Byggnadsmaterial och byggnader

This European Standard specifies the classifications, requirements and test methods for non-covered unplasticized poly(vinyl chloride) (PVC-U) profiles intended to be used for the fabrication of windows and doors. NOTE 1 For editorial reasons in this document the term "window" is used for window/door.

This document specifies requirements and test methods for durability, strength, security and functionality of sliding closing devices (SCDs) for windows and door height windows. This document does not specifically cover the handles used in handle-operated SCDs or the sash fasteners used in cam-operated SCDs, requirements and test methods for which are given in EN 13126-2, EN 13126-3 and EN 13126-14, respectively.

This document specifies general safety requirements for self-loading mobile concrete mixers (here-after referred to as “SLMs”) as defined in ISO 18650-1:2021, with rigid or articulated wheeled chassis. This document applies to SLMs which are designed for front or rear loading and can be provided with a slewing and/or tilting frame where the rotating drum and the self-loading equipment (lift arms and bucket) are mounted on. SLMs can also be fitted with accessories such as water dosing means and a weighing system. This document is not applicable to the following: - machines designed primarily for earth moving, such as loaders or dumpers (see applicable parts of the EN 474 series); - truck mixers (see EN 12609). This document deals with all significant hazards, hazardous situations and events relevant to SLMs, whether used as intended and under conditions foreseen or under conditions of misuse reasonably foreseeable by the manufacturer (see Annex A). This document does not address hazards that can occur: - during manufacture; - when using SLMs on public roads, where specific local road regulations can apply; - when operating in potentially explosive atmospheres. This document does not address hazards specifically related to: - SLMs designed to operate with varying levels of autonomy or when SLMs have embedded safety-systems with fully or partially self-evolving behaviour or logic using machine learning approaches, including collaborative applications; - SLMs when intended to be connected to the internet or to an external network or device that communicates with it. This document is not applicable to SLMs manufactured before the date of its publication.

I detta dokument anges en provningsmetod för bestämning av motståndsförmåga hos golvmaterial och golvkonstruktioner mot tungt belastade länkhjul.

Detta dokument är inte avsett att tillämpas på golvavjämningsmassor eftersom de hanteras i SS-EN 13892-5.

Detta dokument anger krav på längsgående snöglidhinder, snörasskydd och förhöjda snörasskydd avsedda att förhindra okontrollerade snöras från tak samt metoder för provning.

This European Standard covers methods for the calculation of the design heat load for single rooms, building entities and buildings, where the design heat load is defined as the heat supply (power) needed to maintain the required internal design temperature under design external conditions. Table 1 shows the relative position of this standard within the set of EPB standards in the context of the modular structure as set out in EN ISO 52000 -1. NOTE 1 In CEN ISO/TR 52000 2 the same table can be found, with, for each module, the numbers of the relevant EPB standards and accompanying technical reports that are published or in preparation. NOTE 2 The modules represent EPB standards, although one EPB standard may cover more than one module and one module may be covered by more than one EPB standard, for instance a simplified and a detailed method respectively. See also Clause 2 and Tables A.1 and B.1. (...)

Identical scope from ISO 22359:2024

This document specifies definitions, principles of construction (but not dimensions) and design, requirements on performance and operation as well as methods for testing the performance of adjustable chemical dosing systems for conditioning water intended for human consumption inside buildings (see [1]) which are permanently connected to the mains supply.

This document defines key terminology, establishes circular economy principles at the levels of construction works as well as construction products of all kinds, and provides a guidance framework for the implementation and assessment of circularity in the built environment.

This document specifies the requirements for dimensions, safety and performance of mobile working platforms made of prefabricated elements used as low height and low load capacity temporary work equipment. This document applies to the design of mobile working platforms: − with wheels; − for assembly by one person; − for use by one or more persons; − with no more than one platform level; − made of prefabricated elements with dimensions which are fixed by the design; − with a platform height limited to 2,0 m; − with minimum platform dimensions of 0,5 m x 1,0 m and maximum − platform dimensions of 2,0 m x 3,5 m; − used indoors or outdoors. This document does not apply to: − scaffolds according to EN 12810-1 and EN 12811-1; − mobile access towers according to EN 1004-1; − mobile ladders with platform according to EN 131-7; − ladders with separate platform according to EN 131-8; − where different load assumptions and verification methods are applied.

I detta dokument anges en metod för provning av hållfastheten hos hörnförband till fönsterkarmar och fönsterbågar.

This document establishes a framework for providing specifications for the internal commissioning and implementation of building information modelling (BIM) during both delivery and operational phases. It identifies a structured approach so as to encourage clarity during development, management and checking processes for use by organizations that develop and apply these specifications.

This document does not provide specific content but it does provide examples.

It is applicable to buildings, infrastructure, facilities and managed landscapes, of any size or complexity.

This ISO standard specifies the terminology for hardware used in windows and pedestrian doors. Hardware in this document refers to building hardware. This document mainly only refers to the terminology of hardware used for the connection between window sash/casement, door leaf, and their corresponding frames as well as the hardware used for operating the window sash/casement and door leaf. This document is neither for the terminology of fixing elements used as a means of connecting the hardware to the door and window sash/casement profile or frame, nor the hardware used for connection between door/ window frame and their openings, such as screws, bolts, etc. This document does not set out physical definitions related to performance requirements and associated test methods of the hardware.

ISO 16890-1:2016 establishes an efficiency classification system of air filters for general ventilation based upon particulate matter (PM). It also provides an overview of the test procedures, and specifies general requirements for assessing and marking the filters, as well as for documenting the test results. It is intended for use in conjunction with ISO 16890‑2, ISO 16890‑3 and ISO 16890‑4. The test method described in this part of ISO 16890 is applicable for air flow rates between 0,25 m3/s (900 m3/h, 530 ft3/min) and 1,5 m3/s (5 400 m3/h, 3 178 ft3/min), referring to a test rig with a nominal face area of 610 mm × 610 mm (24 inch × 24 inch). ISO 16890 (all parts) refers to particulate air filter elements for general ventilation having an ePM1 efficiency less than or equal to 99 % when tested according to the procedures defined within ISO 16890‑1, ISO 16890‑2, ISO 16890‑3 and ISO 16890‑4. Air filter elements with a higher initial efficiency are evaluated by other applicable test methods (see ISO 29463-1, ISO 29463-2, ISO 29463-3, ISO 29463-4 and ISO 29463-5). Filter elements used in portable room-air cleaners are excluded from the scope of this part of ISO 16890. The performance results obtained in accordance with ISO 16890 (all parts) cannot by themselves be quantitatively applied to predict performance in service with regard to efficiency and lifetime. Other factors influencing performance to be taken into account are described in Annex A.