Toimialayhteisöt

 

 

 

This document gives the definitions of the major technical terms and expressions used to describe an automatic steam trap as far as dimension, pressure, temperature and flow rate are concerned, as well as their corresponding symbols and units.

 

This document specifies a classification of the main types of automatic steam traps according to the mode of actuation of their obturation device and disregarding their details of conception and construction.

 

This document specifies fundamental parameters of computed radiography (CR) systems with the aim of enabling satisfactory and repeatable results to be obtained economically. The techniques are based both on fundamental theory and test measurements. This document specifies the performance of CR systems and the measurement of the corresponding parameters for the system scanner and storage phosphor imaging plate (IP). CR system classes are defined in combination with specified metal screens for industrial radiography. This document ensures that the quality of the images, as far as they are influenced by the scanner IP system, complies with the requirements of ISO 16371-2. This document considers the requirements for film radiography specified in ISO 11699-1. This document specifies system tests at different levels. More complex manufacturer tests are described, which allow the determination of precise system parameters to characterize the performance of CR systems from different suppliers and make them comparable for users. Simpler tests are also described, which are designed for fast tests of the quality of CR systems and long-term stability monitoring by the user.

 

This document specifies the principle, method, condition, preparation, procedure, data analysis and report of sea trial for net energy-savings efficiency of air lubrication device. It is applicable to the sea trial for Net energy-saving efficiency of air lubrication device.

 

This document provides a framework of descriptors to support the consistent characterization of AI system methods and capabilities. The framework helps AI stakeholders to describe AI systems and have a common understanding of them. This document applies to all types of organizations involved in any of the life cycle stages of AI systems as well as to any AI stakeholder roles.

 

This document provides definitions, concepts, guidelines and methodology to address AI-enhanced nudging mechanisms by organizations. It provides requirements for designing responsible AI-enhanced nudging mechanisms, key indicators, both horizontally and vertically. This document supports organizations that develop or use AI-enhanced nudges, as well as entities interested in the protection of civil society and individuals, including consumers and workers.

 

This document provides guidance on the intent of the requirements in iso:proj:88464ISO/DIS 9001 ISO 9001:2026, with examples of possible steps an organization can take to meet the requirements. It does not add to, subtract from, or in any way modify those requirements. This document does not prescribe mandatory approaches to implementation or provide any preferred method of interpretation.

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Tiedoksi lausunnonantajalle: 

Lausunnon ensisijaisena tarkoituksena on vastaanottaa kommentteja ja kannanottoja suomalaisilta yksityishenkilöiltä ja organisaatioilta standardiluonnoksen teknistä sisältöä ja hyväksymistä koskien. Vastaa kohdassa ’Ota kantaa’ tulisiko tämä standardiluonnos hyväksyä maailmanlaajuiseksi ISO-standardiksi. Kantasi ja kommenttisi otetaan huomioon Suomen kannan muodostamisessa lausunnon eräännyttyä.

Kannanotot ja kommentit käsitellään lausuntoajan päätyttyä SFS:n standardointiryhmässä SFS/SR 105 laadunhallinta.

 

This document specifies the technical requirements, the appropriate dimensions and the requirements for the testing of swivel castors for hospital beds with a wheel diameter of 100 mm or more and which have a central locking device.

 

This document establishes the organizational, design, construction, operational, and quality-assurance requirements applicable to heterogeneous, thermal-spectrum research reactors with power levels up to several tens of megawatts. It defines the minimum expectations for management structure, project governance, safety culture, quality assurance, documentation control, and lifecycle oversight necessary to ensure safe, compliant, and effective reactor operation. The document applies to new research reactors and, where practicable, to existing or legacy reactors using a graded approach consistent with IAEA SSR-3[6] and IAEA SSG-22.[10] It addresses administrative and operational controls, procurement and inspection processes, training and qualification, radiation protection, and change management throughout the reactor lifecycle, including modifications and decommissioning. This document does not prescribe detailed technical design specifications; rather, it provides the framework within which such specifications are developed, reviewed, and controlled. Additional guidance may be required for reactors exceeding the stated power range or for specialized reactor types such as fast-spectrum systems or facilities incorporating advanced experimental features.

 

This part of ISO 1628 defines particular conditions for determining the reduced viscosity (also known as viscosity number) and intrinsic viscosity of polyethylenes and polypropylenes at elevated temperatures (135 °C – 160 °C) in dilute solution. The viscosity of polymer solutions can be affected by fillers or additives present in the sample. The value of a reduced viscosity determined by this method can therefore be unreliable if the sample contains fillers or other additives. NOTE Reduced viscosity is also known as the Staudinger function (Jv) and intrinsic viscosity as the Staudinger index (Jg).

 

This part of ISO 1628 specifies a method for the determination of the viscosity number (also referred to as "reduced viscosity") of dilute solutions of thermoplastic polyesters (TPs) in certain specified solvents. The method is applicable to poly(ethylene terephthalate) (PET), poly(butylene terephthalate) (PBT), poly- (cyclohexylenedimethylene terephthalate) (PCT), and poly(ethylene naphthalate) (PEN), as well as to copolyesters and other polyesters, referred to in iso:proj:76396ISO 20028-1:2019, that are soluble in one of the specified solvents under the specified conditions. The viscosity number is determined by the general procedure specified in iso:proj:86451ISO 1628-1:2024, observing the particular conditions specified in this part of ISO 1628. The determination of the viscosity number of a thermoplastic polyester provides a measure of the relative molecular mass of the polymer.

 

1.1 This document specifies conditions for the determination of the reduced viscosity (also known as viscosity number) and K-value of PVC resins. It is applicable to resins in powder form which consist of homopolymers of the monomer vinyl chloride and copolymers, terpolymers, etc., of vinyl chloride with one or more other monomers, but where vinyl chloride is the main constituent. The resins can contain small amounts of unpolymerized substances (e.g. emulsifying or suspending agents, catalyst residues, etc.) and other substances added during the course of the polymerization. This document is not applicable, however, to resins having a volatile-matter content in excess of 0,5 % ± 0,1 %, when determined in accordance with iso:proj:39135ISO 1269:2006. In addition to this, it is not applicable to resins which are not entirely soluble in cyclohexanone. 1.2 The reduced viscosity and K-value of a particular resin are related to its molecular mass, but the relationship varies depending on the concentration and type(s) of other monomer(s) present. Hence, homopolymers and copolymers having the same reduced viscosity or K-value can have different molecular masses. 1.3 The values determined for reduced viscosity and K-value, for a particular sample of PVC resin, are influenced differently by the concentration of the solution chosen for the determination. Hence the use of the procedures specified in this document only gives values for reduced viscosity and K-value that are comparable when the concentrations of the solutions used are identical. 1.4 The experimental procedures specified in this document can also be used to characterize the polymeric fraction obtained during the chemical analysis of a PVC composition. However, the values calculated for the reduced viscosity and K-value in these circumstances can deviate form the correct values for the resin used to produce the composition because of the impure nature of the recovered polymer fraction.

 

 

This document specifies safety requirements and the means for their verification for driverless industrial trucks (hereafter referred as trucks) and their systems. NOTE 1 Examples of industrial trucks can be found in ISO 5053-1:2020 For the purpose of this document, driverless industrial trucks are: — powered mobile machines; — having at least three wheels; — operating in an industrial environment; — designed to carry, tow, push, lift, tier in a rack, or stack a load (load handling); — controlled by automation, independent of their level of autonomy and; — which remain stable in the absence of power. NOTE 2 Level of autonomy is to be understood as type of navigation. This document is also applicable to trucks which are provided with one or more of the following: — automatic modes which either require operators’ actions to initiate or enable such automatic operations; — the capability to transport one or more riders (which are not considered as drivers); — additional modes which allow operators to operate the truck manually; — maintenance modes which allow manual operation of truck functions for maintenance reasons. This document is applicable where trucks operate in an area of application where people have specific training, instruction or awareness. This document is applicable to all significant hazards, hazardous situations or hazardous events during all phases of the lifecycle (ISO 12100:2010, 5.4), as listed in Annex B, relevant to the applicable machines when they are used as intended and under conditions of misuse which are reasonably foreseeable. This document is not applicable to the following: — solely mechanically guided trucks; — trucks that are solely remotely controlled by an operator (see ISO/DIS 3691-1:2025). This document does not cover significant hazards related to: — protection against corruption; — special requirements for guards / adjustable guards restricting access; — noise; — vibrations; — ionising and non-ionising radiation; — laser radiation; — cleaning of internal parts; — sales literature (commercial documents); — supervisory function; — declaration of vibrations transmitted by mobile machinery; — self-evolving behaviour or logic (e.g, artificial intelligence). It does not address the hazards that can occur: — during operation in severe conditions (e.g. extreme climates, freezer applications, strong magnetic fields); — during operation in nuclear environments; — during operation on a public road; — during operation in potentially explosive environments; — during operation in military applications; — during operation with specific hygienic requirements; — during operation in ionizing radiation environments; — during the transportation of (a) person(s) other than (the) intended rider(s); — when handling loads the nature of which can lead to dangerous situations (e.g. molten metals, acids/bases, radiating materials); — for rider positions with an elevation function higher than 1 200 mm from the floor/ground to the platform floor. This document does not contain safety requirements for trucks intended to operate in public zones or spaces accessible to any persons without specific training, instruction or awareness. This document does not contain safety requirements for trailer(s) being towed behind a truck. This document does not contain specific safety requirements for elevated operator trucks. This document does not apply to trucks manufactured before the date of its publication. This document does not take into consideration domestic animals as they are not expected to be present in industrial environments.

 

This document specifies principles, requirements and guidance for organizations to develop, implement and communicate a net zero aligned pathway. This includes setting targets, developing plans, taking actions and demonstrating verifiable progress towards these targets, in support of global net zero, respecting the Paris Agreement [2].

 

This document sets requirements to be fulfilled by organizations to make the following claims : 1. Net zero aspiration or 2. Net zero aligned transition plan; or 3. Net zero aligned progress; or 4. Net zero achievement.

 

It is applicable to a wide range of organizations (including companies, corporations, firms, partnerships, non-governmental organizations or academic institutions) in the public or private sectors.

 

It does not apply to territories (such as regions, countries, states or cities) or by sectors, as the basis for establishing frameworks applicable at those levels. Also, it is not to be used for products, services, events, brands, or claims relating to them, for which other standards are available.

 

This document has been developed primarily for non-financial institutions. ISO/FDIS 32212 [13] Sustainable finance — Net zero transition planning for financial institutions specifically addresses financing activities. However, this document can also be applied by financial institution to their non-financing activities.

 

Where relevant, this document makes reference to other existing standards and frameworks applicable to financial institutions, for example the Science-Based Target Initiative's (SBTi) Financial Institutions Net-Zero Standard and the Partnership for Carbon Accounting Financial's (PCAF) Global Accounting and Reporting Standards

 

This standard is greenhouse gas (GHG) programme neutral. If a greenhouse gas (GHG) programme is applicable, requirements of that greenhouse gas (GHG) programme are additional to the requirements of this standard.

 

Annex A provides guidance for the application of this document by SME users.

 

This document specifies a method for identifying microplastics, using microscopic observation, whether the size of captured fibre fragments released from fabrics under washing test conditions. It also specifies a thermal method and a gravimetric method for the quantitative determination of microplastics made of certain synthetic fibres: polyester (PES), polyamide (PA), acrylic (PAN), elastane (EL), polypropylene (PP), and polyethylene (PE). The thermal methods such as pyrolysis-gas chromatography-mass spectrometry (Py-GC-MS) and thermo extraction desorption-gas chromatography - mass spectrometry (TED-GC-MS) are applicable to PES, PAN, PA, and EL. The gravimetric method is applicable to PP and PE, including blended fabrics, provided that non-PP/PE components are dissolved by appropriate solvents so that PP and PE are isolated for quantification. These thermal and gravimetric methods are applicable to fabrics composed of these six synthetic fibres, either alone or in blends with other fibres (e.g., natural or non-target synthetic fibres). Gravimetric method does not apply to: solvent-insoluble components (e.g., aramids) composed with polypropylene and/or polyethylene

 

This document provides a framework of descriptors to support the consistent characterization of AI system methods and capabilities. The framework helps AI stakeholders describe AI systems and have a common understanding of them. This document applies to all types of organizations involved in any of the lifecycle stages of AI systems as well as to any AI stakeholder roles

 

This document specifies a thermal method and a gravimetric method for a quantitative determination of the certain synthetic materials (polyester, polyamide, acrylic, elastane, polypropylene and polyethylene) released from fabrics under washing test conditions. This method is applicable to synthetic fabric and synthetic/natural blended fabric - Synthetic/cellulosic fabrics (e.g. PET/Cotton, Nylon/Cotton, Acrylic/Cotton) - Synthetic/protein fabrics (e.g. PET/Wool, Nylon/Wool, Acrylic/Wool)