24 发布:2003-04-01 实施:2003-04-20
NBN A 14-101-1974 冶金产品.对于钢材的铁素体晶粒度或奥氏体晶粒度的微观定义
简介:Le présent EURONORM décrit la méthode microgra-phique d'estimation du grain ferritique ou austénitique des aciers et donne les règles de caractérisation de la gros-seur du grain observé.
信息:ICS: CCS: 发布:1974-5-30 实施:
GB/T 6394-2002 金属平均晶粒度测定法
简介:1.1 本标准规定了金属组织的平均晶粒度表示及评定方法。这些方法也适用于晶粒形状与本标准系列评级图相似的非金属材料。这些方法主要适用于单相晶粒组织,但经具体规定后也适用于多相或多组元的试样中特定类型的晶粒平均尺寸的测量。1.2本标准使用晶粒面积、晶粒直径、截线长度的单峰分布来测定试样的平均晶粒度。这些分布近似正态分布。本标准的测定方法不适用于双峰分布的晶粒度。1.3本标准的测量方法仅适用平面晶粒度的测量,也就是试样截面显示出的二维晶粒,不适用于试样三维晶粒,即立体晶粒尺寸的测量。1.4本标准仅作为推荐性试验方法,它不能确定受检材料是否接收或适合使用的范围。
信息:ICS:77.040.30 CCS:H24 发布:2002-12-31 实施:2003-06-01
ISO 643:2003 钢.表观晶粒度的显微照相测定
简介:
信息:ICS:77.040.99 CCS: 发布:2003-02-06 实施:
ISO 2624-1973 铜和铜合金.平均晶粒度的估算
简介:
信息:ICS:77.040.99 CCS: 发布:1973-09-01 实施:
GB/T 4335-1984 低碳钢冷轧薄板铁素体晶粒度测定法
简介: 本标准适用于在显微镜下测定含碳量小于0.2%的低碳钢冷轧薄板的铁素体晶粒度。低碳低合金钢薄板的铁素体晶粒度亦可参照本标准评定。
信息:ICS:77.040.30 CCS:H23 发布:1984-04-09 实施:1985-03-01
KS D ISO 2624-2002(2017) 铜及铜合金平均晶粒度的测定
简介:
信息:ICS: CCS: 发布:2002-12-18 实施:
YB/T 4290-2012 金相检测面上最大晶粒尺寸级别(ALA晶粒度)测定方法
简介:本标准规定了在金相檢測面上测定所歡察到的最大晶粒尺寸級別(ALA 晶粒度)的试验方法。本标准僅适用于包含異常粗大晶粒的顯微組織,這種粗大晶粒因分布太稀疏而無法用 GB/T 6394一2002 标准測量其晶粒度。
信息:ICS: CCS:H24 发布: 实施:2013-03-01
GB/T 4197-1984 钨、钼及其合金的烧结坯条、棒材晶粒度测试方法
简介: 本方法适用于钨、铝及其合金的烧结坯条、棒材晶粒度的测定。
信息:ICS:77.040.30 CCS:H23 发布:1984-03-09 实施:1984-11-01
KS D 0205-2002(2022) 钢-铁素体或奥氏体晶粒度的显微照相测定
简介:
信息:ICS:77.040.30 CCS: 发布:2002-05-29 实施:
YB/T 5148-1993 金属平均晶粒度测定方法
简介:
信息:ICS: CCS: 发布: 实施:
T/CFA 0106024-2021 铸造铝硅系合金平均晶粒度测定方法
简介:本文件规定了用于铸造铝硅系合金平均晶粒度测定的取样与试样制备,测定方法,晶粒度报告,精度与偏差。
信息:ICS:77.040.99 CCS:C339 发布:2021-12-03 实施:2022-01-10
ASTM E1181-2002(2008) 双重晶粒度表征的标准试验方法
简介:Duplex grain size may occur in some metals and alloys as a result of their thermomechanical processing history. For comparison of mechanical properties with metallurgical features, or for specification purposes, it may be important to be able to characterize grain size in such materials. Assigning an average grain size value to a duplex grain size specimen does not adequately characterize the appearance of that specimen, and may even misrepresent its appearance. For example, averaging two distinctly different grain sizes may result in reporting a size that does not actually exist anywhere in the specimen. These test methods may be applied to specimens or products containing randomly intermingled grains of two or more significantly different sizes (henceforth referred to as random duplex grain size). Examples of random duplex grain sizes include: isolated coarse grains in a matrix of much finer grains, extremely wide distributions of grain sizes, and bimodal distributions of grain size. These test methods may also be applied to specimens or products containing grains of two or more significantly different sizes, but distributed in topologically varying patterns (henceforth referred to as topological duplex grain sizes). Examples of topological duplex grain sizes include: systematic variation of grain size across the section of a product, necklace structures, banded structures, and germinative grain growth in selected areas of critical strain. These test methods may be applied to specimens or products regardless of their state of recrystallization. Because these test methods describe deviations from a single, log-normal distribution of grain sizes, and characterize patterns of variation in grain size, the total specimen cross-section must be evaluated. These test methods are limited to duplex grain sizes as identifiable within a single polished and etched metallurgical specimen. If duplex grain size is suspected in a product too large to be polished and etched as a single specimen, macroetching should be considered as a first step in evaluation. The entire macroetched cross-section should be used as a basis for estimating area fractions occupied by distinct grain sizes, if possible. If microscopic examination is subsequently necessary, individual specimens must be taken to allow estimation of area fractions for the entire product cross-section, and to allow determination of grain sizes representing the entire cross-section as well. These test methods are intended to be applied to duplex grain sizes. Duplex grain structures (for example, multiphase alloys) are not necessarily duplex in grain size, and as such are not the subject of these methods. However, the test methods described here for area fraction estimation may be of use in describing duplex grain structures.1.1 These test methods provide simple guidelines for deciding whether a duplex grain size exists. The test methods separate duplex grain sizes into one of two distinct classes, then into specific types within those classes, and provide systems for grain size characterization of each type. 1.2 Units8212;The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.3 This standard may involve hazardous materials, operations, and equipment. This standard does not purport to address all of the safety concerns associated with its use. It is the responsibility of the user of this standard to consult appropriate safety and health practices and determine the applicability of regulatory limitations prior to its use.
信息:ICS:19.120 CCS:A42 发布:2002 实施:
YS/T 347-2020 铜及铜合金平均晶粒度测定方法
简介:
信息:ICS:77.040.99 CCS:H24 发布:2020-12-09 实施:2021-04-01
ASTM E1181-2002(2008)e1 双重晶粒度表征的标准试验方法
简介: 5.1x00a0;Duplex grain size may occur in some metals and alloys as a result of their thermomechanical processing history. For comparison of mechanical properties with metallurgical features, or for specification purposes, it may be important to be able to characterize grain size in such materials. Assigning an average grain size value to a duplex grain size specimen does not adequately characterize the appearance of that specimen, and may even misrepresent its appearance. For example, averaging two distinctly different grain sizes may result in reporting a size that does not actually exist anywhere in the specimen. 5.2x00a0;These test methods may be applied to specimens or products containing randomly intermingled grains of two or more significantly different sizes (henceforth referred to as random duplex grain size). Examples of random duplex grain sizes include: isolated coarse grains in a matrix of much finer grains, extremely wide distributions of grain sizes, and bimodal distributions of grain size. 5.3x00a0;These test methods may also be applied to specimens or products containing grains of two or more significantly different sizes, but distributed in topologically varying patterns (henceforth referred to as topological duplex grain sizes). Examples of topological duplex grain sizes include: systematic variation of grain size across the section of a product, necklace structures, banded structures, and germinative grain growth in selected areas of critical strain. 5.4x00a0;These test methods may be applied to specimens or products regardless of their state of recrystallization. 5.5x00a0;Because these test methods describe deviations from a single, log-normal distribution of grain sizes, and characterize patterns of variation in grain size, the total specimen cross-section must be evaluated. 5.6x00a0;These test methods are limited to duplex grain sizes as identifiable within a single polished and etched metallurgical specimen. If duplex grain size is suspected in a product too large to be polished and etched as a single specimen, macroetching should be considered as a first step in evaluation. The entire macroetched cross-section should be used as a basis for estimating area fractions occupied by distinct grain sizes, if possible. If microscopic examination is subsequently necessary, individual specimens must be taken to allow estimation of area fractions for the entire product cross-section, and to allow determination of grain sizes representing the entire cross-section as well. 5.7x00a0;These test methods are intended to be applied to duplex grain sizes. Duplex grain structures (for example, multiphase alloys) are not necessarily duplex in grain size, and as such are not the subject of these methods. However, the test methods described here for area fraction estimation may be of use in describing duplex grain structures. 1.1x00a0;These test methods provide simple guidelines for deciding whether a duplex grain size......
信息:ICS:19.120 CCS: 发布:2002 实施:
ASTM E930-18 估计金相截面中观察到的最大晶粒度的标准试验方法(ALA晶粒度)
简介:
信息:ICS:19.120 CCS: 发布:2018-12-01 实施:
ASTM E1181-2002(2015) 双重晶粒度表征与测定方法
简介: 5.1x00a0;Duplex grain size may occur in some metals and alloys as a result of their thermomechanical processing history. For comparison of mechanical properties with metallurgical features, or for specification purposes, it may be important to be able to characterize grain size in such materials. Assigning an average grain size value to a duplex grain size specimen does not adequately characterize the appearance of that specimen, and may even misrepresent its appearance. For example, averaging two distinctly different grain sizes may result in reporting a size that does not actually exist anywhere in the specimen. 5.2x00a0;These test methods may be applied to specimens or products containing randomly intermingled grains of two or more significantly different sizes (henceforth referred to as random duplex grain size). Examples of random duplex grain sizes include: isolated coarse grains in a matrix of much finer grains, extremely wide distributions of grain sizes, and bimodal distributions of grain size. 5.3x00a0;These test methods may also be applied to specimens or products containing grains of two or more significantly different sizes, but distributed in topologically varying patterns (henceforth referred to as topological duplex grain sizes). Examples of topological duplex grain sizes include: systematic variation of grain size across the section of a product, necklace structures, banded structures, and germinative grain growth in selected areas of critical strain. 5.4x00a0;These test methods may be applied to specimens or products regardless of their state of recrystallization. 5.5x00a0;Because these test methods describe deviations from a single, log-normal distribution of grain sizes, and characterize patterns of variation in grain size, the total specimen cross-section must be evaluated. 5.6x00a0;These test methods are limited to duplex grain sizes as identifiable within a single polished and etched metallurgical specimen. If duplex grain size is suspected in a product too large to be polished and etched as a single specimen, macroetching should be considered as a first step in evaluation. The entire macroetched cross-section should be used as a basis for estimating area fractions occupied by distinct grain sizes, if possible. If microscopic examination is subsequently necessary, individual specimens must be taken to allow estimation of area fractions for the entire product cross-section, and to allow determination of grain sizes representing the entire cross-section as well. 5.7x00a0;These test methods are intended to be applied to duplex grain sizes. Duplex grain structures (for example, multiphase alloys) are not necessarily duplex in grain size, and as such are not the subject of these methods. However, the test methods described here for area fraction estimation may be of use in describing duplex grain structures. 1.1x00a0;These test methods provide simple guidelines for deciding whether a duplex grain size ......
信息:ICS:19.120 CCS: 发布:2002 实施:
T/CSAE 58-2017 非调质钢及其制品平均晶粒度检验方法
简介:本标准规定了非调质钢高温奥氏体晶粒度形成方法,以及非调质钢制品的实际晶粒度显示和评定方法。本标准适用于汽车企业生产的车辆中使用的非调质钢热轧,热锻棒材或型钢,以及非调质钢锻件。
信息:ICS:43.120 CCS:C3650 发布:2017-11-03 实施:2018-01-24
CNS 10437-2000 钢料肥粒体晶粒度试验法
简介:本标准规定测定碳含量在 0.25% 以下钢料肥料体晶粒度(以下简称晶粒度)之试验法。
信息:ICS:19.120 CCS: 发布:2000-05-18 实施:2000-05-18
ASTM E930-99(2015) 估计金相截面中观察到的最大晶粒度的标准试验方法(ALA晶粒度)
简介:
信息:ICS:19.120 CCS: 发布:2015-10-01 实施:
CNS 10436-2000 钢料沃斯田体晶粒度试验法
简介:本标准规定测定钢料沃斯田体晶粒度(以下简称晶粒度)之试验法。
信息:ICS:19.120 CCS: 发布:2000-05-18 实施:2000-05-18
GOST R ISO 643-2015 钢. 表观晶粒度的显微照相测定
简介:
信息:ICS:77.040.99 CCS:H40 发布:2015 实施:2016-08-01
ASTM E930-99 估计金相截面中观察到的最大晶粒度的标准试验方法(ALA晶粒度)
简介:
信息:ICS:19.120 CCS: 发布:1999-04-10 实施:
GOST R ISO 643-2015 钢. 表观晶粒度的显微照相测定
简介:
信息:ICS:77.040.99 CCS: 发布:2015 实施:2016-08-01
EN ISO 2624-1995 铜和铜合金.平均晶粒度的测定方法
简介:
信息:ICS:77.120.30 CCS: 发布:1995-01-01 实施:
NF A04-102-2013 钢 - 表观晶粒度的显微照相测定
简介:
信息:ICS:77.040.99 CCS:H24 发布:2013-04-06 实施:2013-04-06
NF E75-231-1993 磨料粗晶粒度.散装密度的测定
简介:
信息:ICS:25.100.70 CCS:J43 发布:1993-11-01 实施:1993-11-05
BS EN ISO 643-2012 钢. 表观晶粒度的显微照相测定
简介:
信息:ICS:77.040.99 CCS:H11 发布:2013-01-31 实施:2013-01-31
ISO 2624-1990 铜和铜合金 平均晶粒度的测定方法
简介:Specifies three procedures for estimating, and rules for expressing, the average grain size of copper and copper alloys consisting principally of a single phase. The comparison procedure (comparing the specimen with a standard chart) is most convenient and is sufficiently accurate for most commercial purposes. In cases of dispute the use of the Heyn or Jeffries procedures (intercept procedure and planimetric procedure, respectively) having higher degrees of accuracy is recommended.
信息:ICS:77.120.30 CCS:H24 发布:1990-02 实施:1990-02-01
ISO 13383-1:2012 精细陶瓷(高级陶瓷、高级工业陶瓷)——显微结构特征第1部分:晶粒度和粒度分布的测定
简介:
信息:ICS:81.060.30 CCS: 发布:2012-08-28 实施:
NF A04-505-1988 铝、铜、镍及其合金制半成品.晶粒度的测定.镍和镍合金
简介:
信息:ICS:77.040.99 CCS:H23 发布:1988-07-01 实施:1988-07-20
GOST R ISO 643-2011 钢. 表观晶粒度的显微照相测定
简介:
信息:ICS:77.040.99 CCS: 发布:2011 实施:2013-01-01
NF A04-503-1988 铝、铜、镍及其合金制半成品.晶粒度的测定.铝和铝合金
简介:
信息:ICS:77.040.99 CCS:H23 发布:1988-07-01 实施:1988-07-20
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