H26 金属无损检验方法 标准查询与下载

YB/T 144-2013 超声探伤信号幅度误差测量方法

本标准规定了超声探伤信号幅度误差的测量原理、测量条件、测量方法、测量异常现象及其处理、测量结果评定和测量报告。本标准适用于采用通用A扫描脉冲反射式超声探伤仪(以下简称超声探伤仪)的探伤信号幅度误差的测量,也可供采用其他类型超声探伤仪进行测量时参照使用。

Measurement method of the error of signal amplitude for ultrasonic flaw detectors

YB/T 145-2013 钢管探伤对比试样人工缺陷尺寸测量方法

本标准规定了钢管超声波、涡流和漏磁探伤用对比试样人工缺陷尺寸测量方法、人工槽复型与尺寸测量、人工通孔尺寸的测量、人工缺陷测量结果的判定及测量报告。本标准适用于钢管超声波、涡流和漏磁等探伤用对比试样内、外壁人工槽,钢管涡流探伤用对比试样通孔尺寸的测量,其他对比试样中的类似人工缺陷(如分层缺陷等)尺寸的测量也可参照本方法执行。

Die casting and size measurement method of artificial defects on the reference sample pipes

YS/T 585-2013 铜及铜合金板材超声波探伤方法

本标准规定了用A型超声波脉冲反射式接触法手工检测铜及铜合金板材的探伤方法、内容包括原理、一般要求、探伤装置、探伤方法、缺陷的确定和分级、探伤报告等、本标准适用于厚度为6 mm~150 mm的铜板以及厚度为6 mm~200 mm的铜合金板材的超声波探伤、

Method of ultrasonic inspection for copper and copper alloys plates

DIN EN 13477-2:2013 无损检测.声发射检测.设备特性.第2部分:操作特性测试.德文版本EN 13477-2-2010

Non-destructive testing - Acoustic emission - Equipment characterisation - Part 2: Verification of operating characteristic; German version EN 13477-2:2010

DIN EN ISO 3059:2013 无损检测.渗透法检验和磁粉检验.观察条件.德文版本EN ISO 3059-2012

This International Standard specifies the control of the viewing conditions for magnetic particle and penetrant testing. It includes minimum requirements for the illuminance and UV-A irradiance and their measurement. It is intended for use when the human eye is the primary detection aid. This International Standard does not cover the use of actinic blue light sources.

Non-destructive testing - Penetrant testing and magnetic particle testing - Viewing conditions (ISO 3059:2012); German version EN ISO 3059:2012

DIN 54145-1:2013 无损检测.电磁检测.第1部分:无源磁学

Non-destructive testing.Electromagnetic detection.Part 1: Passive magnetics

DIN 54145-2:2013 无损检测.电磁检测.第2部分:有源电磁感应方法

Non-destructive testing.Electromagnetic detection .Part 2: Active electro-magnetic induction methods

JIS G 0589:2013 钢管和导管的自动化全外围超声波测厚检验

This Standard specifies requirements for the automated full peripheral ultrasonic testing of seamless and welded steel tubes, with the exception of submerged arc-welded tubes, for wall thickness measurement.

Automated full peripheral ultrasonic thickness examination of steel pipes and tubes

DIN EN 1369:2013 铸造.磁粉检测.德文版本EN 1369-2012

This European Standard specifies a magnetic particle testing method for ferro-magnetic iron and steel castings.

Founding.Magnetic particle testing; German version EN 1369:2012

DIN EN ISO 2400:2013 无损检测.超声波测试.刻度块No.1规格(ISO 2400-2012).德文版本EN ISO 2400-2012

This International Standard specifies requirements for the dimensions, material and manufacture of a steel block for calibrating ultrasonic test equipment used in manual testing.

Non-destructive testing - Ultrasonic testing - Specification for calibration block No. 1 (ISO 2400:2012); German version EN ISO 2400:2012

EN ISO 3452-2:2013 无损检测.渗透测试.第2部分:渗透性材料测试

Dieser Teil von ISO 3452 legt die technischen Anforderungen und die Prufverfahren fur die Musterprufung und die Chargenprufung von Eindringmitteln fest. Dieser Teil von ISO 3452 gilt fur Prufungen, die in einem Temperaturbereich von 10 °C bis 50 °C durchgefuhrt werden. Auserhalb dieses Temperaturbereichs konnen zusatzliche Prufungen erforderlich sein, die in den Teilen 5 oder 6 von ISO 3452 beschrieben werden. Einzelheiten zu den vor Ort anzuwendenden Kontrollprufungen und Verfahren werden in ISO 3452-1 behandelt.

Non-destructive testing - Penetrant testing - Part 2: Testing of penetrant materials

EN ISO 15548-1:2013 无损检测.涡流检测设备.第1部分:仪器特性和验证

Dieser Teil von ISO 15548 legt die Funktionskenngrosen von Wirbelstromprufgeraten fur die allgemeine Anwendung fest und enthalt Verfahren fur deren Messung und Verifizierung. Die Beurteilung dieser Kenngrosen ermoglicht eine genaue Beschreibung und Vergleichbarkeit von Wirbelstromprufeinrichtungen. Durch sorgfaltige Auswahl der Kenngrosen kann ein reproduzierbares und effektives Wirbelstromprufsystem fur spezifische Anwendungen entworfen werden. Bei der Verwendung von Zubehorteilen werden diese nach den Grundsatzen dieses Teils von ISO 15548 charakterisiert. Dieser Teil von ISO 15548 enthalt weder Vorschriften fur den Umfang der Verifizierung noch fur die Annahmekriterien der Kenngrosen. Diese sind in den Anwendungsdokumenten enthalten.

Non-destructive testing - Equipment for eddy current examination - Part 1: Instrument characteristics and verification

EN ISO 3452-3:2013 无损检测.渗透测试.第3部分:参考试块

Diese Internationale Norm legt zwei Arten von Kontrollkorpern fest: Kontrollkorper 1 werden verwendet, um die Empfindlichkeitsstufen von fluoreszierenden und farbigen Eindringsystemen festzulegen; Kontrollkorper 2 werden verwendet, um die routinemasige Beurteilung der fluoreszierenden und farbigen Eindringprufung durchzufuhren. Die Kontrollkorper sind nach Teil 1 dieser Internationalen Norm anzuwenden.

Non-destructive testing - Penetrant testing - Part 3: Reference test blocks

EN ISO 15548-2:2013 无损检测.涡流检验设备.第2部分:探针特性和验证

Dieser Teil von ISO 15548 legt die Funktionskenngrosen von Sensoren und der zugehorigen Verbindungselemente fest und enthalt Verfahren fur deren Messung und Verifizierung. Die Beurteilung dieser Kenngrosen ermoglicht eine genaue Beschreibung und Vergleichbarkeit von Wirbelstromprufgeraten. Durch sorgfaltige Auswahl der Kenngrosen kann ein reproduzierbares und effektives Wirbelstromprufsystem fur spezifische Anwendungen entworfen werden. Bei der Verwendung von Zubehorteilen sollten diese nach den Grundlagen dieses Teils von ISO 15548 charakterisiert werden. Dieser Teil von ISO 15548 enthalt weder Vorschriften fur den Umfang der Verifizierung noch fur die Annahmekriterien der Kenngrosen. Diese sind in den Anwendungsdokumenten enthalten.

Non-destructive testing - Equipment for eddy current examination - Part 2: Probe characteristics and verification

EN ISO 5579:2013 无损检测.金属材料用X和γ射线照相检验.基本规则

Diese Internationale Norm enthalt die allgemeinen Regeln fur industriell genutzte Rontgen- und Gammastrahler zum Auffinden von Fehlern unter Anwendung der Filmtechnik, die fur die Prufung von metallischen Produkten und Werkstoffen gelten. Diese Norm legt keine Bewertungskriterien fur die Fehler fest.

Non-destructive testing - Radiographic testing of metallic materials using film and X- or gamma rays - Basic rules

ANSI/ASME BPVCSection 5-2013 无损检测

Nondestructive Examination

ASTM A531/A531M-13 汽轮发电机钢定位环的超声波检验的标准操作规程

1.1 This practice covers ultrasonic examination of turbine-generator retaining rings produced in accordance with Specifications A288 and A289/A289M with an inside diameter to wall thickness ratio equal to or greater than 5:1 and with wall thicknesses from 1 to 4 in. [25 to 102 mm]. 1.2 Forgings may be inspected by either the contact or the immersion methods, or combinations thereof, as agreed upon between the manufacturer and the purchaser. 1.3 Supplementary requirements of an optional nature are provided for use at the option of the purchaser. The supplementary requirements shall apply only when specified individually by the purchaser in the purchase order or contract. 1.4 This practice is expressed in inch-pound and SI units; however, unless the purchase order or contract specifies the applicable “M” specification designation (SI units), the inch-pound units shall apply. The values stated in either SI units or inch-pound units are to be regarded separately as standard. Within the practice, the SI units are shown in brackets. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in nonconformance with the standard. 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 Practice for Ultrasonic Examination of Turbine-Generator Steel Retaining Rings

ASTM B594-13 航空设备用铝合金锻造制品超声波检验的标准操作规程

5.1 A number of factors such as the condition of the entry and back surfaces of the inspected part, the inclination of the ultrasonic beam with respect to the entry surface, and variations in the performance characteristics of the test system may cause significant differences in amplitudes of discontinuity indications and back reflections. These factors can seriously impair the reliability and the quantitative value of the ultrasonic test outlined in this practice. 5.2 Accurate evaluations of discontinuity size are also significantly affected by variations in search unit characteristics and by irregularities in discontinuity surfaces which can influence reflectivity. For these reasons, the discontinuity sizes that may be implied by the ultrasonic comparisons outlined in this practice must be regarded as “apparent” or “estimated” in recognition of the limited quantitative value of the measurement. 5.3 Because numerous interacting variables in a test system can adversely influence the results of an ultrasonic inspection, the actual quantitative effects of detected discontinuities upon the mechanical properties of the inspected product are difficult to establish. Although this practice provides a reliable control of product quality during manufacture, it is not applicable as an exclusive indicator of the ultimate quality and performance of components fabricated from the inspected products covered by this practice. 1.1 This practice covers the requirements for pulse-echo ultrasonic inspection and includes criteria used to define applicable quality levels of aluminum-alloy wrought products when performance of the ultrasonic test by the producer is specified, or when ultrasonic inspection is performed by the purchaser upon receipt. 1.2 This practice is not applicable if plastic deformation is introduced into the material after delivery. 1.3 The ultrasonic test described in this practice is employed to detect internal discontinuities oriented in a direction parallel to, or nearly parallel to, the surface of the product. The test is performed either by the immersion method or the contact method using pulsed longitudinal waves which are transmitted and received by a search unit containing either a single crystal or a combination of electrically interconnected multiple crystals. Ultrasonic tests employing either the through-transmission or the angle-beam techniques are not included. Note 1—Ultrasonic tests employing angle-beam techniques require special reference blocks, search units, and scanning procedures and are subject to negotiation between the purchaser and the seller when such tests are required by the contract or purchase order. 1.4 The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are mathematical conversions to SI units which are provided for information only and are not considered standard. 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 limitatio......

Standard Practice for Ultrasonic Inspection of Aluminum-Alloy Wrought Products

BS EN ISO 3059:2012 无损检测.渗透检测与磁性粒子检测.检视条件

Non-destructive testing. Penetrant testing and magnetic particle testing. Viewing conditions

ISO 3059:2012 无损检测.渗透检测与磁性粒子检测.检视条件

This International Standard specifies the control of the viewing conditions for magnetic particle and penetrant testing. It includes minimum requirements for the illuminance and UV-A irradiance and their measurement. It is intended for use when the human eye is the primary detection aid. This International Standard does not cover the use of actinic blue light sources.

Non-destructive testing - Penetrant testing and magnetic particle testing - Viewing conditions