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This document specifies requirements for soft type denture lining materials suitable for short-term use, including functional impression taking using existing removable prosthesis, and the test methods to determine compliance with these requirements. This document also specifies requirements for packaging, product marking, and manufacturer instructions for use. This document is not applicable to hard type denture lining materials or soft type denture lining materials for long-term use.

 

This document specifies requirements for soft type denture lining materials suitable for long-term use and the test methods to determine compliance with these requirements. This document also specifies requirements for packaging, product marking, and instructions for use provided by the manufacturer. These materials may also be used for maxillofacial prostheses. This document is not applicable to hard type denture lining materials or soft type denture lining materials for short-term use.

 

This document describes various corrosion under insulation (CUI) environments in refineries and other related industries and environments and establishes CUI environmental categories including operating temperature ranges from -45 °C to 204 °C for topside and aboveground service only. This document specifies both established and other test methods for the assessment of coatings used for prevention of CUI for each given environment. This document also provides acceptance criteria for each CUI environment. NOTE The test results and acceptance criteria can be considered an aid in the selection of suitable coating systems. For service or peak temperatures over 204 °C testing acceptance criteria can be agreed between interested parties. Additional or other test and acceptance measures are possible but require particular agreement between the interested parties. This document covers spray-applied coatings applied on new carbon steel for use in CUI service. The coatings can be used for new built structures and for existing structures where maintenance of the coating is needed. This document does not cover testing of sacrificial coatings, such as inorganic zinc, as these coatings can be consumed quickly in wet environments. Developing accelerated corrosion testing for what can be continuous wet service with sacrificial coatings is beyond the scope of this document. “Non-through porosity” thermal spray aluminium coatings with greater than 250 µm dry film thickness can be tested and qualified in accordance with this document. This document does not cover tape and sheet applied products for use in preventing CUI. This document does not deal with other aspects of coating degradation, such as those caused by abrasion, erosion, ultraviolet degradation or other methods that can exist given specific environment and construction methods.

 

This document specifies quality-related aspects of terminology database maintenance. It provides a list of criteria to describe, compare and evaluate the design of termbases, the usability of terminology management software and the content of terminological data collections, with emphasis on data quality evaluation (completeness, consistency, reliability, relevance, accuracy, correctness, etc.). This document provides guidance for terminology managers responsible for the maintenance of termbases, as well as for external experts that are assigned to evaluate the data quality of terminology resources and the usability of termbase applications. It outlines principles for assuring data quality and evaluating terminological data collections for purposes of continuous improvement and is intended to document all features of a termbase in order to evaluate the quality. It is outside the scope of this document to discuss the detailed use of corpora and term extraction tools.

 

This document describes a method for analysing imaging systems quality in the area of cultural heritage imaging. The method described analyses multiple imaging systems quality characteristics from a single image of a specified test target. The specification states which characteristics are measured, how they are measured, and how the results of the analysis need to be presented. This specification applies to scanners and digital cameras used for digitization of cultural heritage material. NOTE This document addresses imaging of reflective originals, a future part two will address imaging of transparent originals.

 

This Technical Specification defines the structure of the semantic network by describing the semantic types and semantic relations of TCM language system. This Technical Specification is intended to: a) support establishment of Unified Semantic Modelling TCM Language System; b) support develop of standardized TCM concepts and relationships of concepts; c) provide a conceptual framework for the concept representation of TCM Language; d) support improvement in the processing of natural language by computer systems. This Technical Specification has been developed for the first time. The initial content described below is intended to be used as a starting point for the application of the content in the information system.

 

This document defines the core set of TCM literature metadata, describes the principles and methods of TCM metadata, and specifies the formal description of TCM metadata. It applies to the storage, processing, recording, maintenance and exchange of TCM literature. It covers areas of identification, content, distribution, constraint, quality, maintenance, and relationship of traditional Chinese medicine literature.

 

This Recommendation | International Standard specifies an interoperable format for efficient compression, transmission, and storage of waveform signals, including biomedical waveform signals such as electrocardiography (ECG), electroencephalography (EEG), electromyography (EMG), and photoplethysmogram (PPG) data, as well as other types of general waveform data. It supports various bit depths, a broad range of sampling rates, and large numbers of channels, as required by a range of biomedical and general signal processing applications. The Specification provides for lossy, near-lossless, and lossless compression, and includes features such as optimized data blocking, indexing for rapid access, independent channel decoding, and metadata support including metadata enabling support of efficient artificial intelligence-based workflows.

 

This Specification specifies the syntax and an accompanying decoding process that is capable to efficiently represent event sequences in the context of event-based vision applications, relevant in the field of computer vision and image processing. Visual event sequences are generated by event-based (EB) vision sensors. Unlike conventional image sensors, EB vision sensors do not use a common sampling rate?—?known as the frame rate?—?for all pixels, but instead each pixel continuously tracks the amount of incident light and asynchronously samples the signal upon change. This highly efficient way of acquiring sparse data, the high temporal resolution, and the robustness to uncontrolled lighting conditions?—?having high dynamic range?—?are characteristics of the EB sensing process that make EB imaging attractive for numerous applications, like in industrial automation, process monitoring, surveillance, IoT, AR/VR, automotive and mobile environments. This Specification: — specifies decoding processes for converting compressed event sequence data to reconstructed event streams; — specifies the codestream syntax containing the information necessary for interpreting the compressed event sequence data; — provides guidance on encoding processes for converting event streams to compressed event sequence data.

 

This part of ISO 18436 sets out the requirements for qualification and certification of personnel engaged in the oversight, facilitation and management of condition monitoring programmes. Certification to the requirements of this specification will provide evidence and recognition of the qualification and competence of individuals to manage condition monitoring activities within a condition-based maintenance strategy. This standard defines a three-category group of training needs, knowledge, skills, and job tasks a qualified person should possess and be capable of performing. This knowledge and related skills will be assessed by an accredited certification body to assess the individual to ensure the applicant has at least the minimum knowledge and skills at the desired certification category.

 

This document specifies methods for comparing computer simulation results, generated from a vehicle mathematical model, with measured test data obtained according to ISO 13674-1. The purpose of this comparison is to validate the simulation tool's accuracy in predicting vehicle behaviour for this specific test, enabling its application to one and more vehicle configuration. Extending this validation to further vehicle configurations and variants is outside the scope of this document. It is applicable to passenger cars as defined in ISO 3833.

 

ISO/IEC 25063:2014 describes the Common Industry Format (CIF) for context of use descriptions and specifies the contents of both high-level and detailed descriptions of the context of use for an existing, intended, implemented or deployed system. A context-of-use description includes information about the users and other stakeholder groups, the characteristics of each user group, the goals of the users, the tasks of the users, and the environment(s) in which the system is used. The context of use description is applicable to software and hardware systems, products or services (excluding generic products, such as a display screen or keyboard). It is important to gather and analyse information on the current context in order to understand and then describe the context that will apply in the future system. The context of use description provides a collection of data relevant for analysis, specification, design and evaluation of an interactive system from the perspective of the various user groups and other stakeholders.

 

This document specifies dimensions, tolerances and denomination for rigid metallic ductwork used for ventilation air conditioning of buildings including test methods and performance characteristics regarding strength and leakage for ductwork, ducts and fittings in laboratory conditions. The test methods, shapes, designs and performance characteristics are applicable for ventilation ducts with circular and rectangular cross sections. The leakage test methods are also applicable to other cross sections. This document does not include ductwork made from insulation duct board, which is covered in EN 13403 [6], non-metallic ductwork, covered in EN 17192 [7] and all components that have more functions than the transport of air for example fire dampers, filter units, air terminal devices handled in EN 1751 [8] and EN 15727 [9]. This document does not include requirements for the overall system design for the air tightness which is covered in EN 16798-3 [10]. On-site tests are given in EN 12599 [11].

 

Specifies the requirements and the relevant tests for sterilizers intended to be used for the terminal sterilization of health care products (medical devices or medicinal products) presented as aqueous liquid in sealed containers. The container can be rigid, semi rigid or flexible. The sterilizing agent, moist heat, is created internally from the product, heating being achieved by use of saturated steam, mixtures of steam and a pressure ballasting non-condensing gas such as air or super-heated water in the sterilizer chamber. The sterilizers can be used in both a health care and industrial setting. This standard does not apply to sterilizers using saturated steam for the sterilization of the surfaces of medical devices or sterilizers used in laboratories. NOTE 1 Sterilizers using saturated steam for sterilizing the surfaces of medical devices are covered by EN 285 and EN 13060. Laboratory sterilizers are covered by some national standards. NOTE 2 Sterilizers conforming to NWIP ISO XXXXX can also be used for the sterilization of other aqueous liquid in sealed containers such as veterinary products or some foodstuffs. Note 3 Sterilizers conforming to NWIP ISO XXXXX can also be used for the sterilization of a contained product enclosed within a sterile barrier system conforming to the EN ISO 11607 series of standards.

 

ISO 17254:2016 applies to coiled springs for use in orthodontic appliances. It gives details of methods to compare the physical and mechanical properties of coiled springs, the test methods by which they can be determined, as well as packaging and labelling requirements.

 

This document is applicable to coil springs for use in orthodontic appliances. This document is not applicable to the devices that are composed by two or more coil springs. This document gives details of methods to compare the physical and mechanical properties of coil springs, the test methods by which they can be determined, as well as packaging and labelling requirements.

 

This document specifies ultraviolet fluorescence method for the determination of trace sulfur in light olefins. This document is applicable to determination of sulfur in ethylene, propylene, butadiene and other C4 olefins. The detection range for sulfur is from 0,2 mg/kg to 100 mg/kg

 

This document specifies the gas chromatographic (GC) method for the determination of traces of carbon monoxide and carbon dioxide in ethylene and propylene for industrial use. The method is applicable to ethylene and propylene having carbon monoxide and carbon dioxide concentrations greater than 0,5 mL/m3.

 

This document specifies a gas chromatographic method for the determination of trace amounts of oxygenated compounds in ethylene and propylene (propene) for industrial use. The method is applicable to ethylene and propylene having methanol, dimethyl ether, methyl tert-butyl ether, acetaldehyde, ethanol, propan-2-ol, acetone, and butanone concentrations greater than 0,5 mL/m3.

 

This document specifies references to the methods for the determination of the following parameters in organic and organo-mineral fertilizers: — Determination of the total organic carbon content; — Determination of the dry matter content. The method for the determination of the total organic carbon is not applicable to products containing urea-formaldehyde polymers or urea as long as there is no method available to assess carbon in urea-formaldehyde polymers or urea. The carbon contained in these compounds is not considered organic [1]. The scope of the standards referenced in this document specifies in which cases the method is also applicable to fertilizing product blends.