Toimialayhteisöt

Komitea: ISO/TC 206 (Fine ceramics)
Alkuperä: ISO
Määräpäivä: 2026-09-07
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This document specifies the use of the flash method for the determination of thermal diffusivity of ceramic matrix composites with continuous fibre reinforcement. In order to conform with the unidimensional heat transfer hypothesis, the experimental conditions are defined such that the material behaves in a homogeneous manner. This involves performing tests in one symmetry axis of the composite. The method is applicable to materials which are physically and chemically stable during the measurement, and covers the range of temperature from 100 K to 3 300 K. It is suitable for the measurement of thermal diffusivity values in the range 10-4 m2·s-1 to 10-7 m2·s-1.
Komitea: ISO/TC 8 (Ships and marine technology)
Alkuperä: ISO
Määräpäivä: 2026-09-07
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This document provides the foundational general guidelines and advisory specifications for ocean negative carbon emissions and carbon neutrality. It includes terminology, applicable technical domains, data quality principles, and reporting requirements. It applies to the research, development, implementation, and evaluation of ocean carbon sink enhancement activities carried out by competent authorities, research institutions, industries, and non-governmental organizations. The document emphasizes nature-based and engineering-supported approaches to increase ocean carbon absorption capacity, promote emission reduction, and contribute to carbon neutrality. It aims to offer a unified technical framework to guide practice, improve data governance, and promote global cooperation and harmonization of standards in this field. This document supports measurable, reportable and verifiable (MRV) approaches for ocean-based carbon activities.
Komitea: ISO/TC 70 (Internal combustion engines)
Alkuperä: ISO
Määräpäivä: 2026-09-07
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This part of ISO 3046 specifies the requirements for the declaration of power, fuel consumption, lubricating oil consumption, reagent consumption, and the test method in addition to the basic requirements defined in “Core” standard ISO 15550. This part of ISO 3046 defines codes for engine brake power in accordance with “Core” standard ISO 15550, in order, where necessary, to simplify the application of the statements of power and to facilitate communication. This applies, e.g., to statements of power used on engine data plates. It applies to Reciprocating Internal Combustion (RIC) engines for land, rail-traction and marine use. This part of ISO 3046 may be applied to engines used to propel road construction and earth-moving machines, industrial trucks, and for other applications where no suitable International Standard for these engines exists. It is a “Satellite” standard and is intended to be applied in conjunction with “Core” standard ISO 15550 only, in order to completely specifiy the requirements for the particular engine application. NOTE In addition to the terms used in the three official ISO languages (English, French and Russian), this International Standard gives, in Table 3, the equivalent terms in German; these have been included at the request of Technical Committee ISO/TC 70 and are published under the responsibility of the member body for Germany (DIN). However, only the terms given in the official languages can be considered as ISO terms.
Toimialayhteisö: SFS Suomen Standardit
Komitea: ISO/TC 258 (Project, programme and portfolio management)
Alkuperä: ISO
Määräpäivä: 2026-09-07
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This document describes artificial intelligence (AI) concepts, applications, and implications including governance and management, for use by organisations within the context of project, programme, and portfolio management. This document supplements ISO 21500:2021 [1], ISO 21502:2020 [2], ISO 21503:2022 [3], and ISO 21504:2022 [4], and provides guidance for organizations to consider when adopting or looking to improve their use of AI technologies to support their project, programme, and portfolio management efforts in an accountable manner. This document also provides project, programme and portfolio managers with guidance on considerations for responsible AI use. These considerations encompass security and privacy, governance frameworks, ethics, bias, transparency, and other relevant factors. This document is applicable to any public, private or non-profit organization, as well as any type of project, regardless of purpose, delivery approaches, lifecycle model, complexity, size, cost, or duration.
Toimialayhteisö: SFS Suomen Standardit
Komitea: ISO/TC 215 (Health informatics)
Alkuperä: ISO
Määräpäivä: 2026-09-07
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This document outlines a core dataset designed for a concise dental data exchange intended to support continuity and coordination of care. It provides a conceptual framework for a Dental Patient Summary that can serve as the basis for implementation models. The content reflects an international perspective on organizing dental information for cross-border exchange. It offers guidance on the essential data elements that should be shared globally and proposes a standardized format for their representation. The document focuses on defining the structure of the data to be exchanged (“the what”) without prescribing the specific methods or technologies used for transmission (“the how”). It does not include guidance on operational workflows such as data entry, collection, summarization, or integration. Nor does it address the competencies required to perform those tasks. Furthermore, it is not intended as an implementation guide and does not cover the underlying technical infrastructure or the use of particular coding systems, data formats, or terminologies.
Toimialayhteisö: SFS Suomen Standardit
Komitea: ISO/TC 37/SC 5 (Translation, interpreting and related technology)
Alkuperä: ISO
Määräpäivä: 2026-09-07
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Komitea: ISO/TC 20/SC 14 (Space systems and operations)
Alkuperä: ISO
Määräpäivä: 2026-09-08
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The scope of this document is CubeSats, CubeSat Deployers, and verification of their assurance/quality terms and metrics. This document defines a unique class of picosatellite, the CubeSat. CubeSats are ideal as space development projects for universities around the world. In addition to their significant role in educating space scientists and engineers, CubeSats provide a low-cost platform for testing and space qualification of the next generation of small payloads in space. A key component of the project is the development of a standard CubeSat Deployer. This Deployer is capable of releasing a number of CubeSats as secondary payloads on a wide range of launchers. The standard Deployer requires all CubeSats to conform to common physical requirements, and share a standard Deployer interface. CubeSat development time and cost can be significantly reduced by the development of standards that are shared by a large number of spacecraft. Normative control of the CubeSat design, qualification and acceptance testing is generally applied from other small satellite specific standards with the exception of CubeSat/Deployer launch environment test.
Toimialayhteisö: Kemesta
Komitea: ISO/TC 264 (Fireworks)
Alkuperä: ISO
Määräpäivä: 2026-09-08
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This document provides technical specifications on categories, operations, safety management and risk analysis of the use of proximity pyrotechnic articles. This document provides technical reference on the technologies of close proximity pyrotechnic articles. This document aims to provide technical guidance for the protection of property, operators, performers, auxiliary personnel, and audience safety when using pyrotechnic articles effects at close range indoors or outdoors, and to provide technical reference for proximity pyrotechnic article shows. This document applies to the use of proximity pyrotechnic articles in front of the nearest audience, performers, or supporting personnel for performing arts in conjunction with drama, music, or similar works. This document applies to the performance specifications, usage instructions, notifications, and labelling of manufacturers of pyrotechnic materials, instruments, equipment, and supplies. This document applies to any indoor use of proximity pyrotechnic articles.
Komitea: ISO/TC 8/SC 2 (Marine environment protection)
Alkuperä: ISO
Määräpäivä: 2026-09-09
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This document provides a method for addressing waste and cargo residues generated on inland navigation vessels when offloaded from the vessel, and how they are managed by the waste reception station (WRS). The provision, operation and use of WRSs are inherently linked, so this document addresses the design of WSRs, their operation, and management. This document applies to the management of waste and cargo residues generated as part of the normal operation of inland vessels. It also covers principles and issues that are to be considered with WRS operations. This document does not apply to waste derived from the demolition of vessels, reconstruction waste or maintenance waste that is not generated during the normal operation of the vessel. This document addresses the principles and issues considered in: — The development of a waste management strategy, — The design and operation of a WRS, and — WRS management and accountability. This document has been designed to be used by competent authorities, ports, terminals, WRS management and service providers, and WRSs of any type, size and category of waste received, for refining existing WRSs or designing new WRSs. It does not give specifics on the size or location of a WRS in each port, terminal, or waterway, but provides a list of principles to be considered and applied to any size or type of port or terminal (e.g. inland freight port, inland passenger port, marina, fishing port, container terminal, oil terminal, roll on/off terminal, locks, ferry terminal, bulk or general cargo terminal, ship repair or recycling facility, and offshore terminal). Ports that have entered regional arrangements for the provision of a WRS can also use this document.
Komitea: ISO/TC 10 (Technical product documentation)
Alkuperä: ISO
Määräpäivä: 2026-09-09
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This document specifies requirements for the preparation, revision and presentation of digital product definition data, hereafter referred to as datasets, to complement existing standards. It supports methods for the constitution of datasets ranging from 2D drawing-only to 3D model-only, and combinations in between. The structure of this document presents requirements common to the methods followed by clauses providing for any essential, differing requirements for each method. Additionally, its use in conjunction with computer-aided design (CAD) systems can assist in the progression towards improved modelling and annotation practices for CAD and engineering disciplines, as well as serving as a guideline for CAx software developers. The actual definitions for the interpretation, in particular the ISO TPD and ISO GPS rules, are taken from the original definition standards, e.g. ISO 129-1 [2] and ISO 1101 [3]. The rules for iso:proj:64007ISO 129-1 and iso:proj:66777ISO 1101 apply throughout this standard unless otherwise specified. When the term model is used in this document, it applies to both digital design models and annotated digital design models.
Komitea: ISO/TC 188 (Small craft)
Alkuperä: ISO
Määräpäivä: 2026-09-09
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This document specifies technical requirements and test methods for windows, portlights, hatches, deadlights and doors on small craft . It takes into account the type of craft, its design category, and the location of the appliance. The appliances considered in this document are only those that are critical for the craft's watertightness. Openings and non-opening devices fitted below area I (see 3.5.2) are excluded from the scope of this document.
Toimialayhteisö: SFS Suomen Standardit
Komitea: ISO/TC 28 (Petroleum and related products, fuels and lubricants from natural or synthetic sources)
Alkuperä: ISO
Määräpäivä: 2026-09-09
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This document specifies the principle, reagents and materials, apparatus, test procedure, calculation, precision statements, test result reporting, etc. for the determination of mineral oil content in triaryl phosphate ester turbine control fluids by saponification method. This document is applicable to determination of mineral oil content in triaryl phosphate ester turbine control fluids. The precision of this method is established for mineral oil content from 0,02 mass% to 8 mass% in triaryl phosphate ester, which can be referenced for other content ranges. Warning Some triaryl phosphate esters are labelled with GHS08 “Serious Health Hazards”. The user of triaryl phosphate esters shall study attentively the respective material safety datasheet and review the recommended precautions to be taken in link with the following hazard statements in the dedicated section of the datasheet: a)H360F May damage fertility. Wear protective gloves to avoid contact;b)H361D May damage the unborn child. This test is not recommended for pregnant individuals. If participation is unavoidable, adequate protective equipment is required to prevent any potential dermal contact;c)H351 Suspected of causing cancer. Use only in well-ventilated areas and wear appropriate respiratory and dermal protection;d)H341 Suspected of causing genetic defects. Wear complete protective equipment to avoid any physical contact.
Komitea: CEN/TC 464 (Small Craft)
Alkuperä: CEN
Määräpäivä: 2026-09-10
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This document specifies technical requirements and test methods for windows, portlights, hatches, deadlights and doors on small craft with a length of hull, LH, as defined in ISO 8666:2016, of up to 24 m. It takes into account the type of craft, its design category, and the location of the appliance. The appliances considered in this document are only those that are critical for the craft's watertightness. Openings and non-opening devices fitted below area I (see 3.5.2) are excluded from the scope of this document.
Toimialayhteisö: Kemesta
Komitea: CEN/TC 212 (Pyrotechnic articles)
Alkuperä: CEN
Määräpäivä: 2026-09-10
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This document defines the procedures for classifying, testing and labelling of cartridges for powder actuated tools (PAT cartridges), as defined in Clause 3 of this document. This document applies to PAT cartridges which are all classified as P1. This document does not apply to pyrotechnic articles containing blasting agents and military explosives except black powder and flash composition. PAT cartridges contain pyrotechnic composition(s) delivering mainly gases, intended to propel a piston. The piston propels fasteners (e.g. nails) or drives hard marking characters into appropriate materials. This document also applies to PAT cartridges sold to persons younger than 18 years, if this is permitted by the Member State due to the low hazard of the PAT cartridges. NOTE PAT cartridges can also be used for hard marking tools. Information on cartridge operated fixing and hard marking tools can be found in EN 15895:2025 [1]. This document applies to the cartridges listed in Table 1. Table 1 — Lists of the established calibres for PAT cartridges
Toimialayhteisö: Rakennustuoteteollisuus RTT
Komitea: CEN/TC 396 (Earthworks)
Alkuperä: CEN
Määräpäivä: 2026-09-10
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This document specifies a test method to determine the suitability of a soil to be treated with lime and/or hydraulic binders, with regard to volumetric swelling and mechanical strength, within a period not exceeding two to three weeks. This test can be integrated into the general method of a study of treatment of materials with lime and/or a hydraulic binder, in compliance with standard EN 16907 4. It is applicable to soils and alternative (or anthropogenic) materials treated with lime and/or hydraulic binders for the construction of embankments and capping layers; in the areas of roads, railways and airports; industrial or commercial platforms; hydraulic works and road foundations. The results of this test: — are only valid for the configuration tested (soil, treatment product, dosage); — are in no case usable for dimensioning a structure including treated materials. The values currently accepted to define treatment suitability are indicated for information in Annex A.
Toimialayhteisö: Rakennustuoteteollisuus RTT
Komitea: CEN/TC 175 (Round and sawn timber)
Alkuperä: CEN
Määräpäivä: 2026-09-10
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This document specifies a test method to determine the resistance to wear of lacquered wood floorings, a method to test the elasticity of the lacquer and a method to determine resistance to impact of lacquered wood floorings.
Toimialayhteisö: Rakennustuoteteollisuus RTT
Komitea: CEN/TC 442 (Building Information Modelling (BIM))
Alkuperä: CEN
Määräpäivä: 2026-09-10
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This document specifies a methodology, with general requirements and criteria, for the development of the data templates for the declaration of performance and conformity (DoPC) of construction products. NOTE This document integrates a data template structure from EN ISO 23387:2025 [4] to be used for DoPC of construction products, together with a methodology for experts to develop domain specific data templates, following EN ISO 23386:2020 [3] and the standards from CEN/CLC/JTC 24. Annex A provides guidance for the development of data templates for harmonized technical specifications (hTS) and European assessment documents (EAD), for product technical committees (TCs) and other stakeholders.
Toimialayhteisö: Rakennustuoteteollisuus RTT
Komitea: CEN/TC 51 (Cement and building limes)
Alkuperä: CEN
Määräpäivä: 2026-09-10
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This document covers calcium silicate cement (common cement) intended to be used: - for the preparation of concrete, mortar, grout, and other mixes for construction and for the manufacture of construction products including structural and non-structural products, including white cement; - for the preparation of mortar for bricklaying, blocklaying, rendering and plastering, including white cement; - for the preparation of adhesives for other construction products; - for soil stabilization or improvement, road bases and sub-bases, and capping layers. Calcium aluminate cement, supersulfated cement, very low heat cement and alkali activated binder as well as masonry cement exclusively manufactured for the preparation of mortar for bricklaying, rendering and plastering are excluded from this product definition. NOTE 1 Calcium silicate cements with an intended use as defined in this document belong to the product category "common cement". The product definition of common cement covers the following combination of constituents expressed in percentage as mass, any other combination is outside the product definition: a) primary cement (minimum of 95 % clinker); NOTE 2 This refers to the designation code CEM I. b) binary cements with clinker and a maximum of 95 % of blast furnace slag; NOTE 3 This refers to the designation codes CEM II/A-S, CEM II/B-S, CEM III/A, CEM III/B, CEM III/C. c) binary cements with clinker and a maximum of 10 % of silica fume; NOTE 4 This refers to the designation code CEM II/A-D. d) binary cements with clinker and a maximum of 35 % of one of the following constituents: natural pozzolana, natural activated pozzolana, fly ash, coal bottom ash, burnt shale, limestone or recycled concrete fines; NOTE 5 This refers to the designation codes CEM II/A-P, CEM II/B-P, CEM II/A-Q, CEM II/B-Q, CEM II/A-V, CEM II/B-V, CEM II/A-W, CEM II/B-W, CEM II/A-Z, CEM II/B-Z, CEM II/A-T, CEM II/B-T, CEM II/A-F, CEM II/B-F, CEM II/A-L, CEM II/B-L, CEM II/A-LL, CEM II/B-LL. e) pozzolanic cements with clinker and a maximum of 55 % of a combination of silica fume, natural pozzolana, natural activated pozzolana, fly ash and coal bottom ash with a maximum of 10 % silica fume; NOTE 6 This refers to the designation codes CEM IV/A, CEM IV/B. f) composite cement with a minimum of 50 % of clinker, a maximum of 29 % of recycled concrete fines and a maximum of 44 % of any combination of blast furnace slag, silica fume, natural pozzolana, natural activated pozzolana, fly ash, coal bottom ash, burn shale and limestone with a maximum of 10 % silica fume and a maximum of 35 % of the aggregation of limestone and recycled concrete fines; NOTE 7 This refers to the designation codes CEM II/A-M, CEM II/B-M, CEM II/C-M (containing recycled concrete fines and other allowed constituents). g) composite cement with a minimum of 50% of clinker and a maximum of 50% of any combination of blast furnace slag, silica fume, natural pozzolana, natural activated pozzolana, fly ash, coal bottom ash, burnt shale, limestone and recycled concrete fines with a maximum of 10% of silica fume, a maximum of 20% of recycled concrete fines, and a maximum of 35% of any combination of limestone and recycled concrete fines; NOTE 8 This refers to the designation codes CEM II/A-M, CEM II/B-M, CEM II/C-M (containing allowed constituents). h) composite cements with a minimum of 20 % of clinker, a maximum of 49 % of blast furnace slag and a maximum of 49 % of a combination of natural pozzolana, natural activated pozzolana, siliceous fly ash and coal bottom ash; NOTE 9 This refers to the designation codes CEM V/A, CEM V/B. i) composite cements with a minimum of 35 % clinker, a maximum of 59% of blast furnace slag and a maximum of 20 % of natural pozzolana, natural activated pozzolana, siliceous fly ash, coal bottom ash, limestone or recycled concrete fines; ...
Toimialayhteisö: Suomen ympäristökeskus
Komitea: CEN/TC 444 (Environmental characterization of solid matrices)
Alkuperä: CEN
Määräpäivä: 2026-09-10
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This document in the series specifies a compliance test providing information on leaching of granular waste materials, sludges, soil, soil-like materials and sediments under the experimental conditions specified hereafter, and particularly a liquid to solid ratio of 2 L/kg dry matter. It applies to materials which have a particle size below 4 mm without or with size reduction. This document has been developed to investigate the leaching of inorganic and non-volatile organic substances from granular waste materials, sludges, soil, soil-like materials and sediments. It does not take into account the consequences of microbiological processes in organic degradable materials. The test procedure specified in this document produces an eluate which is subsequently characterized physically and chemically according to appropriate standard methods. This document includes two different procedures for eluate preparation prior to analysis, one procedure for non-volatile organic substances, inorganic substances and DOC and one for inorganic substances and DOC. When assessing only the leaching of inorganic substances and DOC, certain precautions are needed when assessing the leaching of organic substances can in some cases be omitted. This procedure cannot be applied to materials with a water content or such a water affinity that a good mixing of the solid with the predetermined quantity of liquid is not achievable. This procedure does not apply to materials reacting with the leachant, leading, for example, to excessive gas emission, a solidifying effect or an excessive heat release. In that case, the material can be wetted prior to carrying out the leaching test. This test cannot be used alone to determine the leaching behaviour of granular waste materials, sludges, soil, soil-like materials and sediments, as specified in EN 12920. This document does not address issues related to health and safety. This procedure cannot be applied to materials with a water content or such a water affinity that a good mixing of the solid with the predetermined quantity of liquid is not achievable. This procedure does not apply to materials reacting with the leachant, leading, for example, to excessive gas emission, a solidifying effect or an excessive heat release. In that case, the material can be wetted prior to carrying out the leaching test. This test cannot be used alone to determine the leaching behaviour of granular waste materials, sludges, soil, soil-like materials and sediments, as specified in EN 12920. This document does not address issues related to health and safety.
Toimialayhteisö: Suomen ympäristökeskus
Komitea: CEN/TC 444 (Environmental characterization of solid matrices)
Alkuperä: CEN
Määräpäivä: 2026-09-10
LaajennaSupista
 
This document in the series specifies a compliance test providing information on leaching of granular waste materials, sludges, soil, soil-like materials and sediments under the experimental conditions specified hereafter, and particularly a liquid to solid ratio of 10 L/kg dry matter. It applies to materials which have a particle size below 4 mm without or with size reduction. This document has been developed to investigate the leaching of inorganic and non-volatile organic substances from granular waste materials, sludges, soil, soil-like materials and sediments. It does not take into account the consequences of microbiological processes in organic degradable materials. The test procedure specified in this document produces an eluate which is subsequently characterized physically and chemically according to appropriate standard methods. This document includes two different procedures for eluate preparation prior to analysis, one procedure for non-volatile organic substances, inorganic substances and DOC and one for inorganic substances and DOC. When assessing only the leaching of inorganic substances and DOC, certain precautions are needed when assessing the leaching of organic substances can in some cases be omitted. This procedure cannot be applied to materials with a water content or such a water affinity that a good mixing of the solid with the predetermined quantity of liquid is not achievable. This procedure does not apply to materials reacting with the leachant, leading, for example, to excessive gas emission, a solidifying effect or an excessive heat release. In that case, the material can be wetted prior to carrying out the leaching test. This test cannot be used alone to determine the leaching behaviour of granular waste materials, sludges, soil, soil-like materials and sediments, as specified in EN 12920. This document does not address issues related to health and safety.