H10 金属化学分析方法综合 标准查询与下载

ASTM E1024-97 用火焰原子吸收分光光度测定法对金属和金属轴承矿石进行化学分析

1.1 This guide covers general recommendations for the use of atomic absorption spectrophotometers in the flame mode for the chemical analysis of metals and metal bearing ores by ASTM methods. It describes tests to determine whether the instrument''s performance is satisfactory and recommends procedures for taking atomic absorption measurements. Additional information may be found in Practice E663. 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 Guide for Chemical Analysis of Metals and Metal Bearing Ores by Flame Atomic Absorption Spectrophotometry

ASTM E1916-97 混合金属的识别和/或分离标准指南

1.1 This guide covers the identification or segregation, or both, of mixed metal lots under plant condition using trained plant personnel.

Standard Guide for Identification and/or Segregation of Mixed Lots of Metals

WJ 2422-1997 铜碲硒铁合金材料中碲的测定方法

Determination method of tellurium in copper tellurium iron selenide alloy material

ANSI/ASTM A833:1996 用比较硬度测试仪测量金属材料压痕硬度的惯例

This practice covers the determination of indentation hardness of metallic materials using comparison hardness testers. This practice applies only to those comparison hardness testers, normally portable, that use standardized test blocks in accordance with Test Method E10 as a basis for comparison. Calibration of comparative test bars (rods), used for comparison to determine hardness numbers, is also covered by this practice. The indenting force used during comparison hardness testing is normally an impact load applied by striking a hammer at the appropriate areas as outlined in the manufacturer's instructions. Final indentation diameter in both the comparative test bar and material tested shall be within the range of the comparator used for the instrument.This standard may involve hazardous materials, operations, and equipment. This standard does not purport to address all the safety problems associated with its use. It is the responsibility of whoever uses this standard to consult and establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Practice for Indentation Hardness of Metallic Materials by Comparison Hardness Testers

JIS Z 2615:1996 金属材料中碳的测定通则

この規格は，金属材料の炭素定量方法における次の共通的事項について規定する。

General rules for determination of carbon in metallic materials

JIS Z 2616:1996 金属材料中硫的测定通则

この規格は，金属材料の硫黄定量における，次の共通事項について規定する。ただし，湿式分解法については，(1), (2)以外は各規格で規定する。

General rules for determination of sulfur in metallic materials

ASTM E1840-96(2007) 分光剂校准RAMAN转换标准的标准指南

Wavenumber calibration is an important part of Raman analysis. The calibration of a Raman spectrometer is performed or checked frequently in the course of normal operation and even more often when working at high resolution. To date, the most common source of wavenumber values is either emission lines from low-pressure discharge lamps (for example, mercury, argon, or neon) or from the non-lasing plasma lines of the laser. There are several good compilations of these well-established values (1-8).3 The disadvantages of using emission lines are that it can be difficult to align lamps properly in the sample position and the laser wavelength must be known accurately. With argon, krypton, and other ion lasers commonly used for Raman the latter is not a problem because lasing wavelengths are well known. With the advent of diode lasers and other wavelength-tunable lasers, it is now often the case that the exact laser wavelength is not known and may be difficult or time-consuming to determine. In these situations it is more convenient to use samples of known relative wavenumber shift for calibration. Unfortunately, accurate wavenumber shifts have been established for only a few chemicals. This guide provides the Raman spectroscopist with average shift values determined in seven laboratories for seven pure compounds and one liquid mixture.1.1 This guide covers Raman shift values for common liquid and solid chemicals that can be used for wavenumber calibration of Raman spectrometers. The guide does not include procedures for calibrating Raman instruments. Instead, this guide provides reliable Raman shift values that can be used as a complement to low-pressure arc lamp emission lines which have been established with a high degree of accuracy and precision.1.2 The values stated in SI units are to be regarded as the standard.1.3 Some of the chemicals specified in this guide may be hazardous. It is the responsibility of the user of this guide to consult material safety data sheets and other pertinent information to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to their use. 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 Guide for Raman Shift Standards for Spectrometer Calibration

ASTM E1831-96 制备与金属和相关材料化学组成有关的参考资料证书的标准指南

1.1 This guide describes the minimum information that should be included or referenced in a certificate for a reference material relating to the chemical compositions of metals, ores, and related materials. The order of headings and the wording may be changed to suit the reference materials or their intended applications. It should not be used to disallow the use of reference materials produced prior to the publication of this guide. 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 Guide for Preparing Certificates for Reference Materials Relating to Chemical Composition of Metals, Ores, and Related Materials

ASTM E1840-96 分光剂校准RAMAN转换标准的标准指南

1.1 This guide covers Raman shift values for common liquid and solid chemicals that can be used for wavenumber calibration of Raman spectrometers. The guide does not include procedures for calibrating Raman instruments. Instead, this guide provides reliable Raman shift values that can be used as a complement to low-pressure arc lamp emission lines which have been established with a high degree of accuracy and precision. 1.2 The values stated in SI units are to be regarded as the standard. 1.3 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. 1.3.1 Some of the chemicals specified in this guide may be hazardous. It is the responsibility of the user of this guide to consult material safety data sheets and other pertinent information to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to their use.

Standard Guide for Raman Shift Standards for Spectrometer Calibration

HB 5220.3-1995 高温合金化学分析方法 高频感应加热－红外线吸收法测定碳含量

本标准规定了以高频感应加热──红外线吸收法测定高温合金中碳含量的方法提要、试剂及材料、仪器、分析步骤、分析结果的计算和允许差。 　　本标准适用于高温合金中碳含量的测定。

High-frequency Induction Heating-Infrared Absorption Method for Chemical Analysis of Superalloys Determination of Carbon Content

HB 5220.2-1995 高温合金化学分析方法 气体容量法测定碳含量

本标准规定了用气体容量法测定高温合金中碳含量的方法提要、试剂、仪器、分析步骤、分析结果的计算和允许差。 　　本标准适用于高温合金中碳含量的测定。

Method for Chemical Analysis of Superalloys - Determination of Carbon Content by Gas Volumetric Method

HB 5220.1-1995 高温合金化学分析方法 库仑法测定碳含量

本标准规定了用库仑法测定高温合金中碳含量的方法提要、试剂、仪器、分析步骤、分析结果的计算和允许差。 　　本标准适用于高温合金中碳含量的测定。

Determination of Carbon Content by Coulometric Method for Chemical Analysis of Superalloys

KS D 7048-1995 异型钢丝绳

이 규격은 기계, 건설, 선박, 어업, 임업, 레일, 엘리베이터 등에 사용되는 일반용 이형

Wire ropes with profile wires

DIN EN ISO 6509:1995 金属和合金腐蚀.黄铜耐脱锌性测定

Corrosion of metals and alloys - Determination of dezincification resistance of brass (ISO 6509:1981); German version EN ISO 6509:1995

JIS H 7204:1995 吸氢合金氢化反应热的测量方法

この規格は，水素吸蔵合金の水素化熱を熱量計で求めるための測定方法について規定する。

Method for measuring the heat of hydriding reaction of hydrogen absorbing alloys

JIS H 7203:1995 吸氢合金氢循环吸收/解吸特性的评估方法

Method for assessing the characteristics of cyclic hydrogen absorption/desorption of hydrogen absorbing alloys

YB/T 5045-1993 氧化钼块化学分析方法 新铜试剂光度法测定铜

Molybdenum Oxide Block Chemical Analysis Method New Copper Reagent Spectrophotometric Determination of Copper

YB/T 5039-1993 氧化钼块化学分析方法 钼酸铅重量法测定钼

Molybdenum oxide block chemical analysis method Determination of molybdenum by lead molybdate gravimetric method

YB/T 5041-1993 氧化钼块化学分析方法 燃烧-碘酸钾容量法测定硫

Molybdenum Oxide Block Chemical Analysis Method Combustion-Potassium Iodate Volumetric Method for Determination of Sulfur

YB/T 5043-1993 氧化钼块化学分析方法 正丁醇-三氯甲烷萃取光度法测定磷

Molybdenum Oxide Block Chemical Analysis Method n-Butanol-Chloroform Extraction Spectrophotometric Determination of Phosphorus