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EVS-EN ISO 13588:2019
Hind 13,22 EUR
Identne ISO 13588:2019; EN ISO 13588:2019
Non-destructive testing of welds - Ultrasonic testing - Use of automated phased array technology (ISO 13588:2019)
This document specifies the application of the phased array technology for the semi- or fully automated ultrasonic testing of fusion-welded joints in metallic materials of minimum thickness 6 mm. It applies to full penetration welded joints of simple geometry in plates, pipes, and vessels, where both the weld and the parent material are low-alloy and/or fine grained steel. For the testing of welds in other steel materials this document gives guidance. For coarse-grained or austenitic steels, ISO 22825 applies in addition to this document. This document provides guidance on the specific capabilities and limitations of the phased array technology for the detection, location, sizing and characterization of discontinuities in fusion-welded joints. Phased array technology can be used as a stand-alone technology or in combination with other non-destructive testing (NDT) methods or techniques, for manufacturing inspection, pre-service and for in-service inspection. This document specifies four testing levels, each corresponding to a different probability of detection of imperfections. This document permits assessment of discontinuities for acceptance purposes based either on amplitude (equivalent reflector size) and length, or on height and length. This document does not include acceptance levels for discontinuities. This document is not applicable for automated testing of welds during the production of steel products covered by ISO 10893-8, ISO 10893-11 and ISO 3183.

EVS-EN ISO 5178:2019
Hind 7,38 EUR
Identne ISO 5178:2019; EN ISO 5178:2019
Destructive tests on welds in metallic materials - Longitudinal tensile test on weld metal in fusion welded joints (ISO 5178:2019)
This document specifies the sizes of test specimens and the test procedure for carrying out longitudinal tensile tests on cylindrical test specimens in order to determine the mechanical properties of weld metal in a fusion welded joint. This document applies to metallic materials in all forms of product with joints made by any fusion welding process, having joint sizes that are sufficient to obtain cylindrical test specimens with dimensions in accordance with ISO 6892‑1. Unless specified otherwise for specific points in this document, the general principles of ISO 6892‑1 apply.

CWA 17357:2019
Hind 11,67 EUR
Identne CWA 17357:2019
Urban search and rescue (USaR) robotic platform technical and procedural interoperability - Guide
This CWA provides recommendations to enable interoperability between urban search and rescue (USaR) robotic platforms and the equipment, sensors and tools that are attached to them. This CWA also provides guidance on the principles for enabling USaR robotic platforms to operate in all ground search environments. In this way a generic platform can be adapted, designed and built for any possible search and rescue (SAR) scenario on the ground. The CWA also covers sensors and equipment developed for SAR purposes. The CWA is for use by organizations responsible for designing, manufacturing, configuring, customizing and maintaining USaR robotic platforms, tools, equipment and sensors. The CWA is also for use by integrators and providers of SAR platforms in general. The CWA is of interest to first responder organizations, operators, public authorities and end-users dealing with USaR mission organization and execution. The CWA is also of interest in the procurement of USaR platforms

IEC 62443-4-2:2019
Hind 284,72 EUR
Security for industrial automation and control systems - Part 4-2: Technical security requirements for IACS components
IEC 62443-4-2:2019 provides detailed technical control system component requirements (CRs) associated with the seven foundational requirements (FRs) described in IEC TS 62443-1-1 including defining the requirements for control system capability security levels and their components, SL-C(component). As defined in IEC TS 62443-1-1 there are a total of seven foundational requirements (FRs): a) identification and authentication control (IAC), b) use control (UC), c) system integrity (SI), d) data confidentiality (DC), e) restricted data flow (RDF), f) timely response to events (TRE), and g) resource availability (RA). These seven FRs are the foundation for defining control system security capability levels. Defining security capability levels for the control system component is the goal and objective of this document as opposed to SL-T or achieved SLs (SL-A), which are out of scope.

ISO 2376:2019
Hind 33,81 EUR
Anodizing of aluminium and its alloys -- Determination of breakdown voltage and withstand voltage
This document specifies test methods for the determination of the breakdown voltage and withstand voltage of anodic oxidation coatings on aluminium and its alloys, on flat or near-flat surfaces and on round wire. The methods are applicable to anodic oxidation coatings used primarily as electrical insulators. The methods are not applicable to coatings in the vicinity of cut edges, the edges of holes, or sharp changes of angle on, for example, extruded shapes. NOTE 1 Breakdown voltage and withstand voltage are affected by relative humidity. NOTE 2 The methods described do not give satisfactory results for unsealed coatings because they are affected by the humidity in particular.
Asendab ISO 2376:2010

Asendatud või tühistatud standardid


EVS-EN ISO 5178:2011
Identne ISO 5178:2001; EN ISO 5178:2011
Destructive tests on welds in metallic materials - Longitudinal tensile test on weld metal in fusion welded joints (ISO 5178:2001)
This International Standard specifies the sizes of test specimens and the test procedure for carrying out longitudinal tensile tests on cylindrical test specimens in order to determine the mechanical properties of weld metal in a fusion welded joint. This International Standard applies to metallic materials in all forms of product with joints made by any fusion welding process, having joint sizes that are sufficient to obtain cylindrical test specimens with dimensions in accordance with ISO 6892. Unless specified otherwise for specific points in this International Standard, the general principles of ISO 6892 apply.
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EVS-EN ISO 13588:2012
Identne ISO 13588:2012; EN ISO 13588:2012
Non-destructive testing of welds - Ultrasonic testing - Use of automated phased array technology (ISO 13588:2012)
This International Standard specifies the application of the phased array technology for the semi- or fully automated ultrasonic testing of fusion-welded joints in metallic materials of minimum thickness 6 mm. It applies to full penetration welded joints of simple geometry in plates, pipes, and vessels, where both the weld and parent material are low-alloyed carbon steel. Where material-dependent ultrasonic parameters are specified in this International Standard, they are based on steels having an ultrasonic sound velocity of (5 920 ± 50) m/s for longitudinal waves, and (3 255 ± 30) m/s for transverse waves. It is necessary to take this fact into account when examining materials with a different velocity. This International Standard provides guidance on the specific capabilities and limitations of phased array technology for the detection, location, sizing and characterization of discontinuities in fusion-welded joints. Phased array technology can be used as a stand-alone technology or in combination with other non-destructive testing (NDT) methods or techniques, for manufacturing inspection, pre-service and for in-service inspection. This International Standard specifies four testing levels, each corresponding to a different probability of detection of imperfections. This International Standard permits assessment of indications for acceptance purposes based on either amplitude (equivalent reflector size) and length or height and length. This International Standard does not include acceptance levels for discontinuities. This International Standard is not applicable: - for coarse-grained metals and austenitic welds; - for automated testing of welds during the production of steel products covered by ISO 10893-8,[3] ISO 10893-11,[4] and ISO 3183.[1]
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prEN ISO 14713-2
Identne ISO/DIS 14713-2; prEN ISO 14713-2
Tähtaeg 15.05.2019
Zinc coatings - Guidelines and recommendations for the protection against corrosion of iron and steel in structures - Part 2: Hot dip galvanizing (ISO/DIS 14713-2:2019)
This part of ISO 14713 provides guidelines and recommendations regarding the general principles of design which are appropriate for articles to be hot dip galvanized after fabrication (e.g., to ISO 1461) for corrosion protection, for example, articles manufactured in accordance with EN 1090-2. The protection afforded by the hot dip galvanized coating to the article will depend upon the method of application of the coating, the design of the article and the specific environment to which the article is exposed. The hot dip galvanized article can be further protected by application of additional coatings (outside the scope of this part of ISO 14713), such as organic coatings (paints or powder coatings). When applied to hot dip galvanized articles, this combination of coatings is often known as a “duplex system”. Specific product-related requirements (e.g. for hot dip galvanized coatings on tubes or fasteners, etc.) will take precedence over these general recommendations. This standard does not apply to hot dip galvanized coatings applied to continuous sheet (e.g. to EN 10346).
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prEN ISO 8289-1
Identne ISO/DIS 8289-1; prEN ISO 8289-1
Tähtaeg 15.05.2019
Vitreous and porcelain enamels - Low-voltage test for detecting and locating defects - Part 1: Swab test for non-profiled surfaces (ISO/DIS 8289-1:2019)
This document specifies two low voltage tests for detecting and locating defects that extend to the basis metal in vitreous and porcelain enamel coatings. Method A (electrical) is suitable for the rapid detection and determination of the general location of defects. Method B (optical), based on colour effects, is suitable for the more precise detection of defects and their exact locations. Both methods are commonly applied to flat surfaces. For more intricate shapes such as undulated and/or corrugated surfaces ISO 8289-2 has to be applied. NOTE 1 Selection of the correct test method is critical to distinguish the areas of increased conductivity detected by Method B from actual pores that extend to the basis metal, which can be detected by both methods. NOTE 2 The low voltage test is a non-destructive method of detecting defects (see Clause 3) and therefore, is completely different from the high voltage test specified in ISO 2746. The result of high and low voltage test are not comparable and will differ.
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