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Komité: ISO/TC 22/SC 32 (Electrical and electronic components and general system aspects)
Opprinnelse: ISO
Sluttdato: 18. aug 2022
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Komité: ISO/TC 8/SC 4 (Outfitting and deck machinery)
Opprinnelse: ISO
Sluttdato: 18. aug 2022
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Komité: ISO/TC 8/SC 4 (Outfitting and deck machinery)
Opprinnelse: ISO
Sluttdato: 18. aug 2022
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Komité: ISO/TC 38 (Textiles)
Opprinnelse: ISO
Sluttdato: 18. aug 2022
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ISO 9073-13:2006 specifies a test method for measuring the strike-through time (STT) for each of three subsequent doses of liquid (simulated urine) applied to the surface of a test piece of nonwoven coverstock. The STT is defined as the time taken for a known volume of liquid to pass through the nonwoven that is in contact with an underlying dry standard absorbent pad.


This test method is intended for quality control and is designed for comparison of STT for different nonwoven coverstocks. It does not simulate in-use conditions for finished products.

Komité: CEN/TC 19 (Gaseous and liquid fuels, lubricants and related products of petroleum, synthetic and biological origin.)
Opprinnelse: SN
Sluttdato: 18. aug 2022
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This document specifies a test method for the determination of the oxidation stability at 120 °C of fuels for diesel engines, by means of measuring the induction period of the fuel up to 20 h. The method is applicable to blends of FAME with petroleum-based diesel having a FAME content in the range between 2 % (V/V) and 50 % (V/V). NOTE 1 An almost identical test method for oxidation stability at 110 °C is described in EN 15751 [1], which applies to pure FAME and diesel/FAME blends containing 2 % (V/V) of FAME at minimum. Other alternative test methods for the determination of the oxidation stability of distillate fuels are described in CEN/TR 17225 [3]. NOTE 2 The precision of this method was determined using samples with a maximum induction period of approximately 20 h. Higher induction periods are not covered by the precision statement; however, experience from EN 15751 indicates sufficient precision up to 48 h. NOTE 3 The presence of cetane improver can reduce the oxidation stability determined by this test method. Limited studies with 2-ethyl hexyl nitrate (EHN) indicated that the stability is reduced to an extent which is within the reproducibility of the test method. NOTE 4 For the purposes of this document, the term "% (V/V)" is used to represent the volume fraction.
Komité: CEN/TC 88 (Thermal insulating materials and products)
Opprinnelse: SN
Sluttdato: 18. aug 2022
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This document covers factory-made reflective insulation (RI) products intended for use as thermal and acoustic insulation of buildings. The products are manufactured in the form of rolls or boards. They are made from low emissive film(s) and infrared semi-transparent material layer(s) or air cavities. This document describes the methods and criteria for assessing the performance of factory-made reflective insulation products in relation to essential product characteristics and includes the procedures for assessment and verification of the constancy of performance. Reflective insulation products require specific setup instruction(s) depending on their level of compressibility. This document does not specify the required level of a given property to be achieved by a product to demonstrate fitness for purpose in a particular application. The levels required for a given application are to be found in regulations or non-conflicting standards. This document does not cover: - products intended to be used for the insulation of building equipment and industrial installations; - products made of mineral wool, polystyrene or polyurethane foams (not inclusive) faced with aluminium or metalized foil on one or both external surfaces (which are already covered by a corresponding harmonized European product standard); - membranes used as vapour control layer (VCL) or vapour-permeable roof or wall underlay (which are already covered by a specific harmonized European product standard).
Emner: Sykler
Komité: CEN/TC 333 (Cycles)
Opprinnelse: SN
Sluttdato: 18. aug 2022
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This standard specifies terms and definitions related to safety and performance requirements for the design, assembly, and testing of carrier cycles.
Komité: CEN/TC 275 (Food analysis - Horizontal methods)
Opprinnelse: SN
Sluttdato: 18. aug 2022
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This document specifies minimum performance requirements for methods that quantify the food allergens milk, egg, peanut, hazelnut, almond, brazil nut, macadamia nut, cashew, pistachio nut, walnut, pecan nut, lupine, sesame, mustard, soy, celery, fish, molluscs, crustaceans, and wheat in raw and processed foodstuffs. Within the scope of this document, minimum requirements for an LOQ (Limit of Quantification) will be derived from threshold data of allergic consumers. For quantitative antibody-based methods, a normative annex will describe what specific information the method developer needs to deliver and how performance characteristics shall be validated. Regarding PCR and LC-MS/MS, information on performance characteristics are in parts covered by EN 15634-1 and EN 17644. This document does not apply to fragmented or hydrolysed food allergens, such as casein hydrolysates or soy sauce. It also does not apply to methods that deliver qualitative results only. Methods that cover gluten-containing cereals (wheat, rye, and barley) with regard to coeliac disease are covered by EN 17254.
Komité: CEN/TC 51 (Cement and building limes)
Opprinnelse: SN
Sluttdato: 18. aug 2022
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This document deals with cement with recycled building materials whose intended use is the preparation of concrete, mortar, grout, etc.
Komité: ASD-STAN (Aerospace)
Opprinnelse: SN
Sluttdato: 18. aug 2022
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1.1 This document establishes the requirements for performing and documenting FAI. It is emphasized that the requirements specified in this document are complementary (not alternative) to customer and applicable statutory and regulatory requirements. If there is a conflict between the requirements of this document, and customer or applicable statutory/regulatory requirements, the latter takes precedence. In this document, the following verbal forms are used: - "shall" indicates a requirement; - "should" indicates a recommendation; - "may" indicates a permission; - "can" indicates a possibility or a capability. Information marked as "NOTE" is for guidance in understanding or clarifying the associated requirement. 1.2 Purpose The primary purpose of FAI is to verify and validate product realization processes capable of producing characteristics that meet engineering and design requirements. A FAI is not a product acceptance document. A well-planned and executed FAI by a multi-disciplinary team (e.g., members from responsible functions) provides objective evidence the manufacturer’s processes can produce compliant product, having effectively understood and incorporated the associated requirements. NOTE While interrelated, FAI and product acceptance are separate activities. FAI focus is verification of production processes via assessment of product. FAI and supporting documentation do not provide assurance regarding conformance for product acceptance purposes; neither does the lack of a FAI necessarily imply that the product is nonconforming to engineering and design requirements. FAI will: - provide confidence that the product realization processes are capable of producing conforming product; - demonstrate that the manufacturers and processors of the product have an understanding of the associated requirements; - provide objective evidence of process capability; - mitigate risk associated with production startup and/or process changes; - provide assurance of product conformance at the start of production and after changes, as outlined in this document. A FAI is intended to: - reduce future escapes, risks, and total costs; - help ensure product safety; - improve quality, delivery, and customer satisfaction; - reduce costs and production delays associated with product nonconformances; - identify product realization processes not capable of producing conforming product, and initiate and/or validate associated corrective actions. 1.3 Application This document applies to organizations and sub-tiers responsible for product realization processes that produce the design characteristics of the product. The organization shall flow down the requirements of this document to suppliers who produce design characteristics. This document applies to external suppliers performing special processes. A Certificate of Conformity (CoC) provided by processors attests to satisfying the specification requirements of the applicable design authority. External suppliers providing special processes can satisfy this document’s requirements by either: - documenting the design characteristics and associated results on a FAI; - documenting the design characteristics and associated results on a customer-defined detailed CoC. This document applies to assemblies, sub-assemblies, and detail parts including castings, forgings, and modifications to document catalogue or Commercial-Off-the-Shelf (COTS) items. Each of these items requires a stand-alone FAI. Unless contractually required, this document does not apply to: - development and prototype parts that are not considered as part of the first production run; - procured standard catalogue items, COTS, or deliverable software. These items shall be documented in the index of part numbers in an assembly First Article Inspection Report (FAIR).
Komité: ASD-STAN (Aerospace)
Opprinnelse: SN
Sluttdato: 18. aug 2022
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1.1 General This document defines the requirements for the effective control of non-deliverable software. This document can be used during the development, test, production, release, use, maintenance, and retirement of non-deliverable software. This can include non-deliverable software procured from outside manufacturers and incorporated in the production, evaluation, test, acceptance, or calibration of a deliverable product. When an organization outsources one or more of the processes involved in the creation of non-deliverable software, this document applies. This document focuses solely on the unique requirements of the operational processes that pertain to non-deliverable software as defined by section 1.2. Operational processes not covered in this document are addressed by the organization’s Quality Management System (QMS), based on EN 9100 and/or ISO 9001. 1.2 Application This document applies to non-deliverable software (including firmware) that directly affects the quality of a deliverable product or service. Following are several applications and supporting examples of non-deliverable software that is within scope of this document: - Design and Development: modelling, simulation, virtual reality, virtual machine, data science, Computer-Aided Design (CAD), Three-Dimensional (3D) modelling, analysis tools, software compiler, and code generators. - Manufacture: additive manufacturing data files, Computer Numerical Controlled (CNC) programs, robotics, factory automation, tools that load deliverable software, special process (e.g., heat treat, shot peen, sonic wall inspection), and automated manufacturing software (i.e., pick and place). - Verification and Validation: Coordinate Measuring Machine (CMM) programs, hardware or software qualification, code coverage, test scripts, analysis tools, acceptance test, production acceptance, calibration (inspection, test or calibration), simulator, and emulator. Non-deliverable software is not delivered to the customer under a contract or agreement. The following types of software are not within scope of this standard: - deliverable software (refer to EN 9115); - embedded manufacturing and test equipment software (e.g., operating system); - business systems or office software; and - information systems software for business applications.
Komité: SN/K 114/EG D (Drilling)
Opprinnelse:
Sluttdato: 19. aug 2022
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This standard provides functional requirements to configuration and performance of drilling facilities. The standard also provides requirements to design, manufacturing, installation, testing and documentation of drilling facilities, their systems and equipment installed on fixed offshore installations, mobile offshore drilling units (MODUs), well intervention units and modular drilling rigs. The standard also focusses on environmental footprint of drilling facilities and includes requirements to drilling waste handling, waste segregation and drain systems.

Komité: ISO/TC 106/SC 3 (Terminology)
Opprinnelse: ISO
Sluttdato: 19. aug 2022
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This International Standard provides a system for the designation of supernumerary teeth in humans using two alphanumeric characters.
Komité: ISO/TC 184/SC 5 (Interoperability, integration, and architectures for enterprise systems and automation applications)
Opprinnelse: ISO
Sluttdato: 19. aug 2022
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Komité: ISO/TC 147/SC 5 (Biological methods)
Opprinnelse: ISO
Sluttdato: 19. aug 2022
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Emner: Rørsystemer
Komité: ISO/TC 8/SC 3 (Piping and machinery)
Opprinnelse: ISO
Sluttdato: 19. aug 2022
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