SFS Suomen Standardit

 

 

This document specifies characteristics of a light scattering aerosol spectrometer (LSAS) which is used for measuring the size, number concentration and number/size distribution of particles suspended in a gas. The light scattering technique described in this document is based upon single particle measurements. The size range of particles measured by this method is between approximately 0,06 µm to 45 µm in diameter. Instruments that conform to this document are used for the determination of the particle size distribution and particle number concentration at relatively high concentrations of up to 105 particles/cm3. Application fields include: For the above-mentioned applications, aerosol spectrometers should determine the particle size distribution and particle number concentration as accurately as necessary. For this purpose, they should have appropriate size resolution, sizing accuracy, counting efficiency and flowrate accuracy. These aerosol spectrometers are not suitable for the classification of clean rooms.

 

This International Standard identifies a set of features that describes digital still cameras (DSCs), and it specifies their definitions, measurement methods, and presentation methods. This International Standard applies to DSCs designed and produced for and promoted to general consumers and need not be applied to those DSCs designed and produced to meet individual and special specifications agreed upon by particular business or industrial users and the manufacturer. The presentation methods specified in this International Standard are intended for use as notations on camera bodies, on product packaging, on promotional materials for advertising and at the point of purchase, in electronic or printed catalogues and other materials, and in the relevant software.

 

This part of EN 71 specifies requirements for the substances and materials used in finger paints and applies to finger paints only. Additional requirements are specified for markings, labelling and containers. NOTE EN 71-3 and EN 71-12 specify requirements and test methods for finger paints for the migration of certain elements (see F.4) and N-nitrosamines (see F.9).

 

This document specifies the minimum requirements for the contents of the user manual for Automotive LPG propulsion systems fitted in road vehicles. This document does not cover the user manual for forklift trucks or other industrial machinery.

 

 

This document specifies a method for the high temperature exposure of protection sleeve for electrical cable and cable bundles for aerospace application. It is used together with EN 6059-100.

 

This document specifies a method to verify the fluid repellent properties of protection sleeve for electrical cable and cable bundles. It is used together with EN 6059 100.

 

This document specifies a test procedure to identify performance characteristics and a weight rating of convection and steam ovens used on aircraft. Furthermore, it specifies the calculation procedure to determine an energy consumption index and a performance index. There is no direct correlation between the ECO efficiency and cooking performance in terms of food quality and appearance. The two index values represent the ECO efficiency.

 

This document provides guidance for the use of regrinds and recycled materials for thermoplastic parts for aerospace applications. The purpose of this document is to specify design and quality requirements. It does not specify process instructions or specific material requirements; these are specified in the processors process instructions and applicable material specifications.

 

This document specifies the characteristics of screws, 100° countersunk normal head, offset cruciform recess, coarse tolerance normal shank, long thread, in alloy steel, cadmium plated. Classification: 1 100 MPa /235 °C .

 

This document specifies the characteristics, qualification and acceptance requirements for bolts with MJ threads in NI-PH2601. Classification: 1 275 MPa /650 °C .

 

This document defines the terms and definitions related to the work of the ISO/TC 331. It includes terms related to the drivers of biodiversity loss (climate change, pollution, invasive species, erosion, soil degradation, deforestation, etc.). It also includes technical terms for quantification (measurement, monitoring, methods, and assessment), impact (on species or ecosystems), the means of action to protect biodiversity (conserve, restore, and use sustainably) to create a regenerative and resilient ecosystem. The components of biodiversity covered within this document are genetic, species, ecosystem and functional diversity. This document is applicable to any entity working directly with or needs to consider biodiversity for any reason or aspect.

 

 

This document defines markers of harm in online gambling and is characterized by its specific and delimited scope. It is a minimum set of markers to analyse. The individual indicators can be analysed over additional time spans as well as in excess of those required, and other markers can be added to the analysis as well. In the event that the collection or analysis of data for a limited set of markers is prohibited within a specific jurisdiction (for example, where legislation prevents it), operators can still be compliant with the standard provided that only these markers are omitted, and only for players who fall under that specific jurisdiction. This document does not provide guidelines regarding the interventions to be employed when addressing individuals with gambling issues, nor does it establish predefined thresholds for intervention.

 

This document specifies the requirements and methods of test for the safety and marking of freestanding and built-in domestic cooking appliances burning combustible gases given in EN 437:2021, referred to in the text as “appliances”. The appliances covered by this document are intended to be used in a domestic dwelling. This document covers the following types of domestic cooking appliances: - independent freestanding hobs; - independent built-in hobs; - hobs and grills; - table cookers; - freestanding ovens; - built-in ovens; - freestanding or built-in grills; - griddles; - freestanding cookers; - built-in cookers. This document also applies to gas cooking appliances incorporating electrical heating elements (e.g. gas-electric cooking appliances). For appliances intended to be used in caravans, or motorhomes/mobile homes or on board of ships or aircraft, additional requirements may be necessary. This document does not apply to: a) outdoor appliances; b) appliances connected to a combustion products evacuation duct; c) appliances having a pyrolytic gas oven; d) appliances incorporating flame supervision devices and having an automatic ignition device for which the duration of the ignition attempt is limited by design; e) appliances equipped with a burner that is periodically ignited and extinguished under the control of an automatic on/off device; f) appliances equipped with an oven and/or with a grill having a fan: 1) either for the supply of combustion air or for the evacuation of the products of combustion; 2) or for the circulation of the products of combustion within the compartments; g) appliances incorporating one or more hob or grill burners that enable the user to program the delayed start of the cooking cycle; h) appliances of categories I2N, I2R, I3R, I2E(S), I2E(R), I2Esi, I2Er, I2R and the equivalent double and triple categories which include these indices; i) appliances of category II2E+3B. This document does not cover the requirements relating to third family gas cylinders, their pressure regulators and their connection.

 

The scope of the present document is to provide the elements needed for elaborating the programme execution logic and drafting the execution plan for the realization of a product. NOTE 1 In this document, the term “logic” alone is sometimes used for “execution logic”. NOTE 2 In this document, the term “product” is used to designate the object of the program concerned, and the term “system” is used to designate the product for anything related to system engineering. NOTE 3 The product is also considered a “system-of-interest” and its enabling systems are also taken into account. The execution logic and plan enable customers/suppliers to reach an agreement on how their respective processes and activities can be organized. The aim is to enable each actor in the programme to manage their activities with sufficient visibility of the sequencing of the other stakeholders’ activities. This document belongs to the documents supporting EN 9200 relating to the programme management specification. The present document describes the principles of programme execution logic and defines the corresponding management requirements. This description is supplemented: - on the one hand, in terms of execution logic principles, by: o the challenges of a basic logic common to all actors (synchronization); o the applicable criteria to set up this basic logic; o the translation of this logic into the programme processes; - on the other hand, in terms of implementing the execution logic, by: o the procedures for practical implementation of the management requirements defined in EN 9200; o adaptations of the logic according to the various constraints and specificities of the programme, and justification of these adaptations; o the consistency between the basic logic at system level and the logics at subsystem and constituent levels. The breakdown of clauses as used in this document gives a gradual understanding of the approach to be adopted to construct an execution logic. For instance: - Clause 5 presents the end-purpose of a programme execution logic as well as the associated basic concepts and the constituents of this logic; - Clause 6 describes and characterizes the process for building the logic; - Clause 7 concerns change control to the execution logic; - Clause 8 concentrates on the importance of capitalization and lessons learned. This document applies to aeronautical, space and defence programmes. The principles can be extended to other areas of activity. It applies to realization of a single product, of several samples or of a series. It applies to any customer/supplier level, while ensuring consistency between successive levels. The principles described concern all programme actors, from initial expression of need through to closure of the programme.

 

This document addresses legal communication, and it builds on the foundation for plain language in ISO 24495-1. It provides guidelines and techniques to help authors make sure that readers can readily understand legal communication in order to exercise their legal rights and fulfil their legal obligations. This document explains how to apply principles from ISO 24495-1 in legal contexts that require authors to achieve these goals: This document applies to legal documents and sectors, including the legal, governmental, non-governmental and health sectors. Similarly to ISO 24495-1, it aims to work for most languages, but it provides examples only in English. It reflects research on plain legal language and the experience of experts in the field (see Reference [3]). To the extent possible, this document allows for differences in legal systems. Although this document applies mainly to written communication, it can in some contexts apply to oral communication, such as discussions with clients and explanations in court proceedings.

 

1.1 Tätä standardia sovelletaan palavien nestemäisten kemikaalien varastoon, jossa varastoitavien palavien nesteiden yhteismäärä on 500 m3 tai enemmän sekä siellä oleviin säiliö-, astia- ja konttivarastoihin sekä käsittelypaikkoihin. Tätä standardia sovelletaan myös palavien nestemäisten kemikaalien varaston sammutus- ja palontorjuntajärjestelmiin. Pienemmissä kohteissa standardia käytetään soveltuvin osin ja tapauskohtaisesti. 1.2 Palontorjunnan osalta tätä standardia sovelletaan, kun nestemäisen palavan kaasun määrä on 10 m3 tai enemmän (kpl 27). 1.3 Standardi käsittelee ensisijaisesti palavien nestemäisten kemikaalien varastointia maanpäällisissä säiliöissä. Varastossa voi olla yksi tai useampi säiliö. 1.4 Standardi on laadittu pitäen lähtökohtana palavien nestemäisten kemikaalien syttymisherkkyyteen ja palavuuteen liittyviä ominaisuuksia, mahdollisten palojen leviämistä sekä palotilanteiden hallintaan liittyviä vaatimuksia. Standardissa on otettu huomioon myös mahdollisten höyrypilvien muodostuminen. Mikäli varastoitavilla palavilla nesteillä on muita varastoinnissa vaaraa aiheuttavia ominaisuuksia, tulee ne aine- ja tapauskohtaisesti ottaa erikseen huomioon. 1.5 Tämän standardin vaatimusten lisäksi tulee erityisesti ottaa huomioon räjähdysvaarallisiin tiloihin liittyvät ATEX-direktiivit (laitedirektiivi 2014/34/EU, olosuhdedirektiivi 1999/92/EY) sekä näihin perustuva kansallinen lainsäädäntö standardeineen. 1.6 Tämä standardi käsittelee lisäksi vartioinnin ja kulunvalvonnan järjestelyitä. 1.7 Tätä standardia ei sovelleta palavan nesteen jakeluasemiin, joissa noudatetaan standardia SFS 3352. 1.8 Palavien nestemäisten kemikaalien varastoalueen satamissa ja laitureilla noudatetaan standardia SFS 3355. 1.9 Tässä standardissa ei ole käsitelty erityisiä pohjaveden suojausratkaisuja. Kemikaalivarastot on sijoitettava ensisijaisesti vesienhoidon ja merenhoidon järjestämisestä annetun lain (1299/2004) mukaisesti luokiteltujen pohjavesialueiden ulkopuolelle (vertaa myös 390/2005).