Metalliteollisuuden Standardisointiyhdistys

Komitea: ISO/TC 23/SC 19 (Agricultural electronics)
Alkuperä: ISO
Määräpäivä: 2022-11-15
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ISO 23316-1 describes the general purpose and structure of standards in the ISO 23316 series, including common elements and definitions shared within all parts of the ISO 23316 series. The purpose of the ISO 23316 series is to provide design and application standards covering implementation of electrical high power interface with a nominal voltage of 700VDC/480VAC for agricultural and forestry machinery. In order to state compliance to ISO 23316 series all applicable requirements from ISO 23316 Parts 1-7 shall be met. It is permitted for partial systems or components to be compliant to the ISO 23316 series by applying all applicable requirements e.g. for the plug, receptacle or inverters, on a tractor or implement. Note to entry: e.g. if a DC-mode only HPI is provided it is not necessary to comply with part 4 describing AC-mode, as it is not applicable. If an AC-mode only HPI is provided it is not necessary to comply with 33part 5 describing DC-mode, as it is not applicable. The ISO 23316 series specifies physical and logical interface requirements that provide interoperability and cross compatibility for systems and equipment operating at nominal voltages of 700VDC/480VAC. The following are not within the scope of ISO 23316: ISO 23316 Part 7 provides help to the manufacturers of tractors and implements how to integrate and use the HPI.
Komitea: ISO/TC 96/SC 5 (Use, operation and maintenance)
Alkuperä: ISO
Määräpäivä: 2022-11-15
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This document specifies the minimum training to be given to trainee crane slingers and crane signallers to develop the basic slinging skills and to impart the requisite knowledge for competency required for slingers and signallers as defined in ISO 15513.
Komitea: ISO/TC 159/SC 5 (Ergonomics of the physical environment)
Alkuperä: ISO
Määräpäivä: 2022-11-15
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This International Standard adopts a band approach where actions, particularly control measures and medical supervision, are specified as a function of the class of severity of the potential effects. It provides instructions for appropriate management practices for hot workplaces and describes: The procedure described in this document aims to anticipate the problems related to work in warm to hot environments by classifying the different work situations according to their potential health effects, informing the persons concerned - workers and management - of the seriousness of these effects, planning appropriate measures to be implemented to prevent these effects, and providing medical surveillance of exposed persons. This International Standard supports good occupational safety and health practices and is applicable to both indoor and outdoor work situations.
Komitea: ISO/TC 43/SC 2 (Building acoustics)
Alkuperä: ISO
Määräpäivä: 2022-11-17
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This test method covers the use of an impedance tube, two microphone locations and a frequency analysis system for the determination of the sound absorption coefficient of sound absorbing materials for normal sound incidence. It can also be applied for the determination of the acoustical surface impedance or surface admittance of sound absorbing materials. As an extension, it can also be used to assess intrinsic properties of homogeneous acoustical materials such as their characteristic impedance, characteristic wavenumber, dynamic mass density and dynamic bulk modulus. The test method is similar to the test method specified in ISO 10534-1[1] in that it uses an impedance tube with a sound source connected to one end and the test sample mounted in the tube at the other end. However, the measurement technique is different. In this test method, plane waves are generated in a tube by a noise source, and the decomposition of the interference field is achieved by the measurement of acoustic pressures at two fixed locations using wall-mounted microphones or an in-tube traversing microphone, and subsequent calculation of the complex acoustic transfer function and quantities reported in the previous paragraph. The test method is intended to provide an alternative, and generally much faster, measurement technique than that of ISO 10534-1[1]. Normal incidence absorption coefficients coming from impedance tube measurements are not comparable with random incidence absorption coefficients measured in reverberation rooms according to ISO 354.[2] The reverberation room method will (under ideal conditions) determine the sound absorption coefficient for diffuse sound incidence. However, the reverberation room method requires test specimens which are rather large. The impedance tube method is limited to studies at normal and plane incidence and requires samples of the test object which are of the same size as the cross-section of the impedance tube. For materials that are locally reacting only, diffuse incidence sound absorption coefficients can be estimated from measurement results obtained by the impedance tube method (see Annex E). Through the whole document, a e +j?t time convention is used.
Komitea: ISO/TC 23/SC 19 (Agricultural electronics)
Alkuperä: ISO
Määräpäivä: 2022-11-18
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This part of ISO 23316 specifies the communication interface, so that the transmitted parameters, signals and objects between a Supply System (SS), with Power Converter / Switch (PC/S) and High Power Interface – Master Control (HPI-MC) including the Tractor Implement Management (TIM) server, and a Consumer System (CS), with Application (APP) and High Power Interface – Control (HPI-C) including the TIM client and the task controller, can be used is in the agricultural industry. The mentioned signals are used during identification, initialization, operation, and shutdown modes of operation. The document is intended to be used in conjunction with ISO 11783 and the other parts of ISO 23316. Out of scope of this part are the definitions of Suspect Parameter Numbers (SPNs) for the signals, within the Parameter Group Numbers (PGNs) for messages and the message setup. These definitions will be defined in ISO 11783. The following are not within the scope of ISO 23316:
Komitea: ISO/TC 85/SC 2 (Radiological protection)
Alkuperä: ISO
Määräpäivä: 2022-11-18
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This document specifies methods and means of monitoring for inadvertent movement and illicit trafficking of radioactive material. It provides guidelines on the use of both stationary and portable (e.g., hand-held) instruments to monitor for radiation signatures from radioactive material. Emphasis is placed on the operational aspects, i.e., requirements derived for monitoring of traffic and commodities mainly at border-crossing facilities. Although the term border is used repeatedly in this document, it is meant to apply not only to international land borders but also maritime ports, airports, and similar locations where goods or individuals are being checked. This document does not specifically address the issue of detection of radioactive materials at recycling facilities, although it is recognized that transboundary movement of metals for recycling occurs, and that monitoring of scrap metals might be done at the borders of a state. This document is applicable to regulatory bodies and other competent authorities seeking guidance on implementation of action plans to combat illicit trafficking; law enforcement agencies (e.g., border guards) to obtain guidelines on recommended monitoring procedures; and to equipment manufacturers in order to understand minimum requirements derived from operational necessities according to this document.
Komitea: ISO/TC 23/SC 19 (Agricultural electronics)
Alkuperä: ISO
Määräpäivä: 2022-11-21
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ISO 23316-1 describes the general purpose and structure of standards in the ISO 23316 series, including common elements and definitions shared within all parts of the ISO 23316 series. The purpose of the ISO 23316 series is to provide design and application standards covering implementation of electrical high power interface with a nominal voltage of 700VDC/480VAC for agricultural and forestry machinery. The ISO 23316 series specifies physical and logical interface requirements that provide interoperability and cross compatibility for systems and equipment operating at nominal voltages of 700VDC/480VAC. The following are not within the scope of ISO 23316: ISO 23316-5 specifies measures applicable to the class B2 voltage DC bus of a supply system which is intended to power detachable electrical CS(s).
Komitea: ISO/TC 20/SC 14 (Space systems and operations)
Alkuperä: ISO
Määräpäivä: 2022-11-22
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This document describes a process for the estimation of orbit lifetime for satellites, launch vehicles, upper stages and associated debris in LEO-crossing orbits. Not that this document only deals with orbit lifetime issues (orbit decay out of orbits crossing the LEO protected region); for other important requirements related to how long a space object will, or will not, cross or occupy a protected region, the user is directed to ISO 24113 and its derivative ISO 23312. The document also clarifies the following:
Komitea: ISO/TC 153 (Valves)
Alkuperä: ISO
Määräpäivä: 2022-11-23
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Komitea: ISO/TC 153 (Valves)
Alkuperä: ISO
Määräpäivä: 2022-11-23
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Komitea: ISO/TC 298 (Rare earth)
Alkuperä: ISO
Määräpäivä: 2022-11-25
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This document specifies a titration method for the determination of rare earth contents in 15 kinds of individual rare earth metal (lanthanum, cerium, praseodymium, neodymium, samarium, europium, gadolinium, terbium, dysprosium, holmium, erbium, thulium, ytterbium, lutetium and yttrium) and their oxides. It is applicable to the 15 individual rare earth metals with rare earth content (defined in 3.1) between 98,0 % and 99,5 % in mass fraction. It is also applicable to the 15 individual rare earth oxides with rare earth oxide content between 95,0 % and 99,5 % in mass fraction. It is not applicable to those individual rare earth metals and their oxides in following cases: