H20 金属理化性能试验方法综合 标准查询与下载

DIN ISO 7801:2008 金属材料.金属丝.反向弯曲试验

This International Standard specifies the method for determin- ing the ability of metallic wire of diameter or thickness 0,3 to 10 mm inclusive to undergo plastic deformation during reverse bending. The range of diameters or thicknesses for which this International Standard is applicable may be more exactly specified in the relevant product standard.

Metallic Materials - Wire - Reverse bend test (ISO 7801:1984); English version of DIN ISO 7801:2008-10

DIN ISO 7802:2008 金属材料.金属丝.包装试验

This International Standard specifies the method for deter- mining the ability of metallic wire of diameter or thickness O, 1 to 10 mm inclusive, to undergo plastic deformation during wrapping.

Metallic Materials - Wire - Wrapping test (ISO 7802:1983); English version of DIN ISO 7802-2008-10

KS D 0055-2008 热喷术语

이 표준은 용사에서 사용하는 주된 용어에 대하여 규정한다.

Thermal spraying terms

KS B ISO 17663:2008 焊接.焊接和相关工艺的热处理质量要求

이 표준은 작업장이나 구조물 설치 장소에서 대기 또는 제어된 분위기에서 수행되는 용접 및

Welding－Guidelines for quality requirements for heat treatment in connection with welding and allied processes

KS B ISO 17660-1:2007 焊接.钢筋焊接.第1部分:负载焊接接缝

이 규격은 작업장이나 현장에서 사용되는 용접 가능한 철근 혹은 스테인리스 철근의 하중을 받

Welding－Welding of reinforcing steel－Part 1：Load-bearing welded joints

KS B ISO 17660-2:2007 焊接.钢筋焊接.第2部分:非负载焊接接缝

이 규격은 현장에서 사용되는 용접 가능한 철근 혹은 스테인리스 철근의 하중을 받지 않는 이

Welding－Welding of reinforcing steel－Part 2：Non load-bearing welded joints

KS B ISO 15609-1:2007 金属材料焊接程序的规范和鉴定.焊接程序规范.第1部分:弧焊

이 규격은 아크 용접법의 용접절차시방서에 대한 요구 사항을 규정한다.

Specification and qualification of welding procedures for metallic materials－Welding procedure specification－Part 1：Arc Welding

KS B ISO 15614-2:2007 金属材料焊接程序的规范和鉴定.焊接过程试验.第2部分:铝和铝合金电弧焊

이 규격은 용접절차 시험에 의해 용접절차시방서를 인정하는 방법을 규정한다. 부속서 B는 규

Specification and qualification of welding procedures for metallic materials-Welding procedure test-Part 2:Arc welding of aluminium

KS B ISO 15614-1:2007 金属材料焊接程序的规范和鉴定.焊接程序试验.第1部分:钢的电弧焊和气焊及镍和镍合金的电弧焊

이 규격은 용접 절차 시험으로 용접절차시방서를 인증하는 것에 대하여 규정한다.이 규격은

Specification and qualification of welding procedures for metallic materials－Welding procedure test－Part 1 : Arc and gas welding of steels and arc welding of nickel and nickel alloys

ASTM G75-07 材料泥浆磨蚀性(磨碎值)和泥浆磨蚀特性曲线(SAR值)测定的标准试验方法

The Miller Number5 is an index of the relative abrasivity of slurries. Its primary purpose is to rank the abrasivity of slurries in terms of the wear of a standard reference material. The wear damage on the standard wear block is worse as the Miller Number gets higher. The SAR Number is an index of the relative abrasion response of materials as tested in any particular slurry of interest. The SAR Number is a generalized form of the Miller Number applicable to materials other than the reference material used for the Miller Number determination. A major purpose is to rank construction materials for use in a system for pumping and fluid handling equipment for a particular slurry. It can also be used to rank the abrasivity of various slurries against any selected construction material other than the reference material specified for a Miller Number determination. The slurry damage on the specimen of material being tested is worse as the SAR Number gets higher. Experience has shown that slurries with a Miller Number or a SAR Number of approximately 50 or lower can be pumped with minor abrasive damage to the system. Above a number of 50, precautions must be observed and greater damage from abrasion is to be expected. Accordingly, the Miller Number and the SAR Number provide information about the slurry or the material that may be useful in the selection of pumps and other equipment and to predict the life expectancy of liquid-end parts of the pumps involved. The SAR Number can be used to determine the most suitable materials for certain slurry systems.1.1 This test method covers a single laboratory procedure that can be used to develop data from which either the relative abrasivity of any slurry (Miller Number) or the response of different materials to the abrasivity of different slurries (SAR Number), can be determined.1.2 The test data obtained by this procedure is used to calculate either a number related to the rate of mass loss of duplicate standard-shaped 27 % chromium iron wear blocks when run for a period of time in the slurry of interest (Miller Number), or to calculate a number related to the rate of mass loss (converted to volume loss) of duplicate standard-shaped wear specimens of any material of interest when run for a period of time in any slurry of interest (SAR Number).1.3 The requirement for a finished flat wearing surface on the test specimen for a SAR Number test may preclude application of the procedure where thin (0.051 to 0.127-mm), hard, wear-resistant coatings will not allow for surface finishing. The 6 hours total duration of the SAR Number Test may not allow establishment of a consistent rate-of-mass-loss of the unfinished surface.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 Determination of Slurry Abrasivity (Miller Number) and Slurry Abrasion Response of Materials (SAR Number)

ASTM E1139-07 连续监测来自金属压力界面的声发射的标准实施规程

p>Acoustic emission examination of a structure requires application of a mechanical or thermal stimulus. In this case, the system operating conditions provide the stimulation. During operation of the pressurized system, AE from active discontinuities such as cracks or from other acoustic sources such as leakage of high-pressure, high-temperature fluids can be detected by an instrumentation system using sensors mounted on the structure. The sensors are acoustically coupled to the surface of the structure by means of a couplant material or pressure on the interface between the sensing device and the structure. This facilitates the transmission of acoustic energy to the sensor. When the sensors are excited by acoustic emission energy, they transform the mechanical excitations into electrical signals. The signals from a detected AE source are electronically conditioned and processed to produce information relative to source location and other parameters needed for AE source characterization and evaluation. AE monitoring on a continuous basis is a currently available method for continuous surveillance of a structure to assess its continued integrity. The use of AE monitoring in this context is to identify the existence and location of AE sources. Also, information is provided to facilitate estimating the significance of the detected AE source relative to continued pressure system operation. Source location accuracy is influenced by factors that affect elastic wave propagation, by sensor coupling, and by signal processor settings. It is possible to measure AE and identify AE source locations of indications that cannot be detected by other NDT methods, due to factors related to methodological, material, or structural characteristics. In addition to immediate evaluation of the AE sources, a permanent record of the total data collected (AE plus pressure system parameters measured) provides an archival record which can be re-evaluated.1.1 This practice provides guidelines for continuous monitoring of acoustic emission (AE) from metal pressure boundaries in industrial systems during operation. Examples are pressure vessels, piping, and other system components which serve to contain system pressure. Pressure boundaries other than metal, such as composites, are specifically not covered by this document. 1.2 The functions of AE monitoring are to detect, locate, and characterize AE sources to provide data to evaluate their significance relative to pressure boundary integrity. These sources are those activated during system operation, that is, no special stimulus is applied to produce AE. Other methods of nondestructive testing (NDT) may be used, when the pressure boundary is accessible, to further evaluate or substantiate the significance of detected AE sources. 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. For specific precautionary statements, see Section 6.

Standard Practice for Continuous Monitoring of Acoustic Emission from Metal Pressure Boundaries

GJB 5877-2006 金属材料应力腐蚀开裂敏感性快速评价试验方法

本标准规定了金属材料应力腐蚀开裂敏感性快速评价试验方法（强腐蚀性介质加速试验、模拟使用环境加速试验和工艺实施过程工艺试验）的试样、试样夹具、试验条件及装置、试验程序、试验结果的评定和试验报告。 本标准适用于金属材料板材、棒材、型材、锻件、铸件等以及能加工成相应试样的半成品或零件的应力腐蚀敏感性的快速评价。

Evaluation methods for susceptibility of stress corrosion cracking of metals

KS B ISO 15614-10:2006 金属材料焊接程序的规范和鉴定.焊接过程试验.第10部分:高压干焊

이 규격은 고압 산소 건식 환경에서의 용접에 대한 용접 절차 시방서를 인증하는 방법에 대해

Specification and qualification of welding procedures for metallic materials-Welding procedure test-Part 10:Hyperbaric dry welding

KS B ISO 15614-4:2006 金属材料焊接程序的规范和鉴定.焊接过程试验.第4部分:铝铸件的精工焊接

이 규격은 알루미늄 주물의 마감 용접에 대한 용접 절차 시방서를 용접 절차 시험을 사용하여

Specification and qualification of welding procedures for metallic materials-Welding procedure test-Part 4:Finishing welding of aluminium castings

KS B ISO 15614-5:2006 金属材料焊接程序的规范和鉴定.焊接程序试验.第5部分:钛、锆及其合金的电弧焊

이 규격은 예비 용접 절차 시방서를 용접 절차 시험을 사용하여 인증하는 방법에 대하여 규정

Specification and qualification of welding procedures for metallic materials-Welding procedure test-Part 5:Arc welding of titanium, zirconium and their alloys

KS B ISO 15614-13:2006 金属材料焊接程序的规范和鉴定.焊接过程试验.第13部分:电阻对接焊和电弧对接焊

이 규격은 용접 절차 시방서의 인증에 사용되어야 하는 시험들을 규정한다. 이 규격은 보기를

Specification and qualification of welding procedures for metallic materials-Welding procedure test-Part 13:Resistance butt and flash welding

KS B ISO 17846:2006 焊接和相关工艺.健康和安全.电弧焊接和切割用设备和消耗品的无字预警标签

이 규격은 생산자가 아크 용접, 플라스마 커팅, 열/화염 절단 공정용 장비와 소모품에 부착

Welding and allied processes-Health and safety-Wordless precautionary labels for equipment and consumables used in arc welding and cutting

KS B ISO 15612:2006 金属材料焊接程序的规范和鉴定.通过标准焊接程序的采用进行合格鉴定

이 규격은 표준 용접 시공에 따른 승인에 대하여 KS B ISO 15607에 인용된 요구

Specification and qualification of welding procedures for metallic materials-Qualification by adoption of a standard welding procedure

KS B ISO 15614-12:2006 金属材料焊接程序的规范和鉴定.焊接过程试验.第12部分:点焊、缝焊和凸焊

이 규격은 점(spot) 용접, 심(seam) 용접 및 돌출(projection) 용접 공

Specification and qualification of welding procedures for metallic materials-Welding procedure test-Part 12:Spot, seam and projection welding

YB/T 5321-2006 膨胀合金气密性试验方法

Test method for gas tightness of expanded alloys