SIST - Slovenian Institute for Standardization

This document specifies the technical delivery conditions for corrosion-resistant alloy seamless tubular products for casing, tubing, coupling stock and accessory material (including coupling stock and accessory material from bar) for two product specification levels:
   PSL-1, which is the basis of this document;
   PSL-2, which provides additional requirements for a product that is intended to be both corrosion and cracking resistant for the environments and qualification method specified in Annex G and in the ISO 15156 series.
At the option of the manufacturer, PSL-2 products can be provided in lieu of PSL-1.
NOTE 1 The corrosion-resistant alloys included in this document are special alloys in accordance with ISO 4948-1 and ISO 4948-2.
NOTE 2 For the purpose of this document, NACE MR0175 is equivalent to the ISO 15156 series.
NOTE 3 Accessory products can be manufactured from coupling stock and tubular material, or from solid bar stock or from bored and heat heat-treated bar stock as covered in Annex F.
This document contains no provisions relating to the connection of individual lengths of pipe. This document contains provisions relating to marking of tubing and casing after threading. This document is applicable to the following five groups of products:
a)   group 1, which is composed of stainless alloys with a martensitic or martensitic/ferritic structure;
b)   group 2, which is composed of stainless alloys with a ferritic-austenitic structure, such as duplex and super-duplex stainless alloy;
c)   group 3, which is composed of stainless alloys with an austenitic structure (iron base);
d)   group 4, which is composed of nickel-based alloys with an austenitic structure (nickel base);
e)   group 5, which is composed of bar only (Annex F) in age-hardened (AH) nickel-based alloys with austenitic structure.
NOTE 4 Not all PSL-1 categories and grades can be made cracking resistant in accordance with the ISO 15156 series and are, therefore, not included in PSL-2.

This document shows the relationship between the indicators in EN 17472 and ISO 21928-2, used to assess the environmental, social, and economic performance of civil engineering works (CEW), and the Sustainable Development Goals (SDGs), which can serve as a tool to communicate the results of the assessment carried out with the methodology established in EN 17472 and ISO 21928-2.
This document does not provide any criteria or rules for performing any kind of assessment.
This document also provides information about how the SDGs are influenced by the performance of several CEW, based on the results of the assessment done according to either EN 17472 or ISO 21928-2, or both, and demonstrate their contributions to achieving the SDGs targets.
The links provided can also be applied to address efforts towards satisfying specific SDGs.

This document specifies a method for the determination of tap density, i.e. the density of a powder that has been tapped into a container under specified conditions.

This document specifies the requirements and recommendations relative to the construction of a sectoral transition plan for industry decarbonization.
This document does not specify the requirements for the construction of a roadmap of single industrial company’s transition plan (a plant or a group), however, a sectoral transition plan can be used as a reference in an entity transition plan.
This document is intended to be used by organizations, including national and public bodies, trade associations, federations, companies and NGOs that wish to establish or monitor sectoral decarbonization plans.
This document is climate-programme neutral. If a climate programme is applicable, requirements of this programme are additional to the requirement of this document.
In this document, either natural or technological sequestrations occur inside the geographical and sectoral boundaries considered in the sectoral transition plan. Otherwise, they are excluded.
In this document, considering its energy consumption and its cost, the direct air capture and storage technology (DACS) is not considered relevant and is excluded from the sectoral transition plan.
Carbon offsets are excluded from this document.
NOTE   Carbon offsets are intended as be understood as “Emissions reduction or removal resulting from an action outside the geographical and sectoral boundary used to counterbalance the sector’s residual emissions”.

This document specifies a method for the verification of the transfer capability of surface connectors, detonating cord relays and coupling accessories.
In case of coupling accessories, the document applies to non-electric detonators, electronic detonators and surface connectors where the shock tube is equipped with a coupling accessory and to shock tubes equipped with a coupling accessory.
This document does not apply to electric detonators, plain detonators, semi-finished detonators, and electronic initiation systems.

This document specifies the method for declaring the technical classification relating to acoustics for a Product Standard including DoP, or European assessment document (EAD) including European Technical Approval (ETA) for a specific building product or equipment, or a family of building products or equipment. In particular, it gives advice on how to write technical specifications in response to the mandated characteristics on acoustics under the Construction Products Regulation.
NOTE 1   In the remainder of this document, the terms used relate to CEN and product standards. The concepts are, however, equally applicable to the European Organisation for Technical Approvals (EOTA).
The purpose of this document is to assist the Technical Committees in preparing acoustic clauses to ensure that such product standards:
-   are as homogeneous as possible, with each individual product standard having the same basic structure;
-   are in full accordance with the standards for the measurement and declaration of acoustic properties;
-   reflect the latest technical knowledge of methods of determining the acoustical properties from the specific family of building products or equipment under consideration.
NOTE 2   Annex A lists the European and International Standards to be used in the drafting of acoustic provisions standards. Annex B contains guidance on choosing appropriate properties. Annex C describes the relevant measured acoustic properties for common products.

This document specifies a method for determining the mechanical strength of electric detonators, electronic detonators and non-electronic detonators, leading wires/shock tubes, and their connections into the crimp/closure or sealing arrangement.
This method is applicable to explosives for civil uses.

This document specifies a test method for the verification of the resistance to water of explosives for blasting and boosters.
NOTE   This test method applies to situations where an explosive for blasting or a booster is subjected to high humidity and contact with water.
This document does not apply to black powder.
This document does not apply to explosive substances.

This document specifies a method to determine the series firing current of electric detonators. This document is applicable to explosives for civil uses.

This document specifies a method for the verification of the density of explosives for blasting, boosters and explosive substances.
This document also applies to solid gun propellants, solid rocket propellants, black powder used as propellants, as covered by EN 13938-1:2025.

This document specifies a method for determination the ability of the explosive content of plain detonators and semi-finished detonators to withstand vibration it could be exposed to during use, handling and transport. Plain detonators are instantaneous detonators supplied without means of activation. Semi-finished detonators are detonator supplied without means of activation
This document applies to explosives for civil uses.
NOTE Plain detonators and semi-finished detonators are normally activated by means of detonating cord, safety fuse, pyrotechnic igniter or shock tube.

This document specifies the general “design for recycling” guidelines for EPS raw materials. It provides guidance on the impact of specific design characteristics on the recyclability of the product in practice and recommended design options to ensure that the product is recyclable, including target values and performance ranges, where applicable. It also provides a definition of recyclable product and of design for recycling.
This document refers to EPS thermal insulation products but may be used for other EPS construction products where appropriate.
This document refers to the recycling processes of EPS insulation products. The sorting and collecting steps are not part of this document.
This document takes into account all currently known recycling processes that are suitable to enable the circular economy for insulation materials. Particular attention is paid to ensuring that the most energy-efficient processes are given preference, especially mechanical recycling.
For some of these processes, practical experience has been gained over many years, so a basic knowledge base for the development of a guideline is already available.
At the same time, it is important to also take into account future-oriented processes, for which at the moment little but increasing experience is available or which have so far only been implemented on a small scale.

This document specifies a method for determining the all-fire impulse and the no-fire impulse of electric detonators.

This document specifies a test method for the verification of electrical non-conductivity of shock tubes of non-electric detonators, surface connectors and electronic detonators, and of shock tube as bulk product.
This document does not apply to electric detonators equipped with leading wires among the products not covered by the standard, plain detonators, semi-finished detonators, detonating cord relays and electronic initiation systems.

This document:
a)   specifies minimum performance and durability requirements for performance infill materials used in synthetic turf, and textile sports surfaces;
b)   describes how the performance of an infill shall be measured, and the results classified;
c)   specifies the physical and chemical properties of an infill that are to be declared in a manufacturer’s product declaration;
d)   specifies minimum production control tolerance to ensure consistency of infill materials between production batches;
e)   describes how reclaimed infill is to be tested to assess its suitability for use.
NOTE   If requested, the procedures described in this document can also be used to assess materials intended to be used as stabilizing infills, although not all of the characteristics described in this document are required for stabilizing infills.

This document provides the concept of data templates developed to enable machine interpretability based on a standardized data structure, carrying the alphanumerical information for any object used in the life cycle of assets.
This document provides a description of how data templates are implemented following ISO 12006-3.
This document provides a methodology to create and maintain data templates in data dictionary.
This document provides guidance for linking between data templates and classification systems within data dictionaries based on ISO 12006-3.
This document provides an XML Schema Definition (XSD) representing an implementation of the ISO 23387 and ISO 12006-3 data models.
It is not within the scope of this document to provide the content of any data templates.

This document specifies a method of determining the equivalent initiating capability of electric detonators, non-electric detonators and electronic detonators.
This document specifies a functioning test (after storage) at high and low temperatures.
This document is not applicable to surface connectors or detonating cord relays.
This document applies to explosives for civil uses.

This document specifies a method to determine the tendency of a propellant to undergo transition from deflagration to detonation (DDT). It applies to propellants of a grain size up to 8 mm. This method does not apply to black powder and rocket propellant.
NOTE 1   Due to the nature of the shape of grains (heterogeneous), the combustion of the rocket propellant can cause a crack of the grain causing an explosion of the rocket motor.
NOTE 2   Black powders properties differ significantly from propellant and explosives because black powders are capable of maintaining stable combustion at high velocities without experiencing deflagration - detonation transition.

This document specifies the requirements for electric detonators, non-electric detonators, electronic detonators, plain detonators, semi-finished detonators, electronic initiation systems, surface connectors, shock tubes and detonating cord relays.

This document specifies a method for the determination of burning rate under ambient conditions for solid gun propellants. It is applicable to solid gun propellants and black powder in their original form up to a grain size of 8 mm.
NOTE 1   Knowledge of burning rate is of high importance to manage risks associated with handling such explosives and of high importance to assess whether performance characteristics are met.
NOTE 2   In cases where propellants having grain size higher than 8 mm are generally used, their burning rate is more influenced and controlled by parameters of element containing thereof, and thus knowledge of their burning rate at ambient condition is not of high importance.

This document specifies a method for the verification of the shock wave velocity of shock tubes.
This document is applicable to shock tubes of non-electric detonators, surface connectors and electronic detonators, and on shock tube as bulk product.
This document does not apply to electric detonators, plain detonators, semi-finished detonators, detonating cord relays and electronic initiation systems.

This document specifies two test methods for the determination of the velocity of detonation of explosives for blasting.
This document does not apply to boosters and explosive substances.
NOTE   This document does not apply to black powder. The burning rate of black powder is determined in accordance with EN 13938-4:2025.

This document specifies a method for determination of resistance to hydrostatic pressure of electric detonators, non-electric detonators, electronic detonators, surface connectors and detonating cord relays.
Detonating cord relays, stated by the manufacturer to be used in dry conditions, are excluded.
This document is applicable to explosives for civil uses.

This document applies to the transportation of passengers in a forward- and/or rearward-facing position on a carrier cycle as defined in the EN 17860 series, except for Part 7 (carrier cycle trailers).
This document does not apply to the transportation of children in a child seat that is tested according to EN 14344:2022.
This document applies to the intended riding purpose commuting and leisure with moderate effort, in accordance with EN 17406:2020+A1:2021.
NOTE    Some European countries have special legislation for transporting children on cycles. Compliance with this document might not meet this legislation.

This document specifies a test method for the verification of the insensitiveness to friction of explosives for blasting and explosive substances.
This document is also applicable to black powder used for blasting.
This document is not applicable to boosters.
This document is not applicable to compact solid explosives.
This document is not applicable to liquid explosives.
This document also applies to solid gun propellants, solid rocket propellants, black powder used as propellants, for safety fuse or for pyrotechnics and powder cakes as covered by EN 13938-1:2025.

This document specifies a method for determining the delay time accuracy of electric detonators, non-electric detonators, surface connectors and detonating cord relays with pyrotechnic delay elements.
This document applies to explosives for civil uses.
NOTE The method for determining the delay time accuracy for electronic initiation systems is included in prEN 13763-27.

This document specifies two test methods for the verification of the insensitiveness to impact.
This document is applicable to electric detonators, non-electric detonators, electronic detonators, plain detonators, semi-finished detonators, surface connectors and detonating cord relays as well as shock tubes.
This document does not apply to electronic initiation systems.

This document specifies a test method for the verification of thermal stability.
This document is applicable to electric detonators, non-electric detonators, electronic detonators, plain detonators, semi-finished detonators, surface connectors and detonating cord relays as well as shock tubes.
This document does not apply to electronic initiation systems.

This document is applicable to carrier cycles with or without electric assistance with a minimum gross vehicle weight that is bigger than 300 kg and a maximum gross vehicle weight of 650 kg.

This document specifies test methods for electronic initiation systems.
The test methods for electronic initiation systems refer to complete electronic initiation systems but also to electronic detonators, wireless electronic detonators and to firing units, programming units, testing units and control units that are part of an electronic initiation system.
Other parts of the EN 13763 series contain test methods applicable to electronic detonators, too.
This document does not apply to electric, non-electric, plain and semi-finished detonators, surface connectors, detonating cord relays, coupling accessories, leading wires and shock tubes.

This document specifies a test method for the verification of the transmission of deflagration of black powder used for blasting.
This document applies only to black powder in granular form or in compressed form.

This document specifies a method for checking small rocket motors for voids and fissures and provides a list of non-destructive testing (NDT) methods for detecting voids and fissures in other solid rocket propellants.

This document specifies a method for determining the resistance to cracking at low temperatures of the leading wire plastic insulation of electric detonators and electronic detonators.
This document is applicable to explosives for civil uses.

This document specifies a test method for the verification of the thermal stability at 75 °C of explosives for blasting, boosters and explosive substances.
This document also applies to black powder when used for blasting.
This document also applies to solid gun propellants, solid rocket propellants, black powder used as propellants, for safety fuse or for pyrotechnics and powder cakes as covered by EN 13938-1:2025.

This document specifies a method for the determination of resistance to electrostatic energy for propellants containing a mass fraction of at least 5 % of particles which pass through a 1 mm sieve. This method does not apply to black powder.
NOTE   If the mass fraction of particles smaller than 1 mm size is less than 5 % the propellant is considered to be insensitive to electrostatic energy and this test is not performed.

This document specifies a test method for the verification of the resistance to hydrostatic pressure of explosives for blasting and a test method for the verification of the resistance to hydrostatic pressure of explosives for boosters.
This document does not apply to black powder.
This document does not apply to explosive substances.

This document specifies a method for determining the no-fire current of electric detonators. This document applies to explosives for civil uses.

This document specifies a method for determining the resistance of the electric detonators, non-electric detonators, plain detonators and electronic detonators to bending.
This document applies to explosives for civil uses.

IEC 61169-23:2025, which is a sectional specification (SS), provides information and rules for the preparation of detail specifications (DS) for pin and socket connector for use with 3,5 mm rigid precision coaxial lines with inner diameter of outer conductor 3,5 mm (0,137 8 in).
This document specifies mating face dimensions for high performance connectors – grade 1, dimensional details of standard test connectors – grade 0, gauging information and tests selected from IEC 61169-1, applicable to all detail specifications relating to series 3,5 mm RF connectors.
This document indicates recommended performance characteristics to be considered when writing a detail specification and it covers test schedules and inspection requirements for assessment levels M and H.
These connectors are constructed so as to affix on the 50 Ω, 3,5 mm rigid precision coaxial line described in IEC 60457-5, and to provide low reflection to 34 GHz. These connectors can be intermated with SMA (IEC 61169-15) and 2,92 mm (IEC 61169-35) connectors.

This document specifies a screening test method to quantify rapidly the activity concentration of gamma-emitting radionuclides, such as 131I, 132Te, 134Cs and 137Cs, in solid or liquid test samples using gamma-ray spectrometry with lower resolution scintillation detectors as compared with the HPGe detectors (see IEC 61563[7]).
This test method can be used for the measurement of any potentially contaminated environmental matrices (including soil), food and feed samples as well as industrial materials or products that have been properly conditioned[8]. Sample preparation techniques used in the screening method are not specified in this document, since special sample preparation techniques other than simple machining (cutting, grinding, etc.) should not be required. Although the sampling procedure is of utmost importance in the case of the measurement of radioactivity in samples, it is out of scope of this document; other International Standards for sampling procedures that can be used in combination with this document are available (see References [9] [10] [11] [12] [13] [14]).
The test method applies to the measurement of gamma-emitting radionuclides such as 131I, 134Cs and 137Cs. Using sample sizes of 0,5 l to 1,0 l in a Marinelli beaker and a counting time of 5 min to 20 min, decision threshold of 10 Bq·kg−1 can be achievable using a commercially available scintillation spectrometer [e.g. thallium activated sodium iodide (NaI(Tl)) spectrometer 2” ϕ × 2” (50,8 mm Ø x 50,8 mm) detector size, 7 % resolution (FWHM) at 662 keV, 30 mm lead shield thickness].
This test method also can be performed in a “makeshift” laboratory or even outside a testing laboratory on samples directly measured in the field where they were collected.
During a nuclear or radiological emergency, this test method enables a rapid measurement of the activity concentration of potentially contaminated samples to check against operational intervention levels (OILs) set up by decision makers that would trigger a predetermined emergency response to reduce existing radiation risks[2].
Due to the uncertainty associated with the results obtained with this test method, test samples requiring more accurate test results can be measured using high purity germanium (HPGe) detectors gamma-ray spectrometry in a testing laboratory, following appropriate preparation of the test samples[15][16].
This document does not contain criteria to establish the activity concentration of OILs.

This document specifies requirements and guidelines for organizations to consider biodiversity in their strategies and operations, thereby adopting a biodiversity approach.
It is applicable to any type of organization, irrespective of its size or nature (e.g. large groups, public institutions, local authorities, mid-cap companies, associations, micro-structures, single-member companies), sector, level of development and the extent to which it includes biodiversity protection in its activities.

This document applies to water meters used to meter the volume of cold potable water and hot water flowing through a fully charged, closed conduit. These water meters incorporate devices which indicate the integrated volume.
This document specifies criteria for the selection of single, combination and concentric water meters, associated fittings, installation, special requirements for meters, and the first operation of new or repaired meters to ensure accurate constant measurement and reliable reading of the meter.
In addition to meters based on mechanical principles, this document also applies to water meters based on electrical or electronic principles, and to water meters based on mechanical principles incorporating electronic devices, used to measure the volume of cold potable water and hot water. It also applies to electronic ancillary devices. Ancillary devices are optional. However, national or international regulations may make some ancillary devices mandatory in relation to the utilization of the water meter.
The recommendations of this document apply to water meters, irrespective of technology, defined as integrating measuring instruments determining the volume of water flowing through them.
NOTE            Any national regulations apply in the country of use.

IEC 60645-7:2025 applies to instruments designed for the measurement of auditory evoked potentials from the inner ear, the auditory nerve, and the brainstem, evoked by either acoustic or vibratory stimuli of short duration. This document defines the characteristics to be specified by the manufacturer, specifies performance requirements for two types of instruments (screening and diagnostic/clinical), and specifies the functions to be provided on these types. It also specifies a means of describing the physical characteristics, in terms of electrical waveforms, of audiometric reference and test signals of short duration used with auditory evoked potential equipment and other equipment (e.g. otoacoustic emission instruments), and methods for their measurement. The purpose of this document is to ensure that measurements made under comparable test conditions with different instruments complying with this document will be consistent. This document is not intended to restrict development or incorporation of new features, nor to discourage innovative approaches. Evoked response measurement using the application of electric stimuli to a subject is beyond the scope of this document.

This document specifies qualification of the personnel regarding the tasks to be performed in the context of the maintenance of plant, infrastructure and production systems to fulfil the requirements of the maintenance job.
This document describes the knowledge, skills, and competencies required for the qualification of maintenance personnel. These guidelines can be used for training, skills validation of maintenance personal and career planning.
This document covers the following professional roles in the maintenance organization:
-   Maintenance Technician Specialist;
-   Maintenance Supervisor;
-   Maintenance Engineer;
-   Maintenance Manager.
These designations can be adapted based on company practices and operational organization. An example of an organizational structure can be seen in Annex A.
This document does not specify the verification criteria nor the specialized training of the personnel, which is related to specific sectors.
NOTE   Specialization and profession are the subjects of the training carried out in the relevant sector.

This document specifies two methods to assess the quality of sealed anodic oxidation coatings on aluminium and its alloys:
—     Method 1 which assesses the quality of sealed anodic oxidation coatings by measuring the loss of mass after immersion in a phosphoric acid based solution without prior acid treatment;
—     Method 2 which assesses the quality of sealed anodic oxidation coatings by measuring the loss of mass after immersion in a phosphoric acid based solution with prior acid treatment.
Method 1 is applicable to anodic oxidation coatings intended for decorative or protective purposes or where resistance to staining is important.
Method 2 is applicable to anodic oxidation coatings intended for outdoor architectural purposes. For less severe applications, Method 1 can be more suitable.
The methods are not applicable to the following:
—     hard-type anodic oxidation coatings which normally are not sealed;
—     anodic oxidation coatings that have been sealed only in dichromate solutions;
—     anodic oxidation coatings produced in chromic acid solutions;
—     anodic oxidation coatings that have undergone treatment to render them hydrophobic.
NOTE 1        While the methods assess the quality of hydrothermal sealing applied to anodized aluminium, they can be appropriate for other sealing methods.
NOTE 2        The methods are destructive and can serve as reference methods in case of doubt or dispute regarding the results of the test for loss of absorptive power (see ISO 2143) or the measurement of admittance (see ISO 2931).

IEC 60794-1-110:2025 defines test procedures used to establishing uniform requirements for mechanical performance - kink. It applies to optical fibre cables for use with telecommunication equipment and devices employing similar techniques, and to cables having a combination of both optical fibres and electrical conductors. IEC 60794-1-2 gives general requirements, definitions and a complete reference guide to test methods of all types.
This first edition cancels and replaces Method E10 of the first edition of IEC 60794-1-21:2015, which will be withdrawn. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
addition of "4.7";
addition of "Annex A".

This document specifies the reference method for the testing of spectacle frames, ready-to-wear near-vision spectacles, sunglasses and spectacle frames used for eye and face protection for nickel release.
The reference method supports the demonstration of conformity with the limit value for nickel release of 0,5 µg·cm−2·week−1 set forth by European Regulation.
The reference method involves the procedural steps shown in Figure 1 and described in Clause 4.
This document applies to those parts of metal spectacle frames and those metal parts of combination spectacle frames that are intended to come into direct and prolonged contact with the skin of the wearer. This document also applies to those relevant metal parts of ready-to-wear near-vision spectacles, sunglasses and spectacle frames used for eye and face protection.
NOTE   The reference method for articles apart from spectacle frames, ready-to-wear near-vision spectacles, sunglasses and spectacle frames used for eye and face protection is specified in EN 1811.