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ISO 19226:2017 provides a procedure for the evaluation of irradiation data in the region between the reactor core and the inside surface of the containment vessel, through the pressure vessel and the reactor cavity, between the ends of active fuel assemblies, given the neutron source in the core. NOTE These irradiation data could be neutron fluence or displacements per atom (dpa), and Helium production. The evaluation employs both neutron flux computations and measurement data from in-vessel and cavity dosimetry, as appropriate. This document applies to pressurized water reactors (PWRs), boiling water reactors (BWRs), and pressurized heavy water reactors (PHWRs). ISO 19226:2017 also provides a procedure for evaluating neutron damage properties at the reactor pressure vessel and internal components of PWRs, BWRs, and PHWRs. Damage properties are focused on atomic displacement damage caused by direct displacements of atoms due to collisions with neutrons and indirect damage caused by gas production, both of which are strongly dependent on the neutron energy spectrum. Therefore, for a given neutron fluence and neutron energy spectrum, calculations of the total accumulated number of atomic displacements are important data to be used for reactor life management.

 

This document specifies fundamental techniques of film and digital radiography with the object of enabling satisfactory and repeatable results to be obtained economically. The techniques are based on generally recognized practice and fundamental theory of the subject. This document applies to the radiographic examination of steel pipes for service induced flaws such as corrosion pitting, generalized corrosion and erosion. Besides its conventional meaning, "pipe" as used in this document is understood to cover other cylindrical bodies such as tubes, penstocks, boiler drums and pressure vessels. Weld inspection for typical welding process induced flaws is not covered, but weld inspection is included for corrosion/erosion type flaws. The pipes can be insulated or not, and can be assessed where loss of material due, for example, to corrosion or erosion is suspected either internally or externally. This document covers the tangential inspection technique for detection and through-wall sizing of wall loss, including with the source: a) on the pipe centre line; and b) offset from pipe centre line by the pipe radius. ISO 20769-2 covers double wall radiography, and note that the double wall double image technique is often combined with tangential radiography with the source on the pipe centre line. This document applies to tangential radiographic inspection using industrial radiographic film techniques, computed radiography (CR) and digital detector arrays (DDA).

 

This document specifies fundamental techniques of film and digital radiography with the object of enabling satisfactory and repeatable results to be obtained economically. The techniques are based on generally recognized practice and fundamental theory of the subject. This document applies to the radiographic examination of pipes in metallic materials for service induced flaws such as corrosion pitting, generalized corrosion and erosion. Besides its conventional meaning, "pipe" as used in this document is understood to cover other cylindrical bodies such as tubes, penstocks, boiler drums and pressure vessels. Weld inspection for typical welding process induced flaws is not covered, but weld inspection is included for corrosion/erosion type flaws. The pipes can be insulated or not, and can be assessed where loss of material due, for example, to corrosion or erosion is suspected either internally or externally. This document covers double wall inspection techniques for detection of wall loss, including double wall single image (DWSI) and double wall double image (DWDI). Note that the DWDI technique described in this document is often combined with the tangential technique covered in ISO 20769-1. This document applies to in-service double wall radiographic inspection using industrial radiographic film techniques, computed digital radiography (CR) and digital detector arrays (DDA).

 

ISO 12800:2017 gives guidelines on the determination of the specific surface area of as-fabricated uranium dioxide powder by volumetric or gravimetric determination of the amount of nitrogen adsorbed on the powder, and can be applied to other similar materials, e.g. U3O8, UO2-PuO2 powders, and other bodies with similar surface areas, e.g. powder granules or green pellets, provided that the conditions described are fulfilled. Modifications using other adsorbing gases are included. The method is relevant as long as the expected value is in the range between 1 m2/g and 10 m2/g.

 

This document provides an overview of the standards developed in the ISO 25500 series for supply chain interoperability and integration. The following are within the scope of this document: — stating the scope of the ISO 25500 series as a whole; — establishing the principles of supply chain interoperability and integration; — describing the path to supply chain interoperability and integration; — describing the structure of the supply chain interoperability and integration series; — providing a summary of the content of each part in the supply chain interoperability and integration series; — establishing the relationship of the supply chain interoperability and integration series to other international standards. The following are outside the scope of this document: — the interoperability and integration of the physical objects or services exchanged

 

This document defines terms relating to supply chain interoperability and integration. These terms are used by standards developed in the ISO 25500 series for Supply Chain Interoperability and Integration.

 

To verify trading entity identity data with the authoritative source, this document specifies the requirements for formatting requests and replies to request types: verify, resolve, and search. The following are within the scope of this document: — terms related to international business registration numbers (IBRNs) and international business identifiers (IBIDs) and the dataset used for verification of trading entities — the syntax requirements and application protocol interface (API) for a request and response to a request for the verification of an IBID to verify trading entity identity data (verify) — the syntax requirements and API for a request and reply to the request for resolution of an IBID or IBRN to other data associated with the trading entity (resolve) — the syntax requirements and API for a request and response to a request to search for an IBID, IBRN, or authoritative legal entity identifier (ALEI) given a legal name (search) The following are outside the scope of this document: — the methods used for the resolution of IBIDs and IBRNs by the register that issued the ALEI

 

This document specifies test methods for the determination of the carbon black content of polyolefin compositions used for the manufacture of pipes and fittings. This document applies equally to the material for manufacture and to any material taken from a pipe or fitting.

 

This document specifies the procedure for determining bulk, dry and grain densities as well as open porosity of a rock specimen using the immersion method and a combination of the linear method and gas pycnometry. This document is applicable to the laboratory determination of density and open porosity of a rock test specimen within the scope of geotechnical investigations. Other methods for determining the bulk mass, grain mass, bulk volume and grain volume of the specimen that fulfil the requirements set in this document may also be considered acceptable (Annex B). Used method should be chosen based on the use case (type of specimen, availability etc.). Bulk, dry and grain density as well as open porosity are determined for the specimen as is and are dependent on fluid content, which shall be determined and reported as per ISO 16383-1. NOTE This document fulfils the requirements of the determination of bulk density of rock for geotechnical investigation and testing in accordance with EN 1997-2 (2024).

 

For the verification of certificates, this document specifies the requirements for three request types – verify certificate, resolve certificate, and search certificate and the responses to these requests. The following are within the scope of this document: — terms related to certificates and the dataset used for verification — the syntax requirements and application protocol interface (API) for a request and response to a request to verify a certificate with an identifier formatted in accordance with ISO 8000-115 (verify certificate) — the syntax requirements and API for a request and response to a request to verify a dataset of a certificate with an identifier formatted in accordance with ISO 8000-115 (resolve certificate) — the syntax requirements and API for a request and response to a request to search for a certificate identifier formatted in accordance with ISO 8000-115 given a certificate recipient’s name (search certificate) The following are outside the scope of this document: — the methods used for the resolution of certificates by the entity that issued the identifier

 

This document describes the fundamental concepts and principles of strategic sourcing which are universally applicable to the following: — organizations seeking to improve their onboarding process through a common understanding of the fundamental concepts, principles and vocabulary used in strategic sourcing; — organizations seeking to improve the quality of the data they receive from their trading partners in order to establish confidence in their supply chain. The following are within the scope of this document: — terminology required to describe the workflow and data used in the strategic sourcing process; — stages of the strategic sourcing process; — data required to support the strategic sourcing process; — metadata and reference data required to support the strategic sourcing process. The following are outside the scope of this document: — data exchange technology; — supplier evaluation methods and techniques.

 

To verify data in support of local purchasing, this document specifies the requirements for formatting requests and replies to request types: resolve and search. The following are within the scope of this document: The following are within the scope of this document: — terms related to local purchasing and the data set used for verification — the syntax requirements and API for a request and response to a request for a HS code formatted in accordance with ISO 8000-115 and the dataset of an item that includes the characteristic data necessary to verify the HS code assigned to the item (resolve) — the syntax requirements and API for a request and response to a request to verify the international facility identifier(s) for the origin of an item given an item identifier formatted in accordance with ISO 8000-115 (search) — the methods used to capture the data required to determine the location of manufacturer or provision of services The following are outside the scope of this document: — the methods used for the resolution of ISO 8000-115 identifier to the ISO 8000-114 data set

 

This document supports supply chain interoperability and integration and provides the fundamental structure for exchanging verified data in an industrial internet. Identifiers, like part numbers, are the shorthand for datasets throughout the supply chain. This document supports verifying those identifiers and the datasets they represent through providing the format of three data requests - verify, resolve, search - to the identifier issuers and their replies to the three requests. The following are within the scope of this document: — terms related to identifiers and the dataset used for verification — the syntax requirements and application protocol interface (API) for a request and response to a request for the verification of identifiers formatted in accordance with ISO 8000-115 (verify) — the syntax requirements and API for a request and response to a request for a dataset of an identifier formatted in accordance with ISO 8000-115 (resolve) — the syntax requirements and API for a request and response to a request to search for an identifier formatted in accordance with ISO 8000-115 given characteristic data (search) The following are outside the scope of this document: — the methods used for the resolution of identifiers by the identifier issuer — the data elements required for resolution of identifiers

 

 

This part of ISO/IEC 7816 specifies the power and signal structures, and information exchange between an integrated circuit card and an interface device such as a terminal. It also covers signal rates, voltage levels, current values, parity convention, operating procedure, transmission mechanisms and communication with the card. It does not cover information and instruction content, such as identification of issuers and users, services and limits, security features, journaling and instruction definitions.

 

This document provides guidance for the design, manufacture, and testing of pressure vessels to meet the performance criteria at the time of installation for the stationary storage of gaseous hydrogen. Pressure vessels fabricated of seamless metallic or welded construction (Type 1) or of composite construction (Types 2, 3, 4), regardless of reinforcement (metallic or non-metallic), are covered by this standard. This standard can be applied to pressure receptacles as defined in iso:pub:std:FDIS:79732ISO 10286:2021within the volume and pressure limits provided below. This document is not applicable to pressure vessels used for: a) solid storage matrix for hydrogen, b) liquid hydrogen, c) hybrid cryogenic high-pressure hydrogen storage applications, d) or on-board vehicle storage. This document is not applicable to closures, valves, fittings, plugs or external piping.

 

This part of ISO 15638 provides the following for cooperative telematics applications for regulated commercial freight vehicles (4.37): a) A framework (4.20) for the provision of cooperative telematics application services for regulated commercial freight vehicles; b) A description of the concept of operation, regulatory aspects and options and the role models; c) A conceptual architecture (4.7) using an on-board unit and wireless communications to a regulator (4.25) or its agent; d) References for the key documents on which the architecture (4.7) is based; e) Details of the architecture (4.7) of the Facilities Layer; f) A taxonomy of the organisation of generic procedures; g) Common terminology for the ISO 15638 family of standards. This part of ISO 15638 is based on a (multiple) service provider (4.39) oriented approach. ISO 15638 has been developed for use in the context of regulated commercial freight vehicles. There is nothing however to prevent a jurisdiction extending or adapting the scope to include other types of regulated vehicles, as it deems appropriate. NOTE The specific ‘approval’ procedures for specific application services are a matter for the jurisdiction (4.24) and are outside the scope of this (or any) part of 15638. However, approval authorities (4.6) are encouraged to use the guidance of ISO 17000 and ISO/IEC 17065:2012 when developing and implementing such procedures.

 

ISO 20492-1 specifies two methods for testing the durability of edge seals of insulating glass units by means of climate tests: the final frost/dew point method and the moisture-penetration index method. This document is applicable to pre-assembled, permanently sealed, insulating glass units with one or two cavities, and with capillary tubes that are intentionally left open to equalize pressure inside the unit with the surrounding atmosphere. This document is not applicable to sealed, insulating glass units that contain a spandrel glass coating. This document does not apply to insulating glass (IG) units whose function is decorative only.

 

This document establishes two methods for testing the resistance to fogging of pre-assembled, permanently sealed insulating glass units or insulating glass units with capillary tubes intentionally left open. This document is not applicable to sealed, insulating glass units containing a spandrel glass coating due to testing limitations. This document does not apply to insulating glass (IG) units whose function is decorative only.

 

This document specifies two methods of test for insulating glass units, including a determination of the gas leakage rate and a determination of gas concentration tolerances. This document is applicable to pre-assembled, permanently sealed, insulating glass units with one or two cavities. It is not applicable to insulating glass units with capillary or breather tubes.