Toimialayhteisöt

 

This document specifies requirements and test methods for pipes and fittings which are part of piping systems for the rehabilitation by means of renovation and trenchless replacement of underground gas supply networks. It is applicable to polyethylene (PE) pipes, fittings and assemblies, as manufactured and as installed. It is not applicable to the existing pipeline. It is applicable to technique families for renovation: — lining with continuous pipes; — lining with close-fit pipes; and technique families for trenchless replacement: — pipe bursting and pipe extraction; — horizontal directional drilling and impact moling. This document is applicable to: — PE solid wall single layered pipes (nominal outside diameter, dn), including any identification stripes; — PE pipes with co-extruded layers on either or both the outside and inside of the pipe (total outside diameter, dn), as specified in Annex D, where all layers have the same MRS rating. Furthermore, when used with lining with continuous pipes and trenchless replacement this document is applicable to: — PE coated pipes (outside diameter, dn) having a peelable, contiguous, thermoplastics additional layer on the outside of the pipe (“coated pipe”), as specified in Annex D. When used with lining with close-fit lining pipes, the lining pipe is reduced in the factory or on site to provide a close-fitting independent or interactive pressure pipe liner. This document is applicable to jointing by means of butt fusion and electrofusion and to fabricated and injection-moulded fittings and mechanical connections of PE. This document is not applicable to push-fit jointed discrete pipes assembled as part of the trenchless installation process.

 

The method specified is based on determining the temperature at which a standard indenter, under a force of 50 N ± 1 N, penetrates 1 mm into the surface of a test piece cut from the wall of a pipe or fitting while the temperature is raised at a constant rate. Is applicable only to thermoplastics materials for which it is possible to measure the temperature at which the rate of softening becomes rapid. Is based on ISO 306:1994 which, however, applies to materials in the form of sheets.

 

This document provides a general view of the most relevant requirements to ensure safety, reliability, system automation, security, comfort, interoperability and operations of the hyperloop system used for the transport of passengers and goods. This document will be the basis to set the general common requirements for the hyperloop system as a whole.

 

This document specifies child resistance mechanisms and tests methods for assuring child safety within electronic cigarettes and refill containers. NOTE Attention is drawn to the definitions laid down in EU Directive 2014/40/EU Tobacco Product Directive. This document is applicable for electronic cigarettes and refill containers which are containing or intended to contain nicotine. This document does not apply to tamper resistance nor general product safety requirements which are not specific to child safety.

 

 

This part of ISO 14720 defines a method for the determination of sulfur in powdered and granular non-oxidic ceramic raw materials and materials, which are completely oxidized at a higher temperature in an oxygen atmosphere, e.g. carbon and graphite materials. For materials which are not completely oxidizable under these conditions, it is possible to determine sulfur that can be released under these conditions, e.g. the adherent sulfur. This part of ISO 14720 is applicable for materials with mass fractions of sulfur = 10 % and mass fractions of ash < 20 %, The defined method is limited for materials with mass fractions of barium < 10 mg/kg, because the sulfur bonded in barium sulfate is not detectable with this method. For the lower detection limit of this method, a mass fraction of sulfur of 0,5 mg/kg in the case of inductively coupled plasma optical emission spectrometry (ICP/OES) and 5 mg/kg in the case of ion chromatography (IC) has to be considered as a recommended value.

 

ISO 15015:2011 specifies the requirements and test methods for solid flat extruded sheets of impact-modified acrylonitrile-styrene copolymer materials: acrylonitrile-butadiene-styrene (ABS), acrylonitrile-(ethylene-propylene-diene)-styrene (AEPDS) (commonly known as AES) and acrylonitrile-styrene-acrylate (ASA), without fillers or reinforcing materials. This International Standard also applies to ABS, AEPDS and ASA sheet in rolled form. It applies only to thicknesses from 0,25 mm to 20,0 mm.

 

This document specifies the requirements for the attachment of multi-turn actuators to valves. Throughout this document, “actuator” can be understood as “actuator and/or gearbox” providing a multi-turn and/or linear output. It specifies: —     flange dimensions necessary for the attachment of actuators to industrial valves [see Figure 1 a)] or to intermediate supports [see Figure 1 b)]; —     those driving component dimensions of actuators which are necessary to attach them to the driven components; —     reference values for torque and thrust for flanges having the dimensions specified in this document.

 

 

 

ISO 13504:2012 specifies general requirements for the manufacture of instruments and related accessories used in the placement of dental implants and further manipulations of connecting parts in the craniofacial area. It is applicable to single-use and reusable instruments, regardless of whether they are manually driven or connected to a power-driven system.

 

Tässä standardissa annetaan ohjeet kuitujen, puolivalmisteiden (topsin, hahtuvan ja esilangan), lankojen ja vastaavien tuotteiden numeroinnista tex-järjestelmän mukaisesti sekä siirtymiseksi muista järjestelmistä tex-järjestelmään ja päinvastoin. Lankojen numerointijärjestelmiä on kahta eri tyyppiä: Suorat järjestelmät, joissa lankanumero ilmaistaan langan massana pituusyksikköä kohti. Epäsuorat järjestelmät, joissa lankanumero ilmaistaan langan pituutena massan yksikköä kohti. Sanaa lanka käytetään vain yksinkertaisuuden vuoksi, se ei sulje pois kuituja tai puolivalmisteita.

 

 

Standardi esitetään kumottavaksi vanhentuneena  

SFS:n tehtävänä on ylläpitää ajantasaista suomalaista SFS-standardikokoelmaa. 

Tällä lausuntopyynnöllä pyritään selvittämään, tulisiko tämä SFS-standardi kumota vanhentuneena. 

Vastaa kohdassa "Ota kantaa", tulisiko tämä SFS-standardi kumota.  

(Hyväksyn = hyväksyn tämän standardin kumoamisen vanhentuneena.) 

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Tässä standardissa esitetään kaksi erilaista lankojen merkintätapaa, joita voidaan käyttää yksinkertaisille, kerratuille, kertokerratuille tai monistetuille langoille. Ensimmäisessä menetelmässä on lähtökohtana yksinkertainen lanka ja sitä nimitetään sisältä-ulos-menetelmäksi. Toisessa menetelmässä on lähtökohtana lopullinen lanka ja sitä nimitetään ulkoa-sisälle- menetelmäksi. Molemmissa menetelmissä käytetään samoja tunnuksia paitsi että ensimmäisessä käytetään kertomerkkiä (x) ja toisessa kauttaviivaa (/) eri kertausvaiheiden välissä. Sisältä-ulos-menetelmää suositellaan käytettäväksi aina, kun ei ole perusteltua aihetta käyttää toista menetelmää.Tämä standardi ei koske eräitä erikoislankoja, kuten esimerkiksi fancy- lankoja (tuotteen ulkonäköön vaikuttava erikoislanka), teksturoituja lankoja, pöyhölankoja (bulk yarns) tai lankoja, jotka on valmistettu kiertämällä tekstiili- tai ei-tekstiilimateriaalia ytimen ympärille.

 

Tämä standardi on tarkoitettu yksinkertaisen langan numeron määrittämiseen kehiöllä olevasta kerratusta langasta. Sen avulla voidaan määrittää myös kertauskierteen aiheuttama langan pituudenmuutos sekä yksinkertaisten filamenttilankojen numero.

Standardi esitetään kumottavaksi vanhentuneena  

SFS:n tehtävänä on ylläpitää ajantasaista suomalaista SFS-standardikokoelmaa. 

Tällä lausuntopyynnöllä pyritään selvittämään, tulisiko tämä SFS-standardi kumota vanhentuneena. 

Vastaa kohdassa "Ota kantaa", tulisiko tämä SFS-standardi kumota.  

(Hyväksyn = hyväksyn tämän standardin kumoamisen vanhentuneena.)

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Menetelmä on tarkoitettu kaikenlaisten ja kaikissa muodoissa olevien tekstiilien värinkeston määrittämiseen suolahappoisissa liuoksissa, joihin on lisätty hypokloriittia ja joita käytetään villan vanumattomuuskäsittelyissä.

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This document specifies a test method for the determination of the air purification performance, with regards to removal of nitric oxide, of materials that contain a photocatalyst or have photocatalytic films on the surface, usually made from semiconducting metal oxides such as titanium dioxide or other ceramic materials, by continuous exposure of a test piece to the model air pollutant under illumination from indoor light. This document is intended for use with different kinds of materials, such as construction materials in flat sheet, board or plate shape, which are the basic forms of materials for various applications. This document also applies to materials in honeycomb form and to plastic or paper materials containing ceramic microcrystals and composites. This document does not apply to certain test pieces that contain a large amount of adsorbent, due to unattained adsorption equilibrium. This document does not apply to powder or granular photocatalytic materials. This test method is usually applicable to photocatalytic materials produced for air purification. This method is not suitable for the determination of other performance attributes of photocatalytic materials, i.e. decomposition of water contaminants, self-cleaning, antifogging and antibacterial actions.

 

This document specifies a test method for the determination of the air-purification performance, with regards to removal of acetaldehyde, of materials that contain a photocatalyst or have photocatalytic films on the surface, usually made from semiconducting metal oxides such as titanium dioxide or other ceramic materials, by continuous exposure of a test piece to the model air pollutant under illumination from indoor light. This document is intended for use with different kinds of materials, such as construction materials in flat sheet, board or plate shape, which are the basic forms of materials for various applications. This document also applies to materials in honeycomb form, and to plastic or paper materials containing ceramic microcrystals and composites. This document does not apply to powder or granular photocatalytic materials. This test method is usually applicable to photocatalytic materials produced for air purification. This method is not suitable for the determination of other performance attributes of photocatalytic materials, i.e. decomposition of water contaminants, self-cleaning, antifogging and antibacterial actions.

 

This document specifies a test method for the determination of the air-purification performance, with regards to the removal of toluene, of materials that contain a photocatalyst or have photocatalytic films on the surface, usually made from semiconducting metal oxides such as titanium dioxide or other ceramic materials, by continuous exposure of a test piece to the model air pollutant under illumination from indoor light. This document is intended for use with different kinds of materials, such as construction materials in flat sheet, board or plate shape, which are the basic forms of materials for various applications. This document also applies to materials in honeycomb form, and to plastic or paper materials containing ceramic microcrystals and composites. This document does not apply to powder or granular photocatalytic materials. This test method is usually applicable to photocatalytic materials produced for air purification. This method is not suitable for the determination of other performance attributes of photocatalytic materials, i.e. decomposition of water contaminants, self-cleaning, antifogging and antibacterial actions.

 

This document specifies a test method for the determination of the air-purification performance, with regards to the removal of formaldehyde, of materials that contain a photocatalyst or have photocatalytic films on the surface, usually made from semiconducting metal oxides such as titanium dioxide or other ceramic materials, by continuous exposure of a test piece to the model air pollutant under illumination from indoor light. This document is intended for use with different kinds of materials, such as construction materials in flat sheet, board or plate shape, which are the basic forms of materials for various applications. This document also applies to materials in honeycomb form, and to plastic or paper materials containing ceramic microcrystals and composites. This document does not apply to powder or granular photocatalytic materials. This test method is usually applicable to photocatalytic materials produced for air purification. This method is not suitable for the determination of other performance attributes of photocatalytic materials, i.e. decomposition of water contaminants, self-cleaning, antifogging and antibacterial actions.

 

This document specifies a test method for the determination of the air-purification performance, with regards to removal of methyl mercaptan, of materials that contain a photocatalyst or have photocatalytic films on the surface, usually made from semiconducting metal oxides such as titanium dioxide or other ceramic materials, by continuous exposure of a test piece to the model air pollutant under illumination with indoor light. This document is intended for use with different kinds of materials, such as construction materials in flat sheet, board or plate shape, which are the basic forms of materials for various applications. This document also applies to materials in honeycomb form, and to plastic or paper materials containing ceramic microcrystals and composites. This document does not apply to powder or granular photocatalytic materials. This test method is usually applicable to photocatalytic materials produced for air purification. This method is not suitable for the determination of other performance attributes of photocatalytic materials, i.e. decomposition of water contaminants, self-cleaning, antifogging and antibacterial actions.