Metalliteollisuuden Standardisointiyhdistys

This document specifies the measurement and test methods for general characteristics of cold formed helical extension springs made from round wire, excluding dynamic testing.

This document applies to part-turn actuated valve assemblies comprising valve (e.g. ball valve, butterfly valve, and plug valve), actuator and, when required, an intermediate support supplied as a package. It defines the design considerations necessary for automating valves, the responsibilities for the information required and tasks to be completed, to ensure suitable actuator sizing, selection and assembly on the valve. It applies to pneumatic, hydraulic, electro-hydraulic, and electric actuators. An electric actuator coupled to a gearbox, as defined in ISO 5211, is included in the scope of this document. Lever or manual gearbox operated valves are excluded. Control valves are excluded from this document.

This document specifies general safety requirements for self-loading mobile concrete mixers (here-after referred to as “machines”) as defined in ISO 18650-1, with rigid or articulated wheeled chassis. For the purpose of this document, machines are designed for front or rear loading and are provided with a swinging frame where the rotating drum and the self-loading equipment (lift arms and bucket) are mounted on. Machines are also fitted with accessories such as water dosing means and a weighing system. This document deals with all significant hazards, hazardous situations and events relevant to the machine when used as intended or under conditions of misuse reasonably foreseeable by the manufacturer. This document is not applicable to the following: This document does not address hazards that can occur: This document is not applicable to mixers manufactured before the date of its publication.

ISO 7623:2015 specifies a method for determining the bond strength of metal cords to their surrounding coating, either in the initial state or after thermal treatment.It applies exclusively to metal-carcass conveyor belts.

This document specifies the technical delivery conditions for welded cold sized steel tubes of circular cross section with specified outside diameter D = 193,7 mm and of square and of rectangular cross section for precision applications. This document may also be applied to welded cold sized tube with other cross section shapes. Tubes according to this document are characterized by having precisely defined tolerances on dimensions and a specified maximum surface roughness. Typical fields of application are in the automotive, furniture and general engineering industries.

This International Standard specifies requirements for a quality management system when an organization:a) needs to demonstrate its ability to consistently provide products and services that meet customer and applicable statutory and regulatory requirements, andb) aims to enhance customer satisfaction through the effective application of the system, including processes for improvement of the system and the assurance of conformity to customer and applicable statutory and regulatory requirements.All the requirements of this International Standard are generic and are intended to be applicable to any organization, regardless of its type or size, or the products and services it provides.NOTE 1 In this International Standard, the terms "product" or "service" only apply to products and services intended for, or required by, a customer.NOTE 2 Statutory and regulatory requirements can be expressed as legal requirements.This International Standard applies to organizations supplying ITNS products or services.Application of this standard to organizations performing activities on a licensed nuclear site is subject to prior agreement by the Licensee.Requirements specified in this International Standard are complementary (not alternative) to customer and applicable statutory and regulatory requirements.

This document specifies the requirements for personal contamination monitoring and dose assessment following wounds involving radioactive materials. It includes requirements for the direct monitoring at the wound site, monitoring of uptake of radionuclides into the body and assessment of local and systemic doses following the wound event.It does not address:— details of monitoring and assessment methods for specific radionuclides;— monitoring and dose assessment for materials in contact with intact skin or pre-existing wounds, including hot particles;— therapeutic protocols. However, the responsible entity needs to address the requirements for decontamination and decorporation treatments if appropriate.

This document specifies the minimum requirements for the design of professional programmes to monitor workers exposed to a risk of ingestion to uranium compounds. This document establishes principles for the development of compatible goals and requirements for monitoring programmes and dose assessment for workers occupationally exposed to internal contamination. It establishes procedures and assumptions for risk analysis, monitoring programmes and the standardized interpretation of monitoring data in order to achieve acceptable levels of reliability for uranium and its compounds. It sets limits for the applicability of the procedures in respect to dose levels above which more sophisticated methods need to be applied.This document addresses those circumstances when exposure could be constrained by either radiological or chemical toxicity concerns.This document addresses, for ingestion of uranium and its compounds, the following items:a) purposes of monitoring and monitoring programmes;b) description of the different categories of monitoring programmes;c) suitable methods for monitoring and criteria for their selection;d) information that is collected for the design of a monitoring programme;e) procedures for dose assessment based on reference levels for special monitoring programmes;f) criteria for determining the significance of monitoring results;g) uncertainties arising from dose assessment and interpretation of bioassays data;h) reporting/documentation;i) quality assurance;j) record keeping requirements.It is not applicable to the following items:a) detailed descriptions of measuring methods and techniques for uranium;b) modelling for the improvement of internal dosimetry;c) potential influence of counter-measures (e.g. administration of chelating agents);d) investigation of the causes or implications of an exposure;e) dosimetry for inhalation exposures and for contaminated wounds.

This document specifies the safety requirements for walkways and working places on inland navigation vessels in the areas used for work.Walkways in the passenger area are governed by requirements which are outside the scope of this standard.Requirements related to the marking of safety and health protection are not covered by this standard.

This document defines the minimum requirements for treatment systems, which generate the active substance - "Active chlorine" - from sodium chloride by electrolysis for on-site (in-situ) operation.The in-situ generated active substance (IGAS), in this case active chlorine, may be put into a solution ("off-line") or directly generated in the pipes ("in-line").This document specifies the device construction, and test methods for the equipment used for in-situ generation of active chlorine. It specifies requirements for instructions for installation, operation, maintenance, safety and for documentation to be provided with the product.The in-situ generation of active substances and the placing of their precursors on the EU market are subject to the specifications of the Biocidal Products Regulation (EU) 528/2012 ["Biocidal products"]). Active substances, generated by devices, which are claiming compliance with this document, shall comply with the BPR for both the registered active chlorine, quality standards and the precursor in accordance with appropriate application and "Product Type" as listed in the BPR.This standard does not identify applications for in situ devices for generation of active chlorine. The range of applications for in-situ generation of chlorine is diverse. It is the responsibility of the economic operator/product supplier, claiming compliance with this standard, to identify the appropriate system type and operating conditions for the specific application and to:- specify the quality of the biocide appropriate to the application. This may be defined in national or international standards;- specify the appropriate product type (see Clause 7) and operating conditions (concentration, dosage rate and quality of the active chlorine);- specify any other regulatory requirements relevant to the specific application;- specify the appropriate precursor sodium chloride (natural or artificial brine), for the application;- and to label the product accordingly.

This document specifies requirements for weldable structural steels made of hot finished seamless and high frequency welded hollow sections to be used in the fabrication of fixed offshore structures.The following thickness limitations are given in this standard:- for seamless hollow sections up to and including 65 mm;- for HFW hollow sections up to and including 25,4 mm.Greater thicknesses can be agreed, provided the technical requirements of this European Standard are maintained.This European Standard is applicable to steels for offshore structures, designed to operate in the offshore sector but not to steels supplied for the fabrication of subsea pipelines, risers, process equipment, process piping and other utilities. It is primarily applicable to the North Sea Sector, but may also be applicable in other areas provided that due consideration is given to local conditions e.g. design temperature.NOTE This document has an informative Annex E on the prequalification of steels for fixed offshore structures in arctic areas.Minimum yield strengths up to 770 MPa are specified together with impact properties at temperatures down to -40 °C.

This document specifies technical delivery conditions for flat products of high yield strength alloy special steels. The grades and qualities are given in Tables 1 to 3 (chemical composition) and Tables 4 to 6 (mechanical properties) and are supplied in the quenched and tempered condition.The steels specified in this document are applicable to hot-rolled flat products with a minimum nominal thickness of 3 mm and a maximum nominal thickness of 200 mm for grades S460, S500, S550, S620 and S690, a maximum nominal thickness of 125 mm for grades S890 and S960, in steels which, after quenching and tempering, have a specified minimum yield strength of 460 MPa to 960 MPa.

This document specifies technical delivery conditions for flat and long products of hot rolled weldable fine grain structural steels in the thermomechanical rolled condition in the grades and qualities given in Tables 1 to 3 (chemical composition) and Tables 4 to 6 (mechanical properties) in thickness = 150 mm.The steels specified in this document are especially intended for use in heavily loaded parts of welded structures such as, bridges, flood gates, storage tanks, water supply tanks, etc., for service at ambient and low temperatures.

This document, used together with ISO 4254-1, specifies the safety requirements and their verification for the design and construction of silage block cutters and feed mixing machines (for example feed mixers, bale processors). Feed mixing machines can be stationary, mounted, semi-mounted, interchangeable towed or self-propelled machines that have a combination of two or more of the following functions: loading, mixing, chopping and distributing materials used for animal feed or bedding. In addition, it specifies the type of information on safe working practices to be provided by the manufacturer. This document does not apply to: This document deals with the significant hazards, hazardous situations and events relevant to machines for loading, mixing and/or chopping and distributing silage and/or other feedstuffs, when they are used as intended and under the conditions foreseen by the manufacturer as listed in Annex A, except for the hazards arising from: It is not applicable to environmental hazards (except noise). It does not deal with stability when travelling. This document is not applicable to machines manufactured before the date of publication of this document. Examples of machines and components covered by this document are shown in Annex B.

This document specifies the essential safety requirements for the design and construction of magnetic clamping systems (MCS) for plastics and rubber machines (injection moulding machines, compression moulding machines etc.) and provides information for their safe use.This standard deals with all significant hazards, hazardous situation or hazardous events that are listed in Annex A, when a MCS is used utilizing magnetic force to affix a mould to the plate of a machine in which is integrated, taking into consideration even conditions of misuse that are reasonably foreseeable by the manufacturer.This standard does not cover hydraulic or pneumatic or mechanical clamping systems.This standard is not applicable to MCS, which are manufactured before the date of its publication.

This part of ISO 22915 specifies an additional test for verifying the stability of a laden truck whose utilization creates the special operating condition whereby the load centre of gravity is substantially offset from the truck's longitudinal centre plane or from the centered position by design. A load is considered to be substantially offset if displaced by more than ISO 22915-20 is applicable to the following types of trucks as defined in ISO 5053-1:

This part of ISO 22915 specifies an additional test for verifying the stability of a laden truck fitted with a powered load-handling device, such as a sideshift, which can displace the centre of gravity laterally to a substantial, predetermined extent from the longitudinal centre plane of the truck or from the centered position. Such devices are used in that mode for depositing and retrieving a load. A displacement is considered to be a substantial displacement if it is more than ISO 22915-10 is applicable to the following types of trucks as defined in ISO 5053-1:

This document, used together with ISO 4254-1, specifies the safety requirements and their verificationfor the design and construction of mounted, semi-mounted, trailed or self-propelled machines that have a combination of two or more of the following functions: loading, mixing, chopping and distributingsilage and/or other feedstuffs or materials used for animal bedding such as straw, to be used by oneoperator only. It includes those fitted with a built-in loading crane. In addition, it specifies the type ofinformation on safe working practices to be provided by the manufacturer.

This European Standard specifies the characteristics and the requirements for sulfamic acids and salts.Similar to antiscalants as phosphonic acids and its salts (EN 15040) and polycarboxylates and its salts (EN 15039), sulfamic acid and its salts can be used alone or in combination with others drinking water substances as antifoulants (antiscalant effect) for membranes for the treatment of water intended for human consumption.Sulfamic acid and salts are used in mixtures with sodium hydroxide and sodium hypochlorite or other drinking water chlorine based oxidizing agents as biofilm remover especially for reverse osmosis (RO) and nanofiltration membranes to prevent biofouling by microbiological contamination. The components will not pass the membrane and are rejected to the wastewater with the concentrate. For the other components EN standards are already exist.

This standard provides requirements and recommendations for managing mining legacies to make the complex understandable, and the seemingly impossible, manageable. It can be used by any public, private or community enterprise, or group, but is deemed particularly relevant to governments and industry managing mining legacies. This standard applies to all mining legacies irrespective of who owns them. This standard encompasses a range of activities that are relevant to planning, implementing and reviewing progress while engaging stakeholders throughout the process. It is applicable to all mining legacies from large complex sites to medium and small mines. It is also applicable to mining legacies in a range of climates, land uses and social contexts. Managing mining legacies poses complex challenges that require high level support and clear responsibilities to ensure acceptable outcomes are delivered. Differing from ISO-21795 that addresses planning for active mine closure and reclamation, this standard specifically addresses mining legacies that are not authorised and cause significant harm.