SIS: Swedish Standards Institute

SIS, the Swedish Standards Institute, is a nonprofit organization that develops and publishes standards on a wide variety of topics. Headquartered in Stockholm, Sweden, SIS is Sweden's national standards organization and its representative in the European CEN and the international ISO. In 2010, SIS involved over 4,800 experts from 1,500 member companies, agencies and organizations, all contributing to the development and assimilation of SIS standards. Cover page in Swedish with English title, and the full text is in English. Standards from SIS are available both individually, directly through the ANSI webstore, and as part of a Standards Subscription. If you or your organization are interested in easy, managed, online access to standards that can be shared, a Standards Subscription may be what you need - please contact us at: [email protected] or 1-212-642-4980 or Request Proposal Price.

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SS-EN 168:2001

Personal eye-protection - Non-optical test methods (Swedish Standard)

This European Standard specifies non-optical test methods for eye-protectors, the requirements for which are contained in other European Standards.Alternative test methods may be used if shown to be equivalent.The optical test methods are given in EN 167.A definition of terms is given in EN 165.

SIS-CEN/TR 17223:2018

Guidance on the relationship between EN ISO 13485: 2016 (Medical devices - Quality management systems - Requirements for regulatory purposes) and European Medical Devices Regulation and In Vitro Diagnostic Medical Devices Regulation (Swedish Standard)

This Technical Report provides guidance on the relationship between EN ISO 13485:2016, Medical devices – Quality management systems – Requirements for regulatory purposes and the requirements in EU Regulation 2017/745 on Medical Devices and EU Regulation 2017/746 on in vitro Diagnostic Medical Devices.

SIS-ISO/TS 15066:2016

Robots and robotic devices - Collaborative robots (ISO/TS 15066:2016, IDT) (Swedish Standard)

This Technical Specification specifies safety requirements for collaborative industrial robot systems and the work environment, and supplements the requirements and guidance on collaborative industrial robot operation given in ISO 10218-1 and ISO 10218-2.This Technical Specification applies to industrial robot systems as described in ISO 10218-1 and ISO 10218-2. It does not apply to non-industrial robots, although the safety principles presented can be useful to other areas of robotics.NOTE This Technical Specification does not apply to collaborative applications designed prior to its publication.

SS-EN 14683:2019+AC:2019

Medical face masks - Requirements and test methods (Swedish Standard)

This document specifies construction, design, performance requirements and test methods for medical face masks intended to limit the transmission of infective agents from staff to patients during surgical procedures and other medical settings with similar requirements. A medical face mask with an appropriate microbial barrier can also be effective in reducing the emission of infective agents from the nose and mouth of an asymptomatic carrier or a patient with clinical symptoms. This European Standard is not applicable to masks intended exclusively for the personal protection of staff. NOTE 1 Standards for masks for use as respiratory personal protective equipment are available. NOTE 2 Annex A provides information for the users of medical face masks.

SS-ISO 10013:2021

Quality management systems - Guidance for documented information (ISO 10013:2021, IDT) (Swedish Standard)

This document gives guidance for the development and maintenance of the documented information necessary to support an effective quality management system, tailored to the specific needs of the organization. This document can also be used to support other management systems, e.g. environmental or occupational health and safety management systems.

SIS-ISO/TS 13725:2021

Hydraulic fluid power — Method for evaluating the buckling load of a hydraulic cylinder (ISO/TS 13725:2021, IDT) (Swedish Standard)

This document specifies a method for the evaluation of the buckling load which: a) takes into account a geometric model of the hydraulic cylinder, meaning it does not treat the hydraulic cylinder as an equivalent column, b) can be used for all types of cylinder mounting and rod end connection specified in Table 2, c) includes a factor of safety, k, to be set by the person performing the calculations and reported with the results of the calculations, d) takes into account possible off-axis loading, e) takes into account the weight of the hydraulic cylinder, meaning it does not neglect all transverse loads applied on the hydraulic cylinder, f) can be implemented as a simple computer program, and g) considers the cylinder fully extended. The method specified is based on the elastic buckling theory and is applicable to single and double acting cylinders that conform to ISO 6020 (all parts), ISO 6022 and ISO 10762. If necessary, finite element analyses can be used to verify as well as to determine the buckling load. The method is not developed for thin-walled cylinders, double-rods or plunger cylinders. The method is not developed for internal (rod) buckling. The friction of spherical bearings is not taken into account. NOTE This method is based mainly on original work by Fred Hoblit[2]. This method has been established in reference to the standard NFPA/T3.6.37[1].

SIS-ISO/TS 18101-1:2019

Oil and Gas asset management and operations and maintenance interoperability (OGI) - Part 1: Overview and fundamental principles (Swedish Standard)

This document provides requirements, specifications and guidance for an architecture of a supplierneutral industrial digital ecosystem. It includes a standardized connectivity and services architecture, and a standardized use case architecture with methods to specify atomically re-usable scenarios and events, which can be used to specify the characteristics of standardized industry use cases. NOTE 1 Examples of standard industry use cases included in the secondary business process are included in Annex A along with standardized use case architecture. This document gives: — guidance for an architecture applicable to the oil and gas, petrochemical, power generation, public utilities and other asset-intensive industries; — requirements for interoperability among systems of systems, systems (including hardware and software) and components included in the secondary business process of a plant, platform or facility at any given time; — guidance on how these interoperability requirements are to be achieved and sustained in support of operations in the same plant, platform or facility; — specifications enabling the specialization of a digital ecosystem concept for the requirements of the secondary business process in included industries; — guidance to industry participants, including owner/operators and their product and services suppliers, to support their secondary business process requirements using products, which interoperate based on the specifications included in this document. NOTE 2 This document is focused on interoperability requirements for systems which play roles in the secondary business process, including those in domains identified in Figure 7.

SS 212540:2014

Product specification for SS-EN 10080:2005 - Steel for the reinforcement of concrete - Weldable reinforcing steel -Technical delivery conditions for bars, coils, welded fabric and lattice girders (Swedish Standard)

Denna standard preciserar kraven i SS-EN 10080:2005 och ska användas tillsammans med SS EN 10080:2005. Avsnittens nummer överensstämmer med avsnittsnumreringen i SS EN 10080:2005. När inga val eller preciseringar görs för ett avsnitt i SS-EN 10080:2005 nämns inte avsnittet i SS 212540 och avsnittets nummer återfinns inte avsnittsnumreringen. ANM. Tabellerna i denna standard är numrerade S1, S2 osv. för att särskilja dem från tabellerna i SS-EN 10080. Bilaga C (informativ) ger en sammanfattning av specifikationerna enligt denna standard för fyra tekniska klasser med olika duktilitet och med sträckgränsen 500 MPa.