Metalliteollisuuden Standardisointiyhdistys

Komitea: ISO/TC 117 (Fans)
Alkuperä: ISO
Määräpäivä: 2024-12-14
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This standard shall be used as the basis for testing electrically powered air circulating fan heads and ceiling fans when air is used as the test gas. The scope is limited to air circulating fans with an input power greater than or equal to 125 W—except for ceiling fans that are larger than 1800 mm, which do not have a lower input power limit. The diameter of the fan being tested shall be limited by the minimum dimensions as shown in the applicable test figures. Exclusions: Only tests that fulfill all mandatory requirements of this standard may be designated as tests conducted in accordance with this standard.
Komitea: CEN/TC 265 (Metallic tanks for the storage of liquids)
Alkuperä: CEN
Määräpäivä: 2024-12-14
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This document specifies the requirements for materials, design and installation of the insulation of refrigerated liquefied gas (RLG) storage tank systems. RLG storage tank systems store liquefied gas with a low boiling point, i.e. below normal ambient temperature. The concept of storing such products in liquid form and in non-pressurized tanks therefore depends on the combination of latent heat of vaporization and thermal insulation. Consequently, thermal insulation for RLG storage tank systems is not an ancillary part of the containment system (as for most ambient atmospheric hydrocarbon tanks) but it is an essential component and the storage tank system cannot operate without a properly designed, installed and maintained insulation system. The main functions of the insulation in RLG storage tank systems are: - to maintain the boil off due to heat in-leak at or below the specified limits; - to limit the thermal loading of the outer tank components, so to prevent both their sudden damage and premature ageing (e.g. due to external condensation and ice formation); - to prevent damage by frost heave of the foundation/soil beneath the tank base slab (in combination with the slab heating system for tanks resting at grade); - to minimize condensation and icing on the outer surfaces of the tank. A wide range of insulation materials is available. However, the material properties differ greatly amongst the various generically different materials and also within the same generic group of materials. Therefore, within the scope of this document, only general guidance on selection of materials is given. NOTE For general guidance on selection of materials, see Annex A. This document deals with the design and manufacture of site built, vertical, cylindrical, flat-bottomed tank systems for the storage of refrigerated, liquefied gases with operating temperatures between 0 °C and -196 °C. refrigerated, liquefied gases with operating temperatures between 0 °C and -196 °C.
Komitea: ISO/TC 8/SC 2 (Marine environment protection)
Alkuperä: ISO
Määräpäivä: 2024-12-16
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This document specifies a laboratory test method for screening anti-fouling paints in a flow-through system using algae as the test organism. It is intended to be used in conjunction with ISO 21716-1, which specifies the general requirements. The purpose of the test is to determine the difference in the colour of algae on painted test panels compared with algae on inert non-toxic control panels under the test conditions. Examples of statistical analysis to determine if the difference in the colour of algae is statistically significant are given in Annex A.
Komitea: ISO/TC 298 (Rare earth)
Alkuperä: ISO
Määräpäivä: 2024-12-18
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The document specifies a gravimetric method for the determination of the moisture content in rare earth solid concentrate, rare earth oxides and rare earth fluorides. The specified measurement ranges for moisture are shown in Table 1. An instrument capable of the achieving the below ranges is required for this determination. It is not applicable to the rare earth oxides in following cases: This standard does not involve sampling.
Komitea: ISO/TC 298 (Rare earth)
Alkuperä: ISO
Määräpäivä: 2024-12-18
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This document specifies a gravimetric method for the determination of the loss on ignition (LOI) in solid rare earth oxides, carbonates and oxalates. This document is applicable to the determination of the LOI in the range from 0,10 % to 15,00 % in rare earth oxides, from 25,00 % to 80,00 % in rare earth carbonates, and from 35,00 % to 75,00 % in rare earth oxalates.
Komitea: CEN/TC 459/SC 2 (Methods of chemical analysis for iron and steel )
Alkuperä: CEN
Määräpäivä: 2024-12-19
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The method is applicable to carbon contents between 0,003% (m/m) and 4,5 % (m/m). Specifies principle, reagents, apparatus, sampling, procedure, expression of results and test report. The annexes give additional information on the international co-operative tests, a graphical representation of precision data and features of induction furnaces and carbon analysers.
Komitea: CEN/TC 184 (Advanced technical ceramics)
Alkuperä: CEN
Määräpäivä: 2024-12-19
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This document specifies the conditions for the determination of uniaxial tensile properties of ceramic matrix composite (CMC) tubes with continuous fibre-reinforcement at elevated temperature in air, vacuum or inert gas atmospheres. This document is specific to the tubular geometries because fibre architecture and specimen geometry factors in composite tubes are distinctly different from those in flat specimens. This document provides information on the axial tensile properties and stress-strain response in temperature, such as axial tensile strength, axial tensile strain at failure and elastic constants. The information can be used for material development, control of manufacturing (quality insurance), material comparison, characterization, reliability and design data generation for tubular components. This document addresses, but is not restricted to, various suggested test piece fabrication methods. It applies primarily to all ceramic matrix composite tubes with a continuous fibrous-reinforcement: unidirectional (1D, filament winding and tape lay-up), bidirectional (2D braid and weave) and multi-directional (xD, with x > 2), tested along the tube axis.
Komitea: CEN/TC 247 (Building Automation, Controls and Building Management)
Alkuperä: CEN
Määräpäivä: 2024-12-19
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This document specifies requirements and test methods of valve-actuator assemblies in individual zone control of water-based HVAC applications. Control valves of nominal diameter larger than DN50 are currently not covered by this document. Within the scope are pressure independent and pressure dependent control valve-actuator assemblies of relevant categories: 2-port, 3-port and 6-port valves (if they incorporate a control valve function). Where a certain control loop as a combination of controller and valve-actuator assembly was assessed under EN 15500-1:2017, this European Standard allows the assessment of the performance of combinations of that controller with different valve-actuator assemblies. The tests in this document ensure that valve/actuator assemblies, as components of control loops, can be replaced with products that provide comparable or better performance. In hydronic system, valve-actuator assembly is a component of control loop that controls water flow rate according to the application control demand. The common Formula (1) describing the flow rate where whole hydronic system itself has an influence on actual flow rate as differential pressure across control valve-actuator assembly typically varies during operation. Q=k_v . v((?p_v)/(?p_1 bar )) where Q [m3/h] water flow kv [m3/h] flow coefficient of the valve ?pv [bar] differential pressure across the valve ?p1bar [bar] 1 bar differential pressure
Komitea: CEN/TC 156 (Ventilation for buildings)
Alkuperä: CEN
Määräpäivä: 2024-12-21
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This document applies to the design, energy performance of buildings and implementation of ventilation, air conditioning and room conditioning systems for non-residential buildings subject to human occupancy, excluding applications like industrial processes. It focuses on the definitions of the various parameters that are relevant for such systems. The guidance for design given in this document and accompanying CEN/TR 16798-4 are mainly applicable to mechanical supply and/or exhaust ventilation systems. Natural ventilation systems or natural parts of hybrid ventilation systems are not covered by this document. Applications for residential ventilation are not covered in this document. Performance of ventilation systems in residential buildings is covered in EN 15665 and CEN/TR 14788. The classification uses different categories. For some values, examples are given and, for requirements, typical ranges with default values are presented. The default values are given in Annex B and a template for national specification is given in Annex A. It is important that the classification is always appropriate to the type of building and its intended use, and that the basis of the classification is explained if the examples given in this document are not used. NOTE 1 Different standards can express the categories for the same parameters in a different way, and also the category symbols can be different. Table 1 shows the relative position of this document within the set of EPB standards in the context of the modular structure as set out in EN ISO 52000-1. NOTE 2 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 3 The modules represent EPB standards, although one EPB standard might cover more than one module and one module might be covered by more than one EPB standard, for instance a simplified and a detailed method respectively. See also Clause 2 and Table A.1 and Table B.1. Table 1 - Position of this standard (in case M5-1, M5-4), within the modular structure of the set of EPB standards
Komitea: ISO/TC 206 (Fine ceramics)
Alkuperä: ISO
Määräpäivä: 2024-12-23
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This document specifies the conditions for the determination of uniaxial tensile properties of ceramic matrix composite (CMC) tubes with continuous fibre-reinforcement at elevated temperature in air, vacuum and inert gas atmospheres. This document is specific to the tubular geometries because fibre architecture and specimen geometry factors in composite tubes are distinctly different from those in flat specimens. This document provides information on the axial tensile properties and stress-strain response in temperature, such as axial tensile strength, axial tensile strain at failure and elastic constants. The information can be used for material development, control of manufacturing (quality insurance), material comparison, characterization, reliability and design data generation for tubular components. This document addresses, but is not restricted to, various suggested test piece fabrication methods. It applies primarily to ceramic matrix composite tubes with a continuous fibrous-reinforcement: unidirectional (1D, filament winding and tape lay-up), bi-directional (2D, braid and weave) and multi-directional (xD, with x > 2), tested along the tube axis.
Komitea: ISO/TC 298 (Rare earth)
Alkuperä: ISO
Määräpäivä: 2024-12-23
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This International Standard specifies ways in which rare earths can be traced as they move through the supply chain between the separated products to rare earth permanent magnets, or otherwise further processed. This standard complements ISO 23664. The documented traceability information will assist purchasers, suppliers, and users of rare earth permanent magnets to identify parties in the supply chain who have processed a given shipment of rare earth material, the location of that rare earth material as it passes between supply chain nodes. Supply chain actors and end users can use this information to check the validity of any claims made on the rare earth permanent magnets concerning sustainability, environmental impact, or recycled material content.
Komitea: ISO/TC 265 (Carbon dioxide capture, transportation, and geological storage)
Alkuperä: ISO
Määräpäivä: 2024-12-24
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This document specifies methods for measuring and evaluating the performance of CO2 capture connected to a CO2 intensive plant, and which separate CO2 from the CO2 intensive plant exhaust gas in preparation for subsequent transportation and geological storage. In particular, it provides a common methodology to calculate key performance indicators for the CO2 capture plant, requiring the definition of the boundaries of a typical system and the measurements of parameters needed to determine the KPIs. This document covers the CO2 capture plant capturing CO2 from CO2 containing exhaust gas” connected to CO2 intensive plants. The connection of a CO2-capture plant to a CO2-intensive plant is anticipated to have negligible impact on the product quality or the quantities produced by the CO2-intensive plant. This is in contrast with the integration of CO2-capture plants with power plants which usually results in a reduction of the power plant output. For the CO2-intensive industry it is important that product quality remains the same after connection of the CO2-capture plant, in order for the industry to continue to meet customer requirements. The CO2 capture technologies covered by this document are able to operate without interfering with the operations of the CO2 intensive plant. Frequently used CO2 capture technologies are chemical absorption (e.g., liquid amine) and solid adsorption (e.g., Pressure Swing Adsorption (PSA), Temperature Swing Adsorption (TSA)). Other CO2 capture concepts are membranes, cryogenic and other capture technologies. The CO2 capture plant can be installed for treatment of the full volume of exhaust gas from the CO2 intensive plant or a fraction of the total (i.e. a slipstream). Captured CO2 is then conditioned, e.g. dried and compressed or liquefied, as determined by the conditions needed for transportation and storage. The transportation can be either through a pipeline or through an intermediate storage facility waiting for shipment; either by tanker car, train, or ship. The KPIs considered in this document are the following: The calculations are based on measurements at the boundary of the CO2 capture plant, particularly of energy and other utilities consumption. The system includes interfaces between the CO2 capture plant and the CO2 intensive plant. This document includes the following items: This document does not provide guidelines for benchmarking, comparing, or assessing KPIs of different technologies or different CO2 capture projects.
Komitea: CEN/TC 148 (Continuous handling equipment and systems - Safety)
Alkuperä: CEN
Määräpäivä: 2024-12-26
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This document specifies the security requirements for the design of checkout furniture in self-service stores, regardless of the size of the store. Safety requirements apply to both the operator and the public. This document applies to all types of checkout furniture equipped with electrically powered conveyor(s). It does not deal with computer equipment related to cash register furniture. This document covers all significant hazardous phenomena, situations or events, with the exception of..., which are relevant to cash registers when used normally and when they are subject to reasonably foreseeable misuse by the manufacturer. (Risks covered: mechanical, electrical (excluding IT, including controls), electromagnetic compatibility (EMC), ergonomics (refer to standard NF X 35-701 which must evolve into a European standard), hygiene (food contact, REACH, materials, cleaning products), recyclability, fire, noise).
Komitea: CEN/TC 98 (Lifting platforms)
Alkuperä: CEN
Määräpäivä: 2024-12-26
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This document specifies safety requirements and measures for all types and sizes of Mobile Elevating Work Platform (MEWP, see 3.1) intended to move persons to working positions where they are carrying out work from the work platform (WP) with the intention that persons are getting on and off the work platform only at access positions at ground level or on the chassis.
Komitea: ISO/TC 82 (Mining)
Alkuperä: ISO
Määräpäivä: 2024-12-30
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This document specifies the commonly used terms in mine extraction.
Komitea: CEN/TC 184 (Advanced technical ceramics)
Alkuperä: CEN
Määräpäivä: 2025-01-02
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This document specifies a method for the determination of interlaminar shear strength at ambient temperature by the compression of a double-notched test piece and a method for the determination of interlaminar shear strength and modulus at ambient temperature by the Iosipescu test. This document applies to all ceramic matrix composites with a continuous fibre reinforcement, having unidirectional (1D), bidirectional (2D) and multidirectional (xD, with x > 2) fibre architecture, where a major part of reinforcements is a stack of plies. This document is applicable to material development, material comparison, quality assurance, characterization, reliability and design data generation. The simpler compression test method of a double-notched test piece is applicable only when the shear strength has to be measured.
Komitea: ISO/TC 82 (Mining)
Alkuperä: ISO
Määräpäivä: 2025-01-02
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This document specifies the commonly used terms in mine drainage.
Komitea: ISO/TC 1 (Screw threads)
Alkuperä: ISO
Määräpäivä: 2025-01-06
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This document specifies the fundamental deviations and limits of sizes for the pitch and major diameters of the hot-dip galvanized metric external threads (M) conforming to ISO 262 (M6 to M68 with the coarse pitches and M72 to M100 with pitch 6) having basic and design profiles in accordance with ISO 68-1. This document is applicable to the hot-dip galvanized metric external threads undersized to tolerance class 6az before galvanizing to mate with the internal threads made to tolerance position H or G after galvanizing.