77.040.99 金属材料的其他试验方法 标准查询与下载

ASTM F1593-08(2016) 使用高质量分辨率辉光放电质谱仪测定电子级铝中痕量金属杂质的标准试验方法

5.1 This test method is intended for application in the semiconductor industry for evaluating the purity of materials (for example, sputtering targets, evaporation sources) used in thin film metallization processes. This test method may be useful in additional applications, not envisioned by the responsible technical committee, as agreed upon by the parties concerned. 5.2 This test method is intended for use by GDMS analysts in various laboratories for unifying the protocol and parameters for determining trace impurities in pure aluminum. The objective is to improve laboratory to laboratory agreement of analysis data. This test method is also directed to the users of GDMS analyses as an aid to understanding the determination method, and the significance and reliability of reported GDMS data. 5.3 For most metallic species the detection limit for routine analysis is on the order of 0.01 weight ppm. With special precautions detection limits to sub-ppb levels are possible. 5.4 This test method may be used as a referee method for producers and users of electronic-grade aluminum materials. 1.1 This test method covers measuring the concentrations of trace metallic impurities in high purity aluminum. 1.2 This test method pertains to analysis by magnetic-sector glow discharge mass spectrometer (GDMS). 1.3 The aluminum matrix must be 99.9 weight % (3N-grade) pure, or purer, with respect to metallic impurities. There must be no major alloy constituent, for example, silicon or copper, greater than 1000 weight ppm in concentration. 1.4 This test method does not include all the information needed to complete GDMS analyses. Sophisticated computer-controlled laboratory equipment skillfully used by an experienced operator is required to achieve the required sensitivity. This test method does cover the particular factors (for example, specimen preparation, setting of relative sensitivity factors, determination of sensitivity limits, etc.) known by the responsible technical committee to affect the reliability of high purity aluminum analyses. 1.5 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.

Standard Test Method for Trace Metallic Impurities in Electronic Grade Aluminum by High Mass-Resolution Glow-Discharge Mass Spectrometer

KS D 0204-2007(2017) 使用标准图的非金属夹杂物 显微照相法的含量钢的测定

Steel－Determination of content of nonmetallic inclusions－Micrographic method using standard diagrams

KS D 0204-2007(2022) 钢－非金属夹杂物含量的测定－使用标准图的显微照相法

Steel－Determination of content of nonmetallic inclusions－Micrographic method using standard diagrams

KS D 0204-2007 钢中非金属杂质的含量测定.显微镜试验方法

이 규격은 감소비(reduction ratio)가 최소한 3이 되는 압연 또는 단조한 강

Steel-Determination of content of nonmetallic inclusions-Micrographic method using standard diagrams

ASTM B796-07 粉末锻造（PF）用粉末中非金属夹杂物含量的标准试验方法

The extensive porosity present in pressed and sintered ferrous materials masks the effect of inclusions on mechanical properties. In contrast, the properties of material powder forged to near full density are strongly influenced by the composition, size, size distribution, and location of nonmetallic inclusions. The test for nonmetallic inclusions in powder forged steels is useful as the following: Characteristic to classify or differentiate one grade of powder from another. Means of quality comparison of powders intended for powder forging, lot to lot. Significant variations in nonmetallic inclusion content will occur if: The powder used to form the test specimen does not meet powder forging quality standards for nonmetallic inclusion content. Processing of the powder forged test specimen has been carried out under conditions that do not permit oxide reduction or allow oxidation of the test specimen, or both.1.1 This test method covers a metallographic method for determining the nonmetallic inclusion level of powders intended for powder forging (PF) applications.1.2 The test method covers repress powder forged test specimens in which there has been minimal lateral material flow ( 1%). The core region of the powder forged test specimen shall contain no porosity detectable at 100.1.3 This test method is not suitable for determining the nonmetallic inclusion level of powder forged test specimens that have been forged such that the core region contains porosity. At the magnification used for this test method residual porosity is hard to distinguish from oxide inclusions. Too much residual porosity makes a meaningful assessment of the inclusion population impossible.1.4 The test method may be applied to materials that contain manganese sulfide (admixed or prealloyed) provided the near neighbor separation distance is changed from 30 m to 15 m.Note 1The test method may be applied to powder forged parts where there has been a greater amount of material flow provided:The near neighbor separation distance is changed, orThe inclusion sizes agreed between the parties are adjusted for the amount of material flow.1.5 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.

Standard Test Method for Nonmetallic Inclusion Content of Powders Intended for Powder Forging (PF) Applications

LST EN 10247-2007 使用标准图片对钢的非金属夹杂物含量进行显微检查

Micrographic examination of the non-metallic inclusion content of steels using standard pictures

DS/EN 10247:2007 使用标准图片对钢的非金属夹杂物含量进行显微检查

This European Standard defines a method of microscopic non-metallic inclusion assessment using picture charts.The method does not apply to particles of a length less than 3,0 µm or a width smaller than 2,0 µm. Defined by a product standard or agreement between the involved parties for certain special products, inclusions with a width below 2,0 µm can only be evalua¬ted according to their length. Elongated inclusions with a length above 1 410 µm are counted separately and are beyond the upper application limit of this stan¬dard. Globular inclusions with a diameter of 3,0 µm and above are included in the assessment.It is assumed, if particles are elong

Micrographic examination of the non-metallic inclusion content of steels using standard pictures

NF A04-116:2007 使用标准图片对钢的非金属夹杂物含量的显微图检验

Micrographic examination of the non-metallic inclusion content of steels using standard pictures.

DIN EN 10247:2007 使用标准图片对铁非金属夹杂物含量的显微图检验

This European Standard defines a method of microscopic non-metallic inclusion assessment using picture charts. The method does not apply to particles of a length less than 3,0 μm or a width smaller than 2,0 μm. Defined by a product standard or agreement between the involved parties for certain special products, inclusions with a width below 2,0 μm can only be evaluated according to their length. Elongated inclusions with a length above 1 410 μm are counted separately and are beyond the upper application limit of this standard. Globular inclusions with a diameter of 3,0 μm and above are included in the assessment. It is assumed, if particles are elongated or if there are stringers of particles, that they are parallel to each other. Other arrangements are not covered by this standard. This European Standard applies to samples with a microscopic precipitation approaching random distribution. From the data of measurements obtained by this method, evaluation according to other standards can be established. This European Standard does not apply to free cutting steels. NOTE The basic principle of this European Standard allows the determination of non-metallic inclusion content by image analysis techniques.

Micrographic examination of the non-metallic inclusion content of steels using standard pictures; English version of DIN EN 10247:2007-07

BS EN 10247:2007 使用标准图片对钢的非金属夹杂物含量的显微图检验

This European Standard defines a method of microscopic non-metallic inclusion assessment using picture charts. The method does not apply to particles of a length less than 3,0 µm or a width smaller than 2,0 µm. Defined by a product standard or agreement between the involved parties for certain special products, inclusions with a width below 2,0 µm can only be evaluated according to their length. Elongated inclusions with a length above 1 410 µm are counted separately and are beyond the upper application limit of this standard. Globular inclusions with a diameter of 3,0 µm and above are included in the assessment. It is assumed, if particles are elongated or if there are stringers of particles, that they are parallel to each other. Other arrangements are not covered by this standard. This European Standard applies to samples with a microscopic precipitation approaching random distribution. From the data of measurements obtained by this method, evaluation according to other standards can be established. This European Standard does not apply to free cutting steels. NOTE The basic principle of this European Standard allows the determination of non-metallic inclusion content by image analysis techniques.

Micrographic examination of the non-metallic inclusion content of steels using standard pictures

YS/T 37.1-2007 高纯二氧化锗化学分析方法 硫氰酸汞分光光度法测定氯量

本部分规定了高纯二氧化锗中氯含量的测定方法。 本部分适用于高纯二氧化锗中氯含量的测定。测定范围：质量分数0.010%～0.10%。

High pure germanium dioxide. Determination of chlorine content. Mercuric sulfocyanide spectrophotometric method

YS/T 37.5-2007 高纯二氧化锗化学分析方法 石墨炉原子吸收光谱法测定铁含量

本部分规定了高纯二氧化锗中铁含量的测定方法。 本部分适用于高纯二氧化锗中铁含量的测定。测定范围：质量分数0.000005%～0.0002%。

High pure germanium dioxide. Determination of iron content. Graphite furnace atomic absorption spectrometric method

YS/T 37.4-2007 高纯二氧化锗化学分析方法 电感耦合等离子体质谱法测定镁、铝、钴、镍、铜、锌、铟、铅、钙、铁和砷含量

本部分规定了高纯二氧化锗中镁、铝、钴、镍、铜、锌、铟、铅、钙、铁和砷含量的测定方法。 本部分适用于高纯二氧化锗中镁、铝、钴、镍、铜、锌、铟、铅、钙、铁和砷含量的测定。测定范围：各元素的质量分数见表1。

High pure germanium dioxide. Determination of magnesium, aluminium, cobalt, nickel, copper, zinc, indium, lead, calcium, iron and arsenic content. Inductively coupled plasma mass spectrometric method

YS/T 37.3-2007 高纯二氧化锗化学分析方法 石墨炉原子吸收光谱法测定砷量

本部分规定了高纯二氧化锗中砷含量的测定方法。 本部分适用于高纯二氧化锗中砷含量的测定。测定范围：质量分数0.000002%～0.0001%。

High pure germanium dioxide. Determination of arsenic content. Graphite furnace atomic absorption spectrometric method

YS/T 37.2-2007 高纯二氧化锗化学分析方法 钼蓝分光光度法测定硅量

本部分规定了高纯二氧化锗中硅含量的测定方法。 本部分适用于高纯二氧化锗中硅含量的测定。测定范围：质量分数0.00001%～0.0001%。

High pure germanium dioxide. Determination of silicon content. Molybdenum blue spectrophotomertic method

ASTM B797-93(2007) 粉末锻造（P/F）钢零件中表面指状氧化层穿透深度和粒子间氧化网络存在的标准试验方法

1.1 This test method covers a metallographic method for determining the maximum depth of surface finger oxide penetration and the concentration of subsurface interparticle oxide networks in critical areas of powder forged steel parts. 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.

Standard Test Method for Surface Finger Oxide Penetration Depth and Presence of Interparticle Oxide Networks in Powder Forged (P/F) Steel Parts

ASTM E407-07(2015) 微腐蚀金属和合金的标准实施规程

5.1 This practice lists recommended methods and solutions for the etching of specimens for metallographic examination. Solutions are listed to highlight phases present in most major alloy systems. 1.1 This practice covers chemical solutions and procedures to be used in etching metals and alloys for microscopic examination. Safety precautions and miscellaneous information are also included. 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. For specific cautionary statements, see 6.1 and Table8201;2.

Standard Practice for Microetching Metals and Alloys

JIS G 0561:2006 钢的淬透性试验方法(末端淬火法)

この規格は，鋼の焼入性をジョミニー式一端焼入法によって測定する試験方法について規定する。

Method of hardenability test for steel (End quenching method)

SANS 5949:2005 工具钢和轴承钢．使用参考显微照片通过显微照相法评测碳化物分布

Specifies the micrographic method for assessing the distribution of carbides in tool and bearing steels, with C levels between 0,1 % and 1,5 % and a total content of alloy elements less than or equal to 5 %.

Tool steels and bearing steels - Micrographic method for assessing the distribution of carbides using reference photomicrographs

JIS H 7802:2005 用差热分析法测定超细金属颗粒的点燃温度的试验方法

この規格は，金属超微粒子の示差熱分析法による発火温度の測定方法について規定する。

Testing method of ultrafine metal particles for ignition temperature by differential thermal analysis