SFS Suomen Standardit

 

This document describes processes targeted at VSEs that want to sustain and grow as an independent competitive software development business. ISO/IEC 29110-4-1 identifies the requirements applicable to the tasks and work products described in this document. These guidelines apply to VSEs that do not develop safety critical software products. Once the software, developed by a VSE, has been accepted by their customer, the VSE that wants to provide after-delivery services can refer to ISO/IEC 29110-5-3.

 

 

This document gives an overview of the concepts and principles of documents related to information security management system (ISMS), including ISO/IEC 27001.
 
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Tämä lausunnolla oleva standardi on standardin ISO/IEC 27000 kuudes painos. Edellinen versio on vuodelta 2018. Keskeiset muutokset on esitelty standardiluonnoksen esipuheessa (foreword).

 

Tässä lausunnossa esitetään tämän standardin vahvistamista eurooppalaiseksi EN-standardiksi. Kaikki kannanotot ja kommentit ovat tervetulleita. Ne käsittelee lausunnon päätyttyä SFS:n standardointiryhmä "SFS/SR 307 Tietoturvatekniikat".

 

This document defines the management and operations of the ISO geodetic register and identifies the data elements, in accordance with ISO 19111:2007 and the core schema within ISO 19135-1:2015, required within the geodetic register.

 

This document specifies requirements and test methods for materials and seams of re-usable and single use protective clothing providing protection of the wearer against infective biological agents. Design criteria, mechanical requirements, and functional fit requirements are basd on either ISO 16602 series or by the ISO 20384 as indicated in this document, while the barrier properties of this document will be additive to ensure the protection against infective biological agents. NOTE This standard is a standalone standard but using requirements based on ISO 16602 series and ISO 20384. For products intended for the dual use as both a PPE and as a medical gown, both this document and the ISO 20384 shall apply. Clothing worn by surgical teams or drapes laid on patients to prevent cross-contamination during surgical interventions are not covered by the scope of this document, but are covered solely by ISO 20384. This document not applicable to components such as gloves, boots, eye/face protection devices and respiratory protective devices as their performance criteria are given in other standards. However, when these components are either an integral part of the protective clothing ensemble or are tested separately as partial body protection, supplementary requirements are provided in this standard. This document does not cover requirements for antimicrobial treatments for protective clothing.

 

ISO/IEC 19788 specifies metadata elements and their attributes for the description of learning resources. ISO/IEC 19788-2:2011 provides a base-level data element set for the description of learning resources, from the ISO 15836:2009 Dublin Core metadata element set, using the framework provided in ISO/IEC 19788-1:2011. Those data elements being cast into the metadata learning resources framework can be used with data elements defined in other parts, in order to address specific user communities' needs for extensions, modularization or refinement.

 

This document describes test methods for measuring the light stability of photographic prints when subjected to LED illumination sources under conditions that simulate indoor display. This document is applicable to all types of colour and monochrome photographic reflection prints. This document does not include test procedures for determining the effects of light exposure on the physical stability of images, supports, or binder materials.

 

Tätä standardia sovelletaan Suomessa markkinoilla oleviin uudelleen täytettäviin teräksisiin, komposiittisiin ja alumiinisiin nestekaasupulloihin ja -astioihin. Tässä standardissa määritellään em. pullojen ja astioiden mitat sekä niihin asennettavien venttiilien ja venttiilisuojuksen kierreliitännät. Teräksiset nestekaasupullot valmistetaan standardin SFS-EN 1442 mukaisesti. Komposiittiset nestekaasupullot valmistetaan standardin SFS-EN 12245 (SFS-EN 14427) mukaisesti. Alumiinipullot valmistetaan standardin SFS-EN 12862 (SFS-EN 13110) mukaisesti. Hitsatut teräksiset LPG kaasuastiat valmistetaan standardin SFS-EN 14893 mukaisesti.

 

This part of ISO 17734 gives general guidance for the sampling and analysis of airborne isocyanates in workplace air. When amines and aminoisocyanates are suspected to be emitted (e.g. from thermal degradation of PUR), it is recommended that, in addition to isocyanates, the amines and aminoisocyanates in the air are determined, using DBA and ethyl chloroformate as reagents (see ISO 17734 2). The method is suitable for the determination of a wide range of different isocyanates in both the gas and particle phases. Typical monofunctional isocyanates that can be determined are isocyanic acid (ICA), methyl isocyanate (MIC), ethyl isocyanate (EIC), propyl isocyanate (PIC), butyl isocyanate (BIC), and phenyl isocyanate (PhI). Typical monomeric diisocyanates include 1,6-hexamethylene diisocyanate (HDI), 2,4- and 2,6-toluene diisocyanate (TDI), 4,4’-methylenediphenyl diisocyanate (MDI), 1,5-naphthyl diisocyanate (NDI), isophorone diisocyanate (IPDI), and 4,4’-dicyclohexylmethane diisocyanate (HMDI). Multifunctional isocyanates that can be determined are typically oligomers in polymeric MDI, biuret-, isocyanurate-, and allophanate-adducts, and prepolymeric forms of isocyanates. The useful range is approximately 2,5 ng to 500 ng of isocyanate per sample. For a 15 l air sample, this corresponds to 0,2 µg/m3 to 33 µg/m3. These values can slightly change according to the isocyanate analysed.

 

This document describes processes targeted at VSEs that the development of a system by a VSE developing a single product by a single work team. This document provides management and engineering guidelines for the systems engineering Basic profile of the generic profile group. This document is applicable to VSEs that develop non-safety critical systems and have little or no experience with systems engineering (SE) process planning and implementation using the ISO/IEC/IEEE 15288. This document is intended to be used with any processes, techniques and methods that enhance the VSE's stakeholder’s satisfaction and productivity. This document is also applicable to VSEs which are familiar with the management and engineering guidelines of the systems engineering Entry profile (ISO/IEC 29110 5-6-1) for their system development projects.

 

This document provides the foundational concepts for dataspaces and their essential characteristics. This document is applicable to all organizations.

 

This document specifies methods for the measurement of the thermal resistance and water-vapour resistance, under steady-state conditions, of e.g. fabrics, films, coatings, foams and leather, including multilayer assemblies, for use in clothing, quilts, sleeping bags, upholstery and similar textile or textile-like products. The application of this measurement technique is restricted to a maximum thermal resistance and water-vapour resistance which depend on the dimensions and construction of the apparatus used (e.g. 2 m2·K/W and 700 m2·Pa/W respectively, for the minimum specifications of the equipment referred to in this document). The test conditions used in this document are not intended to represent specific comfort situations, and performance specifications in relation to physiological comfort are not stated.

 

 

 

 

 

ISO 21415-2:2015 specifies a method for determining the content of wet gluten and the gluten index for wheat flours (Triticum aestivum L. and Triticum durum Desf.) by mechanical means. This method is directly applicable to flours. It also applies to common and durum wheat after grinding, if their particular size distribution meets the specification given in Table B.1.

 

This document describes the method of determination of the elongation under load and the residual deformation of coated fabrics.

 

ISO 11092:2014 specifies methods for the measurement of the thermal resistance and water-vapour resistance, under steady-state conditions, of e.g. fabrics, films, coatings, foams and leather, including multilayer assemblies, for use in clothing, quilts, sleeping bags, upholstery and similar textile or textile-like products. The application of this measurement technique is restricted to a maximum thermal resistance and water-vapour resistance which depend on the dimensions and construction of the apparatus used (e.g. 2 m2·K/W and 700 m2·Pa/W respectively, for the minimum specifications of the equipment referred to in ISO 11092:2014).

 

This document defines the requirements for design, mechanical integrity, and sizing for all types of electric, pneumatic and hydraulic actuators and related components, including mounting kits, used on valves that conform to API Specification 6D/ISO 14313. Actuators are designed to be assembled fully as a single unit or assembled from modules. This standard is not applicable to actuators installed on control valves, or valves used for regulation. This standard does not apply to actuators for valves in subsea service. Also excluded are requirements for handheld powered devices, instrument tubing and fittings.