SFS Suomen Standardit

 

This document specifies a test method for determining pure cashmere content of raw cashmere by means of near infrared spectrometer. This document is applicable to testing of pure cashmere content of raw cashmere by different collection methods, it is also applicable to scoured cashmere.

 

This document provides the part of the method to calculate the GHG emissions throughout the LNG chain specific to shipping. The general requirements are covered in ISO 6338-1.

 

This document provides the part of the method to calculate the GHG emissions throughout the LNG chain specific to regasification. It covers activities from the inlet to the outlet of the regasification plant. The general requirements are covered in ISO 6338-1.

 

This document specifies a general framework, including principles, requirements and guidance for assessing and reporting investments and financing activities related to climate change. The assessment of these interactions includes the following items: • The impacts of the investment decisions on GHG emissions trends in the real economy. • The compatibility of investment and financing decisions with low carbon transition pathways and climate goals; • The risk on financial value for owners of financial assets (e.g. private equities, listed stocks, bonds, loans) arising from climate goals or climate policies; This standard provides guidance on how to determine benchmarks for low carbon transition pathways and how to assess progress of investment portfolios and financing activities regarding such benchmarks. This standard provides guidance on how to set targets and determine metrics to be used for tracking progress related to low carbon transition pathways and climate goals. This standard describes climate finance actions contributing to the reduction of GHG emissions and climate goals and how to assess their impacts. The low carbon transition pathways in scope can include objectives related to both mitigation and adaptation, and potential other development goals. NOTE – refer to the Annex for an explanation of what is not in the scope of this NWIP

 

 

This document specifies a method for the correct measurement of the colour of finished leather by instrumental means. The document describes general concepts of colour measurement adapted to leather and the calculation of differences in colour. This document defines the following: a) the use of D65 as the standard light source for the leather industry; b) the use of D65 light source 10° as standard conditions for colour matching, for the definition of daylight simulators and as the reference light source for metamerism analysis; c) the use of CIEDE2000 as the colour difference formula.

 

This document provides the part of the method to calculate the GHG emissions throughout the LNG chain specific to regasification. The general requirements are covered in ISO 6338-1.

 

This document provides the part of the method to calculate the GHG emissions throughout the LNG chain specific to shipping. The general requirements are covered in ISO 6338-1.

 

This standard defines a nomenclature for communication of information from point-of-care medical devices. Primary emphasis is placed on acute care medical devices and patient vital signs information. The nomenclature also supports concepts in an object-oriented information model that is for medical device communication.

 

This document supports evaluation of the accuracy, secrecy, and privacy of biometric template protection schemes. It establishes definitions, terminology, and metrics for stating the performance of such schemes. Particularly, this document establishes requirements for the measurement and reporting of: — theoretical and empirical accuracy of biometric template protection schemes, — theoretical and empirical probability of a successful attack on biometric template protection schemes (single or multiple), and — the biometric information leaked when one or more biometric template protection schemes are compromised. This document also gives guidance on measuring and reporting diversity and unlinkability of templates. This document does not: — establish template protection schemes; — address testing of traditional encryption schemes.

 

This document: — defines aprocess assessment model that meets the requirements of ISO/IEC 33004and that supports the performance of an assessment of process capability using the process measurement framework defined in ISO/IEC 33020. The process assessment model provides indicators for guidance on the interpretation of the process purposes and outcomes as defined in ISO/IEC/IEEE 29119-2 and the process attributes as defined in ISO/IEC 33020; — provides guidance, by example, on the definition, selection and use of assessment indicators. A process assessment model comprises a set of indicators of process performance and process capability.The indicators are used as a basis for collecting the objective evidence that enables an assessor to assignratings, following the requirements of ISO/IEC 33002. The set of indicators included in this standard is neither intended to be an all-inclusive setnor is it intended to be applicable in its entirety. Subsets that are appropriate to the context and scope of theassessment should be selected. The process assessment model in this standard is directed at assessment sponsors andcompetent assessors who wish to select a model, and associated documented process method, forassessment (for either capability determination or process improvement). Any process assessment model for Software Testing meeting the requirements defined in ISO/IEC 33004 concerning models for process assessment may be used for assessment. Different models and methods may be needed to address differing business and testing needs. This assessment model is provided as an exemplar of a model meeting all the requirements expressed in ISO/IEC 33004.

 

This document provides the terms and definitions that constitute the conceptual framework related to quality as addressed in the Systems and Software Quality Requirements and Evaluation (SQuaRE) family of standards. It focuses on the fundamental concepts and terminology that are common across the SQuaRE family to ensure consistency and to facilitate understanding. Terms and definitions specific to individual quality models — such as product quality, data quality, IT service quality, and quality-in-use — are outside the scope of this document. Similarly, terms related to other types of qualities, such as process quality or AI-related quality, are not included.

 

This document applies to uniaxial strain-controlled low cycle fatigue testing of metallic materials governed by EN aerospace standards. It defines the properties that need to be determined and the terms used in describing the tests and test pieces. It specifies the equipment, the test pieces, the method of testing and the presentation of results. It applies to testing at ambient and elevated temperatures. The purpose of this document is to ensure the comparability and reproducibility of the test results. It does not cover the evaluation or interpretation of the results. This document is restricted to the use of test pieces having a circular cross-section. In some particular cases the practice can be applied to flat test pieces. The major difficulties concern the preparation of the test pieces and their alignment in the grips.

 

This document specifies a method for the determination of the boiling range distribution of petroleum products by capillary gas chromatography using flame ionization detection. The document is applicable to materials having a vapour pressure low enough to permit sampling at ambient temperature and a boiling range of at least 100 °C. The document is applicable to distillates with initial boiling points (IBP) above 100 °C and final boiling points (FBP) below 750 °C, for example, middle distillates and lubricating base stocks. The test method is not applicable for the analysis of petroleum or petroleum products containing low molecular weight components (for example naphtha’s, reformates, gasolines) or middle distillates like Diesel and Jet fuel. Petroleum or petroleum products containing blending components which contain heteroatoms (for example alcohols, ethers, acids, or esters) or residue are not to be analysed by this test method. NOTE For the purposes of this document, the terms “% (m/m)” and “% (V/V)” are used to represent respectively the mass fraction and the volume fraction. WARNING — The use of this document can involve hazardous materials, operations and equipment. This document does not purport to address all of the safety problems associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and to determine the applicability of regulatory limitations prior to use.

 

This document specifies a method for the determination of the boiling range distribution of petroleum products by capillary gas chromatography using flame ionization detection. The document is applicable to materials having a vapour pressure low enough to permit sampling at ambient temperature, and which have a boiling range of at least 100 °C. The document is applicable to materials with initial boiling points (IBP) above 100 °C and final boiling points (FBP) above 750 °C, for example, heavy distillate fuels and residuals. The method is not applicable to bituminous samples. The test method is not applicable for the analysis of petroleum or petroleum products containing low molecular weight components (for example naphthas, reformates, gasolines) or middle distillates like Diesel and Jet fuel. Petroleum or petroleum products containing blending components, which contain hetero atoms (for example alcohols, ethers, acids, or esters) or residue, are not to be analysed by this test method. NOTE For the purposes of this document, the terms “% (m/m)” and “% (V/V)” are used to represent respectively the mass fraction and the volume fraction. WARNING — The use of this document can involve hazardous materials, operations and equipment. This document does not purport to address all of the safety problems associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and to determine the applicability of regulatory limitations prior to use.

 

This document specifies the technical requirements and the necessary tests of Excess Flow Device (EFD) for use with respiratory protective devices (RPD), up to 300 bar operating pressure. Devices that only close the flow in the event of a valve break-off do not fall within the scope of this document. NOTE Throughout the breathing apparatus market exists a variety of cylinder valves that can have different ways of connecting to an EFD. The interchangeability of the EFD is only possible in the case of verified combinations of cylinder valve and EFD. The use of unverified combinations is not considered safe.

 

ISO 17186:2011 specifies a method for determining the thickness of the surface coating applied to leather when measured under zero compression. It is applicable to all types of leather.

 

Tätä standardia sovelletaan nestekaasun käyttölaitoksiin, joissa nestekaasu johdetaan käyttölaitteille nestekaasukeskuksesta höyrymäisenä. Kaasukeskuksessa yhteen kytkettyjen nestekaasupullojen ja -astioiden sisältämän nestekaasun enimmäismäärä on 1000 kiloa.

Tätä standardia sovelletaan seuraavien osien suunnitteluun, asennukseen, tarkastuksiin ja kunnossapitoon:

— nestekaasukeskukset

— höyrymäisen nestekaasun putkistot

— käyttölaitteet ja niiden sijoitus

— sähkölaitteet ja maadoitus.

Tätä standardia ei sovelleta

— kohteisiin, joissa tarvitaan höyrystintä

— kohteisiin, joissa tarvitaan nestemäisen nestekaasun putkistoja

— nestekaasun pienkäyttöön

— maakaasun käyttölaitoksiin

— biokaasun käyttö- tai tuotantolaitoksiin

— ajoneuvoihin eikä veneisiin asennettaviin kaasulaitteistoihin

— kaasun käyttöön ajoneuvojen polttoaineena

— liikuteltaviksi tarkoitettuihin tai tilapäiseen käyttöön tarkoitettuihin kaasulaitteistoihin, kuten kaasua käyttäviin työkaluihin, retkilaitteistoihin tai muihin vastaaviin erillisiin siirrettäviin käyttölaitteisiin.

Nestekaasulaitteistoihin, joissa nestekaasua varastoidaan säiliössä tai joissa käytetään höyrystintä tai nestemäisen nestekaasun putkistoja, sovelletaan standardia SFS 5987. Kotitalouskohteiden pienasennuksiin sovelletaan standardia SFS 5992. Veneiden nestekaasukäyttölaitteistoihin sovelletaan standardia SFS-EN ISO 10239. Nestekaasulaitteistojen asentamiseen matkailuajoneuvoihin ja muihin vastaavanlaisiin ajoneuvoihin sovelletaan standardia SFS-EN 1949.

Huom. Kun kommentoit standardiehdotusta, muistathan ilmoittaa myös kantasi standardiehdotuksen hyväksymiseen SFS-standardiksi.

 

ISO/IEC 18013 establishes guidelines for the design format and data content of an ISO-compliant driving licence (IDL) with regard to human-readable features (ISO/IEC 18013-1), machine-readable technologies (ISO/IEC 18013-2), and access control, authentication and integrity validation (ISO/IEC 18013-3). It creates a common basis for international use and mutual recognition of the IDL without impeding individual countries/states to apply their privacy rules and national/community/regional motor vehicle authorities in taking care of their specific needs. This document — is based on the machine-readable data content specified in ISO/IEC 18013-2; — specifies mechanisms and rules available to issuing authorities (IAs) for: This document does not address issues related to the subsequent use of data obtained from the IDL, e.g. privacy issues.

 

This document — gives guidelines for an organization to manage the health, safety, and well-being at work of remote workers. — is applicable to any organization regardless of its size, type and activities. It can be used independently or as part of a OH&S management system, including those based on ISO 45001. — covers work that is performed at workplace(s) not under the direct control of the organization. — includes work for which the remote worker selects the work workplace as well as work at workplaces determined by the organization.