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1.1 This document specifies the technical delivery conditions for forgings and for rolled or forged bars for construction of pressure equipment manufactured from the following steels: — non-alloy and alloy ferritic or martensitic steels with specified room temperature properties and supplementary requirements for elevated temperature properties, — nickel steels with specified low temperature properties, — weldable fine grain steels with high proof strength, — stainless steels. NOTE The term forgings covers open die forgings including ring rolled products as well as closed die forgings. 1.2 In addition to the requirements of this document, the general technical delivery requirements in ISO 404 apply, unless otherwise indicated.

 

This document defines several subsets of the syntax specified in ISO/IEC 21122-1 as profiles. It also defines lower bounds on the throughput in the decoded domain via levels and the encoded domain via sublevels that a conforming decoder implementation shall support. Furthermore, it defines a buffer model to ensure interoperability between implementations in the presence of a latency constraint.

 

This standard specifies the purpose, principle, timing, indicators and process of design and verification for diagnosability and reconfigurability of spacecraft. This standard is applicable to evaluate and design of diagnosability and reconfigurability in the whole life cycle including mainly the stages of ground design and working in-orbit. The evaluation and design of diagnosability and reconfigurability in other stage can also be referred to the implementation. This standard focuses on the subsystem of spacecraft can be reconfigured after a fault occurs, such as attitude and orbit control subsystem, power subsystem and TT&C subsystem.

 

This International Standard establishes technical requirements and guidelines for the quality assurance of COTS EEE components, ensuring that performance, quality, schedule, cost and other critical requirements are met throughout the entire life cycle of space mission. The family includes electro-optical components. This standard does not cover specific test items for different types of components.

 

This document provides guidelines for crowd management at events, mass gatherings and crowded places. It is designed to assist event organizers, event rights holders, event hosts, venue operators and emergency services in planning and executing effective, successful and safe crowd management by ensuring:

 

- implementation of the framework and principles for crowd management;

- necessary event and crowd profiling to understand the crowd management risk;

- available spaces for expected crowds using crowd capacity assessments;

- sufficient crowd management in the ingress, event circulation, and egress phases;

- safe and secure venues, spaces, and pathways for crowds in all phases and situations;

- sufficient crowd management plans both for planned execution and in emergencies;

- necessary engagement and involvement of public and private interested parties;

- continual improvement through systematic evaluation of crowd management arrangements.

 

This document does not address crowd control or situations that require intervention to manage crowds that display undesirable or dangerous behaviours.

 

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This standard applies to the chemical analysis of oxidic abrasives consisting of one or more of following oxides: alumina, zirconia, magnesia, titania, silica, chromium oxide, calcium oxide, iron oxide, sodium oxide, potassium oxide and rare earth oxides.

 

This document deals with the chemical analysis of abrasive grains or crude based on fused aluminium oxide. lt applies to commercially available products but not necessarily to products which have been altered by use. lt includes the following determinations: Loss on ignition — Silicon dioxide — lron oxide — Titanium dioxide — Calcium oxide — Magnesium oxide — Zirconium oxide — Aluminium oxide — Chromium oxide

 

This document specifies requirements and considerations for handling, measuring, and storing samples with ultra-low concentration of target nucleic acid sequences, i.e., concentrations corresponding to copy numbers. This document is applicable to nucleic acid detection methods (qPCR, dPCR, isothermal amplification, and NGS).

 

The scope of JPEG Trust Part 2 is to elaborate on Trust Profiles and Trust Reports, which are built on the Trust Indicators specified in JPEG Trust Part 1. In addition, JPEG Trust Part 2 provides a catalogue of snippets that can be used either on their own or in combination for the purpose of constructing trust profiles, which can be used for assessing the trustworthiness of media assets in given usage scenarios.

 

The document specifies DLT related requirements for establishing, improving, preserving, and assessing the privacy capability of a DLT system. The target audience of the document includes but is not limited to developers, providers, users and auditors of DLT system. It will be especially useful for the controllers and processors holding responsibility and accountability for privacy protected data processing.

 

This document specifies the requirements for the HSI 1000BASE-T1 communication channel used to connect machines, attachments and expansion kits within an HSI infrastructure. This document specifies general, mechanical, environmental and electrical requirements for: HSI communication channels; HSI cable assemblies; HSI cables; HSI connectors.

 

This document specifies the requirements for the HSI single communication channel coupling connector system used to connect machines, attachments and expansion kits within an HSI infrastructure. This document specifies: The HSI single communication channel coupling plug, break-away connector and expansion connector; Functional, stylistic, geometric, mounting, mechanical, material and electrical requirements; Conformance testing of the HSI single communication channel coupling connector system.

 

This document specifies an oven-drying method for the determination of the moisture content of a lot of paper and board. The procedure in Clause 8, describing how the test pieces are drawn from the lot, is performed at the time of sampling. This document is applicable to every type of lot of paper and board, including corrugated board and solid board, provided that the paper or board does not contain any substances, other than water, that are volatile at the temperature specified in this document. NOTE For determination of the dry matter content of a sample of paper or board, e.g. for calculation of the dry mass of the sample, ISO 638[1] can be used.

 

ISO 287:2017 specifies an oven-drying method for the determination of the moisture content of a lot of paper and board. The procedure in Clause 8, describing how the test pieces are drawn from the lot, is performed at the time of sampling. ISO 287:2017 is applicable to every type of lot of paper and board, including corrugated board and solid board, provided that the paper or board does not contain any substances, other than water, that are volatile at the temperature specified in this document. NOTE For determination of the dry matter content of a sample of paper or board, e.g. for calculation of the dry mass of the sample, ISO 638[1] can be used.

 

This document establishes a system for the transliteration of Arabic characters into Latin characters used to write the Arabic language. This modification of the stringent rules established by ISO 233:1984 is especially intended to facilitate the processing of bibliographic information (e.g. catalogues, indices, citations, etc.).

 

This document specifies an analytical method for determining the neptunium concentration by spectrophotometry, with spectrophotometer implemented in hot cell or glove box allowing the analysis of high activity solutions, with a standard uncertainty, with coverage factor k = 1 of about 5 %, in nitric acid solutions after the dissolution of nuclear reactor irradiated fuels, at different steps of the process in a nuclear fuel reprocessing plant or in other nuclear facilities. The method is applicable to sample from the process containing a concentration of neptunium between 10 mg·l-1 and 400 mg·l-1 and uranium concentrations of up to 300 g·l-1.

 

This document applies to the testing of surfaces that may become contaminated by radioactive materials. The ease of decontamination is a property of a surface and an important criterion for selecting surface materials used in the nuclear industry, interim storage or disposal facilities from which contamination can be removed easily and rapidly without damaging the surface. The test described in this document is a rapid laboratory-based method to compare the ease of decontamination of different surface materials. The results from the test can be one parameter to take into account when selecting surface coatings such as varnish or impervious layers such as ceramics and other surfaces. The radionuclides used in this test are those commonly found in the nuclear industry (137Cs, 134Cs and 60Co) in aqueous form. The test can also be adopted for use with other radionuclides and other chemical forms, depending on the customer requirements, if the solutions are chemically stable and do not corrode the test specimen. The test does not measure the ease of decontamination of the surface materials in practical use, as this depends on the radionuclide(s) present, their chemical form, the duration of exposure to the contaminant and the environmental conditions amongst other factors. The test method is not intended to describe general decontamination procedures or to assess the efficiency of decontamination procedures (see ISO 7503-1 to ISO 7503-3). The test method is not suitable for use of radiochemicals if the radionuclide emits low energy gamma rays or beta particles that are readily attenuated in the surface.

 

This document specifies machinery safety requirements. This document is applicable to thermal and catalytic cleaning systems with regenerative or recuperative preheating for exhaust gas loaded with flammable substances from surface treatment equipment. This document deals with all significant hazards, hazardous situations or hazardous events relevant to thermal and catalytic cleaning systems for exhaust gas from surface treatment equipment, when these are used as intended and under conditions of misuse which are reasonably foreseeable. See Annex A for significant hazards. The specific significant risks related to the use of this machinery with exhaust gases from sources other than surface treatment equipment (e.g. from chemical production, tank farms, cremation, wastewater treatment) are not dealt with in this document. Limits of thermal and catalytic cleaning systems for exhaust gas from surface treatment equipment are specified by the interfaces given in Figure 1. Figure 1 - Limits of the machinery This document is not applicable to - cleaning systems without preheating of input gas; - cleaning systems for input gas with a concentration of flammable substances higher than those specified in 4.8; - cleaning systems for input gas containing H2 or pyrolysis gases; - cleaning systems for input gas with a O2/N2 ratio higher than in air; - absorptive and adsorptive exhaust gas cleaning systems; - membrane separators; - UV exhaust gas cleaning systems; - filter systems; - plasma exhaust gas cleaning systems; - biological exhaust gas cleaning systems. This document is not applicable to the machinery or machinery components manufactured before the date of its publication.

 

This document describes an analytical method for the determination of uranium in samples from pure product materials such as U metal, UO2, UO3, uranyl nitrate hexahydrate, uranium hexafluoride and U3O8 from the nuclear fuel cycle. This procedure is sufficiently accurate and precise to be used for nuclear materials accountability. This method can be used directly for the analysis of most uranium and uranium oxide nuclear reactor fuels, either irradiated or un-irradiated, and of uranium nitrate product solutions. Fission products equivalent to up to 10 % burn-up of heavy atoms do not interfere, and other elements which could cause interference are not normally present in sufficient quantity to affect the result significantly. The method recommends that an aliquot of sample is weighed and that a mass titration is used, in order to obtain improved precision and accuracy. This does not preclude the use of alternative techniques which could give equivalent performance. The use of automatic device(s) in the performance of some critical steps of the method has some advantages, mainly in the case of routine analysis.

 

This document describes an analytical method for the determination of uranium in samples from pure product materials such as U metal, UO2, UO3, U3O8, uranyl nitrate hexahydrate and uranium hexafluoride from the nuclear fuel cycle. This procedure is sufficiently accurate and precise to be used for nuclear materials accountability. This method can be used directly for the analysis of most uranium and uranium oxide nuclear reactor fuels, either irradiated or un-irradiated, and of uranium nitrate product solutions. Fission products equivalent to up to 10 % burn-up of heavy atoms do not interfere, and other elements which could cause interference are not normally present in sufficient quantity to affect the result significantly. The method recommends that an aliquot of sample is weighed and that a mass titration is used, in order to obtain improved precision and accuracy. This does not preclude the use of alternative techniques which could give equivalent performance. The use of automatic device(s) in the performance of some critical steps of the method has some advantages, mainly in the case of routine analysis.