Metalliteollisuuden Standardisointiyhdistys

 

This document specifies the classification for commercial beverage coolers and their requirements and test methods. This document is applicable to integral refrigeration systems. This document is not applicable to remote and secondary system cabinets.

 

This document specifies the classification for commercial beverage coolers and their requirements and test methods. This document is applicable to integral refrigeration systems. This document is not applicable to remote and secondary system cabinets.

 

This document specifies the classification for horizontal closed ice-cream freezer with access of the product from the top via transparent or solid lid(s) and specifies their requirements and test methods. The ice-cream freezers defined in this document work with static air cooling, with a skin evaporator (no evaporator fan and no fan in the refrigerated space) and are used specifically for the storage and display of pre-packed ice-cream. This document is only applicable to integral type refrigeration systems. It is not applicable to remote and secondary system type cabinets. Ice-cream freezers defined in this document are intended to have a net volume =600 l. For transparent lid ice-cream freezers only, they are intended to have a net volume/TDA = 0,35 m.

 

This document specifies a method for the measurement of effective focal spot dimensions above 0,2 µm of X-ray systems by means of the edge method applied to digital images taken from hole type or disk type gauges if no phase contrast is observed. The imaging quality and the resolution of X-ray images depend highly on the characteristics of the effective focal spot, in particular the size and the two-dimensional intensity distribution as seen from the detector plane. This document provides instructions for determining the effective size (dimensions) of standard, mini and micro focal spots of industrial X-ray tubes for users in applications where the pin hole method of ISO 32543-1 is not practicable. This determination is based on the measurement of a profile of an image of a hole or disk type gauge. The method as described in this document can be used for long term monitoring of focal spot sizes without a pin hole camera. The accuracy of this method is lower than the one of ISO 32543-1, ISO/DIS 32543-3 and the future standards in preparation, for measurements of the effective focal spot size, using ASTM hole plate IQIs (as described in ASTM E 1025, E 1742), due to its manufacturer tolerance of ±10 % of the hole diameter. It can be used by manufacturers if special hole gauges, manufactured with lower tolerance, as described in 5.2.1 are applied (see Figure 1).

 

This document gives information and guidance on the evaluation and assessment of hand-transmitted shock. For the purposes of this document, hand-transmitted shock is any impactive or impulsive vibration that the machine or tool produces as a sequence of single events (isolated shocks) linked by periods of no, or lower vibration. This document defines parameters for the evaluation of machinery emissions of hand-transmitted shocks in the frequency range covered by ISO 5349-1 (nominally 6,3 Hz to 1 250 Hz).

 

This European standard specifies a method for the measurement of effective focal spot dimensions above 0,1 µm of X-ray systems by means of the edge method applied to digital images taken from hole type or disk type gauges. The imaging quality and the resolution of X-ray images depend highly on the characteristics of the effective focal spot, in particular the size and the two-dimensional intensity distribution as seen from the detector plane. This document provides instructions for determining the effective size (dimensions) of standard, mini and micro focal spots of industrial X-ray tubes for users in applications where the pin hole method of EN12543-2 is not practicable. This determination is based on the measurement of a profile of an image of a hole or disk type gauge. The method as described in this document can be used for long term monitoring of focal spot sizes without a pin hole camera. The accuracy of this method is lower than the one of ISO 32543-1 (EN 12543-2), ISO/NP 32543-3 (EN 12543-5) and ISO/NP 32543-4 (future EN 12543-6), using ASTM hole plate IQIs (ASTM E 1025, E 1742), due to its manufacturer tolerance of ?10%.

 

ISO 12100:2010 specifies basic terminology, principles and a methodology for achieving safety in the design of machinery. It specifies principles of risk assessment and risk reduction to help designers in achieving this objective. These principles are based on knowledge and experience of the design, use, incidents, accidents and risks associated with machinery. Procedures are described for identifying hazards and estimating and evaluating risks during relevant phases of the machine life cycle, and for the elimination of hazards or sufficient risk reduction. Guidance is given on the documentation and verification of the risk assessment and risk reduction process. ISO 12100:2010 is also intended to be used as a basis for the preparation of type-B or type-C safety standards. It does not deal with risk and/or damage to domestic animals, property or the environment.

 

This document specifies a uniform system for grouping materials for welding purposes. It can also be applied for other purposes, such as heat treatment, forming and non-destructive testing. It covers grouping systems for the following standardized materials:

 

This document specifies a uniform system for grouping materials for welding purposes. It can also be applied for other purposes, such as heat treatment, forming and non-destructive testing.

 

This document gives information and guidance on the evaluation and assessment of hand-transmitted shock. For the purposes of this document, isolated shock is any impactive or impulsive vibration that the machine or tool user experiences as a sequence of individual events (single shocks) linked by periods of no, or low vibration. This document provides guidance on the identification, measurement, evaluation and possible health effects of hand-transmitted shock vibrations containing vibration energy up to the frequency range covered by ISO 5349-1 (approximately 6,3 Hz to 1 250 Hz). Note: It is recognised that shock vibration often includes substantial levels of high-frequency vibration energy. The measured peak values of HTS are likely to be higher if the upper frequency limit is increased. High-frequency shocks, composed of vibrations at frequencies greater than 1 250 Hz, are dealt with in Draft ISO/DTS 5349-4.

 

ISO 8528-13:2016 specifies the safety requirements for reciprocating internal combustion (RIC) engine driven generating sets up to 1 000 V consisting of an RIC engine, an alternating current (AC) generator including the additional equipment required for operating, e.g. controlgear, switchgear, auxiliary equipment. It is applicable to generating sets for land and marine use (domestic, recreational and industrial application). It is not applicable to generating sets used on board of seagoing vessels and mobile offshore units as well as on aircraft or to propel road vehicles and locomotives. NOTE This part of ISO 8528 does not apply to arc welding equipment (IEC 60974 series). The special requirements needed to cover operation in potentially explosive atmospheres are not covered in this part of ISO 8528. The hazards relevant to RIC engine driven generating sets are identified in Annex A. ISO 8528-13:2016 deals with the special requirements of test and safety design which should be observed in addition to the definitions and requirements in ISO 8528-1, ISO 8528-2, ISO 8528-3, ISO 8528-4, ISO 8528-5 and ISO 8528-6, where applicable. It specifies safety requirements in order to protect the user from danger.

 

This document defines requirements and test methods for free standing and floor fixed steel upright pro-tector and free standing and floor fixed steel frame barriers for pallet racking. Frame barriers and upright protectors, according to this document, are not connected to the rack. Frame barriers and upright protectors connected to the racking are excluded from this document. This document does not apply to: - devices for traffic- or driveways - guide rails and guide-ins; - safety and buffering backstops; - handrails and stair rails; - protection from falls at height; - pick and deposit (P and D) stations; - protection requirements for dynamic storage; including mobiles; - protection requirements for crane racking; - sacrificial legs.

 

ISO 21809-2:2014 specifies the requirements for qualification, application, testing and handling of materials for plant application of single layer fusion-bonded epoxy (FBE) coatings applied externally for the corrosion protection of bare steel pipe for use in pipeline transportation systems for the petroleum and natural gas industries as defined in ISO 13623.

 

This document specifies general requirements for the application of additive manufacturing processes for pressure vessels and parts. Separate Annexes of this document provide detailed requirements for specific additive manufacturing processes and materials. This document is currently limited to metallic material applications. If a pressure part manufactured to this document is integrated into a pressure vessel, all parts of EN 13445 apply for this integration.

 

This document specifies a procedure for obtaining a migration water to determine odour, flavour, colour and turbidity for products made from organic materials intended to come in contact with water for human consumption (drinking water) and used in piping and storage systems. Such products include pipes, tanks, reservoirs, fittings, ancillaries and their coatings both for site applied and factory-made products. This document is applicable to products to be used under various conditions for the transport, storage and distribution of water intended for human consumption and raw water used for the manufacture of water intended for human consumption. This document specifies a test method comprising a set of procedures. The use might be dependent on the relevant national regulations and/or the system or product standards.

 

This document specifies the classification for horizontal closed ice-cream freezer with access of the product from the top via transparent or solid lid(s) and specifies their requirements and test methods. The ice-cream freezers defined in this document are different from supermarket segment freezers, as they work with static air cooling, with a skin evaporator (no evaporator fan) and are used specifically for the storage and display of pre-packed ice-cream. This document is only applicable to integral type refrigeration systems. It is not applicable to remote and secondary system type cabinets. Ice-cream freezers defined in this document are intended to have a net volume =600 l. For transparent lid ice-cream freezers only, they are intended to have a net volume/TDA = 0,35 m.

 

This document specifies basic terminology, principles and a methodology for achieving safety in the design of machinery. It specifies principles of risk assessment and risk reduction to help designers in achieving this objective. These principles are based on knowledge and experience of the design, use, incidents, accidents and risks associated with machinery. Procedures are described for identifying hazards and estimating and evaluating risks during relevant phases of the machine life cycle, and for the elimination of hazards or the provision of adequate risk reduction. Guidance is given on the documentation and verification of the risk assessment and risk reduction process. This document covers principal implications on machinery safety in case of implementation of artificial intelligence/machine learning, and vulnerability against cybersecurity attacks / corruption regarding their impact on safety. It specifies generic measures to address both aspects. Safety of machinery includes hygiene aspects. This document is also intended to be used as a basis for the preparation of type-B or type-C safety standards. It does not cover risk and/or damage to domestic animals, property or the environment.

 

This document specifies the safety requirements for reciprocating internal combustion (RIC) engine driven generating sets consisting of an RIC engine, an alternating current (AC) generator including the additional equipment required for operating, e.g. controlgear, switchgear, auxiliary equipment. It is applicable to generating sets for land and marine use (domestic, recreational and industrial application). It is not applicable to generating sets used on board of seagoing vessels and mobile offshore units as well as on aircraft or to propel road vehicles and locomotives. The special requirements needed to cover operation in potentially explosive atmospheres are not covered in this document. The hazards relevant to RIC engine driven generating sets are identified in Annex A. This document deals with the special requirements of test and safety design which is observed in addition to the definitions and requirements in ISO 8528-1, ISO 8528-2, ISO 8528-3, ISO 8528-4, ISO 8528-5, ISO 8528-6 and ISO 8528-10, where applicable. It specifies safety requirements in order to protect the user from danger.

 

This document defines test methods for performance testing of individual filter elements and of the complete filtration system.1 1 The filters will be loaded with ultra-fine salt particles of a size mostly sub micron during variable humidity to simulate real offshore and coastal conditions hence filters with an initial conditioned efficiency lower than 50 % for the ePM1 particles (filter class T7) are likely to underperform and would not be suited as a single stage filter. This procedure is intended for filter elements and filter systems which operate at flow rated up to 8 000 m3/h per filter element.

 

This document defines the procedures for noise control of mainly open plants and the requirements on equipment suppliers for reporting and testing of noise. It is applicable to the following: Input to purchase specifications is presented in Annex A. A schematic flowchart, reviewing the noise control process, is presented in Annex B and a summary of action items is presented in Annex C. An example of an equipment noise data sheet is presented in Annex E.