Toimialayhteisöt

 

1.1 Scope of FprEN 1992-1-1 (1) This document gives the general basis for the design of structures in plain, reinforced and prestressed concrete made with normal weight, lightweight and heavyweight aggregates. It gives specific rules for buildings, bridges and civil engineering structures, including temporary structures; additional requirements specific to bridges are given in Annex K. The rules are valid under temperature conditions between -40 °C and +100 °C generally. This document complies with the principles and requirements for the safety, serviceability, durability and robustness of structures, the basis of their design and verification that are given in EN 1990. (2) This document is only concerned with the requirements for resistance, serviceability, durability, robustness and fire resistance of concrete structures. Other requirements, e.g. concerning thermal or sound insulation, are not considered. (3) This document does not cover: - resistance to fire (see EN 1992 1 2); - fastenings in concrete (see EN 1992 4); - seismic design (see EN 1998 (all parts)); - particular aspects of special types of civil engineering works (such as dams, pressure vessels); - structures made with no-fines concrete, aerated or cellular concrete, lightweight aggregate concrete with open structure components; - structures containing steel sections considered in design (see EN 1994 (all parts)) for composite steel and concrete structures; - structural parts made of concrete with a smallest value of the upper sieve aggregate size Dlower < 8 mm (or if known Dmax < 8 mm) unless otherwise stated in this Eurocode. 1.2 Assumptions (1) The assumptions of EN 1990 apply to FprEN 1992-1-1. (2) It is assumed that the requirements for execution and workmanship given in EN 13670 are complied with.

 

This document provides terminology, concepts, requirements, and guidance for logging of AI systems. It is primarily intended for organizations placing on the market or putting into service AI systems and is not specific to any particular sector.

 

This document establishes a list of properties, and the corresponding test methods, that permit inspection and control of thermoset and thermoplastic composites.

 

This document contains guidelines for developing and establishing policies and procedures for deletion of personally identifiable information (PII) in organizations by specifying:

— a harmonized terminology for PII deletion;

— an approach for defining deletion rules in an efficient way;

— a description of required documentation;

— a broad definition of roles, responsibilities and processes.

 

This document is intended to be used by organizations where PII is stored or processed.

 

This document does not address:

— specific legal provision, as given by national law or specified in contracts;

— specific deletion rules for particular clusters of PII that are defined by PII controllers for processing PII;

— deletion mechanisms;

— reliability, security and suitability of deletion processes and mechanisms;

— specific techniques for de-identification of data.

 

Tämä on muutos standardiin ISO/IEC 22237-2:2024 Information technology — Data centre facilities and  infrastructures — Part 2:  Building construction.

 

Alkuperäisen standardin soveltamisala on:

 

This document specifies requirements and recommendations for the construction of buildings and other  structures which provide accommodation for data centres based on the criteria and classification for  “physical security” within ISO/IEC 22237-1 in support of availability.
This document specifies requirements and recommendations for the following:
a) location and site selection (taking in to account natural environment and adjacencies);
b) protection from environmental risks;
c) site configuration;
d) building construction;
e) building configuration;
f) provision of access;
g) physical intrusion protection;
h) physical fire protection;
i) protection against damage from water;
j) quality construction measures.

 

Safety and electromagnetic compatibility (EMC) requirements are outside the scope of this document and  are covered by other standards and regulations. However, information given in this document can be of 
assistance in meeting these standards and regulations.

 

This International Standard provides requirements that are intended to minimize risks related to Electrical, Electronic and Electromechanical (EEE) parts used in commercial spacecraft, launch vehicles, and critical Ground Support Equipment (GSE). The family of EEE parts includes electro-optical parts. electrical, electronic and electromechanical (EEE) parts - and enhance safety and reliability.

 

This document specifies the test apparatus, test procedures, quality control and test report of swelling pressure test of buffer material for disposal of high-level radioactive waste. The swelling pressure of the buffer material is measured under constant volume conditions, which should be strictly maintained. This document is applicable to the measurement of swelling pressure of buffer material for disposal of high-level radioactive waste. The test should be performed at temperatures ranging from ambient to 95 °C. Higher test temperatures may be applied, provided that they are clearly documented in the test report and that all components of the test apparatus, including seals and sensors, are suitable for operation at the selected temperature. This document can also be applicable to test the swelling pressure of bentonite-based material for disposal of intermediate-level and low-level radioactive waste.

 

This document specifies product specification for vacuum insulating glass (VIG). It also specifies evaluation methods for performance and evaluation methods for thermal insulation durability. The products applied to this standard are: — VIG without further processing; — VIG further processed into a laminated glass; — VIG backed with an adhesive (safety) film. — Hybrid VIG (h-VIG), i.e. insulating glass unit (IGU) in which one pane is a VIG.

 

This document specifies a calculation method for the application of a static load test to the structural attachment of marine evacuation systems to ships.

 

This International Standard specifies requirements for determining commutability of a CRM (3.4)for which commutability (3.7) with clinical samples (3.6) is required, and the content of the supporting documentation. This standard is applicable to a commutable (3.7) CRM (3.4) intended for use as a secondary calibrator (3.32) or international conventional calibrator (3.13) in the m.3 position of calibration hierarchies described in ISO 17511 and that comply with the requirements of ISO 15194. This Standard is also applicable to a CRM (3.4) used as a trueness control (3.33) for an end-user measurement procedure (MP) (3.19). This standard applies primarily to commutable secondary calibrator (3.32) CRMs (3.4) with assigned property values where the property has a magnitude that can be expressed as a quantitative scalar number or ratio to a reference or refers to a counting scale as also described in the scope of ISO 17511. For qualitative or visually interpreted measurement procedures, this document may serve as a conceptual framework, but additional criteria may apply. When a commutable secondary calibrator (3.32) CRM (3.4) includes multiple measurands, this Standard is applied to each of the measurands present in the CRM (3.4). This standard does not apply to a primary reference material (3.25) that consists of a defined high-purity analyte (3.1).

 

This document specifies the requirements and test methods for sterilized absorbent points used in endodontic procedures. Absorbent points are marketed sterilized or non-sterilized. The requirements apply to absorbent points which have been sterilized once in a manner approved by the manufacturer. This document specifies numerical systems and a colour-coding system for designating the sizes of absorbent points. Clause 7 specifies product information to be provided. A claim by the manufacturer that the contents of the unopened pack are sterile is the responsibility of the manufacturer (see 7.3). This document does not specify requirements or test methods for sterility. NOTE 1 Reference to applicable national regulations can be made. Reference is made to internationally accepted pharmacopoeia. NOTE 2 National requirements can apply. Standards on methods of validating sterilization processes are also available: ISO 11737-1, ISO 11737-2 and ISO 11737-3.

 

This document specifies methods of measuring the effectiveness of inlet only, outlet only, and inlet/outlet anti-drain valves when fitted to a full-flow lubricating oil filter of the “spin-on” or “easy change” type, for internal combustion engines.

 

This document specifies terms, general models, related parameters and various requirements of oblivious transfer.

 

Article 20 GDPR and Article 4 and 5 the proposed FIDA Regulation require the data access and portability of customer data. To support this demand CEN/TC 445 will organise the standardisation project with its Working Group 1 in which the following European standardisation deliverable will be developed. European Standard (EN) for the semantic specification of the interfaces The scope of this EN for customer (natural or legal person) data access and portability in the insurance sector should be based on the insurance-specific part of the proposed FIDA Regulation and therefore should contain: • Semantic specifications for the processes to support the data access and portability. These specifications define on the business level the functions and the behaviour for the following process interfaces: - Request of the customer to the data holder for an actual transfer of the customer data (Article 4 FIDA). - Transfer of the requested customer data from the data holder to the requesting customer (Article 4 FIDA). - Request of a data user to a data holder for an actual transfer of customer data under a permission of the customer (Article 5 FIDA). - Transfer of the requested customer data from the data holder to the requesting data user (Article 5 FIDA). • Sematic specifications for the customer data to be transferred by the above processes. The scope of the customer data will be limited to the insurance-specific part of the FIDA proposal defined in the Article 2 (1) and Article 3 (3) of FIDA. These specifications define on the business level each element of the customer data with identification, name, precise definition, and value type (text, number, amount, quantity, percentage, date, etc.). The composition of these data elements forms a semantic data model for the insurance-specific customer data. The data model will consist of the following parts: - General data of the policy holder (including address, contact details, profession, payment means, etc.). - General data of the insurance policy (including policy number, insurance product and coverages, insured period, premium amounts, etc.). - Data specific to the consumers’ insured assets which are collected for the purposes of a demands and needs test. - Data depending on class of business, such as - Motor insurance (details about vehicle, usage, drivers), - Property insurance (details about building, household or other objects), - Liability insurance (details about insured persons and their activities), - Accident insurance (details about insured persons and their activities), - Insurance-based investment products (details about insured persons and the savings, investments, pension rights, etc.). The EN specifies the processes and the data model on the semantic level in a syntax-neutral format, independent from its representation in a concrete implementation syntax.

 

This document gives the safety requirements and measures for four-sided moulding machines, capable of continuous production use, with a maximum working width of 350 mm and a maximum speed of the integrated workpiece feed of 200 m/min, hereinafter referred to as “machines”, designed to cut solid wood and materials with similar physical characteristics to wood (see ISO 19085-1:2021, 3.2). It deals with all significant hazards, hazardous situations and events, listed in Annex A, relevant to the machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer; reasonably foreseeable misuse has been considered too. Also, transport, assembly, dismantling, disabling and scrapping phases are taken into account. It is also applicable to machines fitted with one or more of the following devices / additional working units, whose hazards have been dealt with: —    universal spindle; —    glass bead saw unit; —    fixed or movable workpiece support; —    quick tool changing system; —    laser marking unit; —    automatic workpiece returner; —    in-feed hopper; —    loading magazine; —    unloading table. This document does not deal with any hazards related to: a) in-feed devices other than in-feed hopper and loading magazine; NOTE 1      For mechanical in-feed devices which also prevent access to the in-feed opening, see 6.6.4. b) out-feed devices other than unloading table, except for hazards related to ejection from the machine due to climb cutting; c) out-feed of workpieces on machines with feed speed higher than 60 m/min; NOTE 2      Machines with feed speed higher than 60 m/min are usually combined with mechanical unloading and workpiece transfer systems. d) machines being used in combination with any other machine (as part of a line). It is not applicable to machines intended for use in potentially explosive atmosphere and to machines manufactured prior to its publication.

 

This European Standard applies to rope adjustment devices intended for use in rope access systems. It specifies the requirements, test methods, marking and manufacturer’s instructions and information.

 

This document specifies the technical delivery conditions for corrosion-resistant alloy seamless 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 or NACE MR0175. This document contains no provisions relating to the connection of individual lengths of pipe. Demonstration of conformance to ISO 15156-3:2020 or NACE MR0175-2021 of material affected by end sizing, connection manufacture or welding operations is outside the scope of this document. 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.

 

ISO 10519:2015 specifies a spectrometric method for the determination of the chlorophyll content of rapeseed. It is not applicable to the determination of chlorophyll in oils.

 

This document defines an application interface definition by selecting suitable options from the base standard EN ISO 12855:2021. Furthermore, it defines transfer mechanisms and supporting functions to ensure the interoperability between Toll Chargers and Toll Service Providers. This document covers: — exchange of information between the central equipment associated with the two roles service provision and toll charging, e.g.: o charging related data (exception lists, toll declarations, billing details, payment claims); o administrative data (trust objects, EFC context data, contact details for enforcement, etc.); o confirmation data. — transfer mechanisms and supporting functions; — semantics of data elements; — restrictions on parameters and their values — implementation conformance statement proforma, in an Annex, as a basis for assessment of conformity to this document; — an Interoperability statement proforma, in an Annex, as a basis for assessment of transactional interoperability of two technical implementations; — a web service definition, in an Annex, for the use of web services as communication technology. The implementation of the underlying back office systems and their business processes is not covered.

 

Transmodel is composed of 10 parts (see above). This work item consists in the revision and update of the documentation of the Public transport reference data model – Part 8 (Transmodel – Part 8). The update consists basically of the following types of actions: a. Simplication of Part 8 based on the revision of Part 1: several functional extensions of Transmodel took place since the last publication of EN12896 (in 2016 and 2019). The functional extensions elaborated until 2019 generated additional common concepts which have already been published in the relevant documents. These additional common concepts are now integrated into Transmodel - Part 1 and thus removed from Part 8. b. Updates/extensions of Part 8 as a consequence of • Work presented in TR17370:2019. This TR provides a list of KPIs calculated using operational raw data. The action consists here to provide data model extracts, representing the raw data needed for several KPIs (listed in TR17370:2019), The extracted sub-models are based upon the (already existing) "Loggable object model" and will complete the 2 examples published in the current version of Part 8. c. Ensuring coherence of the Transmodel eco-system. Several updates of Transmodel- Part 8 result from the discussions lead with the OpRa group and intend to ensure coherence with the OpRa Technical Specification.