SCM & Procurement ISO Standards

ISO 16091:2018 Space systems — Integrated logistic support

This document describes the set of management requirements needed to identify and provide logistic support, so the customer can operate and maintain a product in its operational environment for the expected lifetime.

These requirements also aim, throughout the product life cycle, at implementing everything pertinent to the control of risks considered as critical for operational objectives.

This document specifies management, studies, production activities, information management processes and tasks to meet the customer's need for logistic support.

When viewed from the perspective of a specific project context, the requirements defined in this document are tailored to match the genuine requirements of a particular profile and circumstances of a project.

NOTE Tailoring is the process by which individual requirements of specifications, standards and related documents are evaluated, and made applicable to a specific project by selection, and in some exceptional cases, modification of existing or addition of new requirements.

ISO/AWI 23355 Visibility data interchange between logistics information service providers

ISO 23354:2020 Business requirements for end-to-end visibility of logistics flow

This document specifies three business requirements for the visibility of logistics traffic flow based on the use cases and gap analysis in Annex A. It includes

-LISS network architecture requirements

-Visibility data interchange requirements between LISSs, and

-Visibility data interface and process requirements for an LISS network.

These three business requirements are described further in Clause 6, Clause 7 and Clause 8 respectively.

Furthermore, Clause 8 describes the requirement for a guideline for business participants and stakeholders in an LISS network such as logistics information service providers, single window/SSP operators, data providers and logistics data users.

This document does not include standardization at the level of logistics devices (areas of standardisation covered by ISO/TC 104, ISO/TC 204), for ships, navigation and marine technologies (areas of standardisation covered by ISO/TC 8), or related to international data exchange such as standards developed, published and maintained by UN/CEFACT, GS1, WCO which are referenced as appropriate in this document.

ISO 8835-7:2011 Inhalational anaesthesia systems — Part 7: Anaesthetic systems for use in areas with limited logistical supplies of electricity and anaesthetic gases

ISO 8835-7:2011 specifies safety and performance requirements for anaesthetic systems and components that:

Can function in the absence of a supply of compressed medical gases or mains electricity;

Can withstand a challenging environment, including high temperatures, humidity, shocks and vibration, and dust;

Allow local servicing and maintenance;

May be suitable for use with flammable anaesthetic agents.

ISO/IEC TR 24729-3:2009 Information technology — Radio frequency identification for item management — Implementation guidelines — Part 3: Implementation and operation of UHF RFID Interrogator systems in logistics applications

ISO/IEC TR 24729-3:2009 provides reference information and practical knowledge in the selection, installation and application of ISO/IEC 18000-6C RFID Readers. RFID Readers include fixed mounted (such as portal, conveyor, and wrap stations), handheld (tethered and wireless), and mobile mounted (such as those found on forklifts). ISO/IEC TR 24729-3:2009 presents guidelines to improve the performance of RFID data collection systems for more successful applications and to cover the approaches necessary to ensure that the operational requirements of the end user are met. Many of the techniques recommended are the result of practical tests in working environments. However, each application is different and thus the techniques recommended herein might not be applicable in all situations.

ISO 18186:2011 Freight containers — RFID cargo shipment tag system

This International Standard is applicable to freight containers as defined in ISO 668 as well as other associated containers and transport equipment.

This International Standard defines how freight container logistic transparency and efficiency can be improved through use of an RFID cargo shipment tag system and an Internet-based software package. Such an RFID cargo shipment tag system can co-exist with, but is separate from, a container security and identification RFID framework using container "license plate" tags, described in ISO 10374 and ISO/TS 10891, and electronic seals ("e-seals"), described in ISO 18185 (all parts). In all cases, operation of and information from ISO/TS 10891 and ISO 18185 devices is independent from the operation and information of the cargo shipment tag and information from these devices is passed in discrete messages that are not routed via the RFID cargo shipment tag.

ISO/TR 21414:2016 Hydrometry — Groundwater — Surface geophysical surveys for hydrogeological purposes

The application of geophysical methods is an evolving science that can address a variety of objectives in groundwater investigations. However, because the successful application of geophysical methods depends on the available technology, logistics, and expertise of the investigator, there can be no single set of field procedures or approaches prescribed for all cases. ISO/TR 21414:2016 provides guidelines that are useful for conducting geophysical surveys for a variety of objectives (including environmental aspects), within the limits of modern-day instrumentation and interpretive techniques, are provided. The more commonly used field techniques and practices are described, with an emphasis on electrical resistivity, electromagnetic, and seismic refraction techniques as these are widely used in groundwater exploration. Theoretical aspects and details of interpretational procedures are referred to only in a general way. For full details, reference is intended to be made to specialized texts listed in the Bibliography. Operations Management

ISO 22400-1:2014 Automation systems and integration — Key performance indicators (KPIs) for manufacturing operations management — Part 1: Overview, concepts and terminology

ISO 22400 specifies an industry-neutral framework for defining, composing, exchanging, and using key performance indicators (KPIs) for manufacturing operations management (MOM), as defined in IEC 62264‑1 for batch, continuous and discrete industries.

ISO 22400-1:2014:

provides an overview of what a KPI is,

presents concepts of relevance for working with KPIs including criteria for constructing KPIs,

specifies terminology related to KPIs, and

describes how a KPI can be used.

ISO 22400-2:2014 Automation systems and integration — Key performance indicators (KPIs) for manufacturing operations management — Part 2: Definitions and descriptions

ISO 22400 defines key performance indicators (KPIs) used in manufacturing operations management.

ISO 22400-2:2014 specifies a selected number of KPIs in current practice. The KPIs are presented by means of their formula and corresponding elements, their time behaviour, their unit/dimension and other characteristics. ISO 22400-2:2014 also indicates the user group where the KPIs are used, and the production methodology to which they correspond.

With reference to equipment, the KPIs in ISO 22400-2:2014 relate to work units, as specified in IEC 62264.

ISO/TR 22400-10:2018 Automation systems and integration — Key performance indicators (KPIs) for manufacturing operations management — Part 10: Operational sequence description of data acquisition

This document contains descriptions for the practical use for applying formulae as specified in ISO 22400-2 for key performance indicators for production control and monitoring. This document is intended to be applied in conjunction with the content of ISO 22400-2.

IEC 62264-3:2016 Enterprise-control system integration — Part 3: Activity models of manufacturing operations management

IEC 62264-3:2016 defines activity models of manufacturing operations management that enable enterprise system to control system integration. The activities defined in this document are consistent with the object models definitions given in IEC 62264-1. The modelled activities operate between business planning and logistics functions, defined as the Level 4 functions and the process control functions, defined as the Level 2 functions of IEC 62264-1. IEC 62264-3:2016 defines activity models of manufacturing operations management that enable enterprise system to control system integration. The activities defined in this document are consistent with the object models definitions given in IEC 62264-1. The modelled activities operate between business planning and logistics functions, defined as the Level 4 functions and the process control functions, defined as the Level 2 functions of IEC 62264-1. This second edition cancels and replaces the first edition published in 2007. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:

a) 4.1 Manufacturing Operations Management was moved to Part 1 and therefore was removed from Part 3;

b) 4.2 Functional hierarchy was moved to Part 1 and therefore was removed from Part 3;

c) 4.4 Criterion for defining activities below Level 4 was moved to Part 1 and therefore was removed from Part 3;

d) 4.5 Categories of production information was moved to Part 1 and therefore was removed from Part 3;

e) 4.6 Manufacturing operations information was moved to Part 1 and therefore was removed from Part 3;

f) 5.3 Expanded equipment hierarchy model was moved to Part 1 and therefore was removed from Part 3;

g) 5.4 Expanded decision hierarchy model was removed from Part 3. The corresponding section was removed from Part 1 and replaced with a reference to ISO 15704;

h) Annex A (informative) Other enterprise activities affecting manufacturing operations was moved to Part 1 and therefore was removed from Part 3;

i) Annex D (informative) Associated standards was moved to Part 1 and therefore was removed from Part 3;

j) Annex F (informative) Applying the decision hierarchy model to manufacturing operations management was removed from Part 3. The corresponding section was removed from Part 1 and replaced with a reference to ISO 15704;

k) Annex G (informative) Mapping PSLX ontology to manufacturing operations management was removed from Part 3. The committee felt that this section is more appropriate as a PSLX white paper or TR. The names for data were changed to match the Part 4 standard names. These name changes were made in all figures and in the text.

IEC 62264-4:2015 Enterprise-control system integration — Part 4: Objects and attributes for manufacturing operations management integration

IEC 62264-4:2015 defines object models and attributes exchanged between Level 3 manufacturing operations management activities defined in IEC 62264-3.

ISO 18788:2015 Management system for private security operations — Requirements with guidance for use

ISO 18788:2015 provides a framework for establishing, implementing, operating, monitoring, reviewing, maintaining and improving the management of security operations.

It provides the principles and requirements for a security operations management system (SOMS). ISO 18788:2015 provides a business and risk management framework for organizations conducting or contracting security operations and related activities and functions while demonstrating:

-conduct of professional security operations to meet the requirements of clients and other stakeholders;

-accountability to law and respect for human rights;

-consistency with voluntary commitments to which it subscribes.

ISO 18788:2015 is applicable to any organization that needs to:

-establish, implement, maintain and improve an SOMS;

-assess its conformity with its stated security operations management policy;

-demonstrate its ability to consistently provide services that meet client needs and are in conformance with applicable laws and human rights requirements.

ISO/TS 21219-9:2016 Intelligent transport systems — Traffic and travel information (TTI) via transport protocol experts group, generation 2 (TPEG2) — Part 9: Service and network information (TPEG2-SNI)

ISO/TS 21219-9:2016 establishes the method of delivering service and network information within a TPEG service. The TPEG-SNI application is designed to allow the efficient and language independent delivery of information about the availability of the same service on another bearer channel or similar service data from another service provider, directly from service provider to end-users.

NOTE A number of tables of information are described, which provide comprehensive options for describing services, their timing, content, geographical coverage, etc. In all TPEG streams, it is mandatory to deliver to so-called GST. Additionally, it is possible to signal linkage of content between different bearers and services.

ISO/TS 18234-3:2013 Intelligent transport systems — Traffic and travel information via transport protocol experts group, generation 1 (TPEG1) binary data format — Part 3: Service and network information (TPEG1-SNI)

ISO/TS 18234-3:2013 establishes the method of delivering service and network information within a TPEG service. The TPEG-SNI application is designed to allow the efficient and language independent delivery of information about the availability of the same service on another bearer channel or similar service data from another service provider, directly from service provider to end-users.

ISO/TS 18234-8:2012 Intelligent transport systems — Traffic and travel information via transport protocol experts group, generation 1 (TPEG1) binary data format — Part 8: Congestion and Travel Time application (TPEG1-CTT)

ISO/TS 18234-4:2006 Traffic and Travel Information (TTI) — TTI via Transport Protocol Expert Group (TPEG) data-streams — Part 4: Road Traffic Message (RTM) application

ISO TS 18234-4:2006 establishes the method of delivering Road Traffic Messages within a TPEG service. The TPEG-RTM application is designed to allow the efficient and language independent delivery of road information directly from service provider to end-users. The information provided relates to event and some status information on the road network and on associated infrastructure affecting a road journey. For example, limited information about abnormal operation of links in the network may be included, such as ferries, lifting-bridges, etc.

ISO 20078-1:2019 Road vehicles — Extended vehicle (ExVe) web services — Part 1: Content

This document defines the different concepts, entities and roles involved in implementing and delivering ExVe web services. In addition, it also gives an overview of the necessary activities that should be executed by the different roles involved and a logical order for those activities.

This document defines the concept of identifiers (direct and correlated), different Resource categories (e.g. personal, vehicle related, pseudonymized and anonymized Resources) and different approaches on how to bundle sharable Resources (e.g. Resource Group or Container).

ISO/IEC TS 23078-2:2020 Information technology — Specification of DRM technology for digital publications — Part 2: User key-based protection

This document defines a technical solution for encrypting resources in digital publications (especially EPUB) and for securely delivering decryption keys to reading systems, included in licenses tailored to specific users. It also defines a simple passphrase-based authentication method for reading systems to verify the license and access the encrypted resources of such digital publications.

ISO 19711-1:2018 Building construction machinery and equipment — Truck mixers — Part 1: Terminology and commercial specifications

This document defines terms and commercial specifications for truck mixers used for producing concrete or mortar and for delivering concrete, mortar or the materials of the mixture to worksites.

This document is applicable to truck mixers that are either truck mounted, or semi-trailer mounted.

This document does not apply to fixed (stationary) mixers (see ISO 18650-1); turbo mixers (see ISO 18650-1); concrete or mortar mixing plants (see ISO 19720-1); small portable mixers (see ISO 18650-1); purpose-built underground truck mixers; volumetric mixers (mobile concrete or mortar mixing plants).

ISO 780:2015 Packaging — Distribution packaging — Graphical symbols for handling and storage of packages

ISO 780:2015 is applicable to packages containing any kind of goods, but does not include instructions specific to handling of dangerous goods.

ISO/TR 11773:2013 Global distribution of reference materials

ISO/TR 11773:2013 contains an inventory of problems and recommendations related to the transport, import and export of non-nuclear, non-radioactive reference materials, specifically for the packaging, labelling, and documenting of the shipments in order to comply with legal requirements. It does not explain detailed rules such as for labelling according to the Globally Harmonized System (GHS).

ISO 15901-3:2007 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption — Part 3: Analysis of micropores by gas adsorption

ISO 15901-3:2007 describes methods for the evaluation of the volume of micropores (pores of internal width less than 2 nm) and the specific surface area of microporous material by low-temperature adsorption of gases These are comparative, non-destructive tests. The methods use physisorbing gases that can penetrate into the pores under investigation. The method is applicable to isotherms of type I, II, IV or VI of the IUPAC classification (see ISO 15901-2:--, Figure 1, and ISO 9277).

The methods in ISO 15901-3:2007 are not applicable when chemisorption or absorption takes place.

ISO 2416:1992 Passenger cars — Mass distribution

Defines the distribution of the transportable mass and specifies a conventional average mass for passengers and a conventional mass for luggage. The total of the masses thus defined represents nominal design pay mass for a given vehicle. Applies to passenger cars as defined in ISO 3833.

ISO 15901-2:2006 Pore size distribution and porosity of solid materials by mercury porosimetry and gas adsorption — Part 2: Analysis of mesopores and macropores by gas adsorption

ISO 15901-2:2006 describes a method for the evaluation of porosity and pore size distribution by gas adsorption. It is a comparative, rather than an absolute test. The method is limited to the determination of the quantity of a gas adsorbed per unit mass of sample at a controlled, constant temperature.

ISO 15901-2:2006 does not specify the use of a particular adsorptive gas, however nitrogen is the adsorptive gas most commonly used in such methods. Similarly, the temperature of liquid nitrogen is the analysis temperature most commonly used. Use is sometimes made of other adsorptive gases, including argon, carbon dioxide and krypton, and other analysis temperatures, including those of liquid argon and solid carbon dioxide. In the case of nitrogen adsorption at liquid nitrogen temperature, the basis of this method is to measure the quantity of nitrogen adsorbed at 77 K as a function of its relative pressure.

Traditionally, nitrogen adsorption is most appropriate for pores in the approximate range of widths 0,4 nm to 50 nm. Improvements in temperature control and pressure measurement now allow larger pore widths to be evaluated. ISO 15901-2:2006 describes the calculation of mesopore size distribution between 2 nm and 50 nm, and of macropore distribution up to 100 nm.

The method described in ISO 15901-2:2006 is suitable for a wide range of porous materials, even though the pore structure of certain materials is sometimes modified by pretreatment or cooling.

Two groups of procedures are specified to determine the amount of gas adsorbed:

Those which depend on the measurement of the amount of gas removed from the gas phase (i.e. gas volumetric methods), and

Those which involve the measurement of the uptake of the gas by the adsorbent (i.e. direct determination of increase in mass by gravimetric methods).

In practice, static or dynamic techniques can be used to determine the amount of gas adsorbed. To derive pore size distribution from the isotherm, it is necessary to apply one or more mathematical models, which entails simplifying certain basic assumptions.

ISO 4178:1980 Complete, filled transport packages — Distribution trials — Information to be recorded

This is applicable to distribution systems in which the hazards of stacking, vertical impact, horizontal impact, and vibration are encountered or are likely to be encountered. The following information shall be recorded in the order given: description of the trial, results of the trial, package, hazards in trial and general information.

ISO 17830:2016 Solid biofuels — Particle size distribution of disintegrated pellets

ISO 17830:2016 aims to define the requirements and method used to determine particle size distribution of disintegrated pellets. It is applicable for pellets that fully disintegrate in hot water.

ISO 21785:2020 Air cargo unit load devices — Load distribution model

This document defines the industry agreed model for load distribution on air cargo unit load devices (ULD) bases to apply the maximum allowable centre of gravity (C.G.) eccentricity.

Its purpose is to establish a common reference load distribution algorithm for:

comparable and repeatable ULD testing methods, or equivalent numeric simulations;

aircraft structure and cargo systems design assumptions, consistent with existing airframers practices; and

definition of operators unit load devices utilization rules and cargo build-up training programs.

It applies to all types of unit load devices intended for use on board civil transport aircraft and airworthiness approved in accordance with the performance requirements and testing parameters of either ISO 21100 or, as applicable, ISO 8097.

It also applies to non-airworthiness approved (non-certified) containers as defined in ISO 4118, the utilisation of which is controlled by the provisions of the aircraft type's Weight and Balance Manual and other airframe manufacturer's documents.

ISO 18616-2:2016 Transport packaging — Reusable, rigid plastic distribution boxes — Part 2: General specifications for testing

ISO 18616-2:2016 specifies the test methods for handling and managing reusable, rigid plastic distribution boxes. These boxes are based on the modular area 600 mm × 400 mm, 600 mm × 500 mm, 550 mm × 366 mm and subdivisions of them.

ISO 18616-2:2016 is designed for general purpose applications in a returnable transport system. For automotive industry application, ISO 19709‑1, ISO/TS 19709-2 and ISO/TS 19709-3 can be referenced.

ISO 18616-1:2016 Transport packaging — Reusable, rigid plastic distribution boxes — Part 1: General purpose application

rigid parallelepipedic and rectangular boxes (stackable boxes);

foldable boxes;

nestable boxes;

nestable and stackable boxes.

These boxes are based on the modular area 600 mm × 400 mm, 600 mm × 500 mm, 550 mm × 366 mm and subdivisions of them. This document defines the main types of rigid plastic distribution boxes, dimensions, safety, designation, marking and labeling.

ISO 18616-1:2016 is designed for general purpose applications in a returnable transport system. For automotive industry application, ISO 19709‑1, ISO/TS 19709‑2 and ISO/TS 19709-3 can be referenced.

ISO 9707:2008 Information and documentation — Statistics on the production and distribution of books, newspapers, periodicals and electronic publications

ISO 9707:2008 gives guidance on the keeping of national statistics to provide standardized information on various aspects of the production and distribution of printed, electronic and micro-publications (essentially books, newspapers and periodicals). In addition, ISO 9707:2008 provides recommendations on subject classification.

ISO 9707:2008 is not applicable to the following types of publications:

publications issued for advertising purposes, where the literary or scientific text is subsidiary and the publications are distributed free of charge, including trade catalogues, prospectuses and other types of commercial, industrial and tourist advertising, and publications advertising products or services supplied by the publisher, even though they might describe activities or technical progress in some branch of industry or commerce; publications considered to be of a transitory character; typical examples are timetables, price-lists, telephone directories, programmes of entertainments, exhibitions, fairs, company regulations, reports and directives and circulars, calendars, and electronic texts under development; publications in which the text is not the most important part, including printed music documents where the music is more important than the words, and maps and charts (with the exception of atlases), e.g. astronomical charts, hydrographical and geographical maps, wall maps, road maps, geological surveys in map form and topographical plans.

ISO 1998-5:1998 Petroleum industry — Terminology — Part 5: Transport, storage, distribution

ISO/TR 20693:2019 Statistical methods for implementation of Six Sigma — Selected illustrations of distribution identification studies

This document provides guidelines for the identification of distributions related to the implementation of Six Sigma. Examples are given to illustrate the related graphical and numerical procedures.

It only considers one dimensional distribution with one mode. The underlying distribution is either continuous or discrete.

ISO 28219:2017 Packaging — Labelling and direct product marking with linear bar code and two-dimensional symbols

ISO 28219:2017 defines minimum requirements for identifying items, provides guidelines for item marking with machine-readable symbols, covers both labels and direct marking of items, includes testing procedures for label adhesive characteristics and mark durability, provides guidance for the formatting on the label of data presented in linear bar code, two-dimensional symbol or human-readable form, is intended for applications which include, but are not limited to, support of systems that automate the control of items during the processes of:

- production,

- inventory,

- distribution,

- field service,

- point of sale,

- point of care,

- repair,

and is intended to include, but it is not limited to, multiple industries including:

- automotive,

- aerospace,

- chemical,

- consumer items,

- electronics,

- health care,

- marine,

- rail,

- telecommunications.

The location and application method of the marking are not defined (these will be reviewed and agreed upon by suppliers and manufacturers and their trading partners before implementing ISO 28219:2017).

ISO 28219:2017 does not supersede or replace any applicable safety or regulatory marking or labelling requirements. ISO 28219:2017 is meant to satisfy the minimum item marking requirements of numerous applications and industry groups and as such its applicability is to a wide range of industries, each of which may have specific implementation guidelines for it. ISO 28219:2017 is to be applied in addition to any other mandated labelling direct-marking requirements.

The labelling and direct marking requirement of ISO 28219:2017 and other standards can be combined into one label or marking area or appear as separate labels or marking areas.

ISO 28219:2017 uses the terms "part marking" and "item marking" interchangeably. Unless otherwise stated, ISO 28219:2017 will use the term "item marking" to describe both the labelling and direct part marking (DPM) of an item, where DPM includes, but is not limited to, altering (e.g. dot peen, laser etch, chemical etch), as well as additive type processes (e.g. ink jet, vacuum deposition).

The purpose of ISO 28219:2017 is to establish the machine-readable (linear, two-dimensional, and composite symbols) and human-readable content for direct marking and labelling of items, parts, and components.

ISO 28219:2017 provides a means for items, parts and components to be marked, and read in either fixtured or hand-held scanning environments at any manufacturer's facility and then read by customers purchasing items for subsequent manufacturing operations or for final end use. Intended applications include, but are not limited to, supply chain applications, e.g. inventory, distribution, manufacturing, quality control, acquisition, transportation, supply, repair, and disposal.

The figures are illustrative and not necessarily to scale or to the quality requirements specified in ISO 28219:2017.

ISO 15531-44:2017 Industrial automation systems and integration — Industrial manufacturing management data — Part 44: Information modelling for shop floor data acquisition

ISO 15531-44:2017 addresses the modelling of the data collected from data acquisition systems at control level to be stored at the manufacturing management level and processed further at this level for any management purpose.

The following are within the scope of ISO 15531-44:2017:

quantitative or qualitative data collected from data acquisition systems at the control or management level to be stored at the management level and used later on to manage manufacturing;

time stamping and time measurement provided from data acquisition systems for control and management data.

The following are outside the scope of ISO 15531-44:2017:

any data only related to remote and real time measurement and management;

product definition data as modelled in the ISO 10303 series;

catalogue and library data as modelled in ISO 13584 and ISO 15926;

control data that are only used at the control level as well as those that are not used for manufacturing management.

ISO/TS 19158:2012 Geographic information — Quality assurance of data supply

ISO/TS 19158:2012 provides a framework for quality assurance specific to geographic information. It is based upon the quality principles and quality evaluation procedures of geographic information identified in ISO 19157 and the general quality management principles defined in ISO 9000.

The framework defined in ISO/TS 19158:2012 enables a customer to satisfy itself that its suppliers, both internal and external, are capable of delivering geographic information to the required quality. Fundamental to the framework is the assurance of the supplier's ability to understand and meet the quality requirements. Through the quality assurance framework both the customer and the supplier are able to consider the quality required at the earliest opportunity in the production/update process.

Principles and responsibilities of the relationship between the customer and the supplier that facilitate the framework are provided. The responsibility for the quality assessment procedure is shared between the customer and the supplier.

ISO/TS 19158:2012 is applicable to customers and suppliers of all geographic information where the quality of the product may be impacted upon by the supplier's processes in any of the following scenarios:

-there is an agreement or legislation for the supply of data acquisition services,

-data acquisition services are being tendered for, and

-one or more suppliers exist in the supply chain.

ISO/TS 19158:2012 is not applicable for the supply of legacy datasets or ?off the shelf' products where there is no further data production or update activity to manage.

ISO 3939:1977 Fluid power systems and components — Multiple lip packing sets — Methods for measuring stack heights

Specifies methods for measuring sealing devices having more than one seal in the set. Specifies methods for measuring stack height in order to determine that the sets are to an acceptable dimensional standard. Does not specify the dimensions for packing sets or their components. Describes three acceptable methods, and figure 1 shows a typical measuring device for the methods 1 and 2, the figures 3 and 4 show a typical setup for the methods 2 and 3, and figure 2 shows a typical device for the method 2.

ISO 1997:2018 Granulated cork and cork powder — Classification, properties and packing

This document specifies the classification and properties of granulated cork and cork powder before pressing, as well as the methods of packing.

ISO 3069:2000 End-suction centrifugal pumps — Dimensions of cavities for mechanical seals and for soft packing

ISO 10059-2:2003 Dense, shaped refractory products — Determination of cold compressive strength — Part 2: Test with packing

ISO 10059-2:2003 specifies a method for the determination of the cold compressive strength of dense shaped refractory products as an alternative to that described in ISO 10059-1:1992.

ISO 10059-1:1992 Dense, shaped refractory products — Determination of cold compressive strength — Part 1: Referee test without packing

Specifies the principle, the apparatus, the test pieces, the test procedure, the expression of results and the test report.

ISO 13503 Petroleum and natural gas industries — Completion fluids and materials — Part 2: Measurement of properties of proppants used in hydraulic fracturing and gravel-packing operations

ISO 13503-2:2006 provides standard testing procedures for evaluating proppants used in hydraulic fracturing and gravel-packing operations.

"Proppants" mentioned henceforth in ISO 13503-2:2006 refer to sand, ceramic media, resin-coated proppants, gravel-packing media and other materials used for hydraulic fracturing and gravel-packing operations.

The objective of ISO 13503-2:2006 is to provide a consistent methodology for testing performed on hydraulic fracturing and/or gravel-packing proppants.

ISO 11410:2019 Leather — Guidelines for packaging of wet blue leather

This document provides guidance and requirements for packing wet blue leather intended for transport and storage. This document is applicable to wet blue leather made out of goat skin, sheep skin, cow hide and buff hide.

ISO 28000:2007 Specification for security management systems for the supply chain

ISO 28000:2007 specifies the requirements for a security management system, including those aspects critical to security assurance of the supply chain. Security management is linked to many other aspects of business management. Aspects include all activities controlled or influenced by organizations that impact on supply chain security. These other aspects should be considered directly, where and when they have an impact on security management, including transporting these goods along the supply chain.

ISO 28000:2007 is applicable to all sizes of organizations, from small to multinational, in manufacturing, service, storage or transportation at any stage of the production or supply chain that wishes to:

-establish, implement, maintain and improve a security management system;

-assure conformance with stated security management policy;

-demonstrate such conformance to others;

-seek certification/registration of its security management system by an Accredited third party Certification Body; or

-make a self-determination and self-declaration of conformance with ISO 28000:2007.

There are legislative and regulatory codes that address some of the requirements in ISO 28000:2007.

It is not the intention of ISO 28000:2007 to require duplicative demonstration of conformance.

Organizations that choose third party certification can further demonstrate that they are contributing significantly to supply chain security.

ISO 2295:1974 Avocados — Guide for storage and transport

The method relates to a product packed in sacks, but it also gives the procedure to be followed for sampling in bulk. It first gives definitions of relevant terms. Then it gives general information specifies the apparatus, the method of sampling, the packing marking and dispatch of samples. Three figures show examples of suitable apparatus.

ISO 8455:2011 Green coffee — Guidelines for storage and transport

ISO 8455:2011 gives guidelines for conditions aimed to minimize the risks of infestation, contamination, and quality deterioration of green coffee (also known as raw coffee) in bags and "big-bags", in bulk and in silos, being the subject of international commerce, from the time of its packing for export until the time of its arrival in the importing country.

ISO 1216:2017 Boiled reproduction cork — Grading, classification and packing

ISO 1216:2017 defines when boiled reproduction cork is considered to be commercially dry. In addition, it classifies the different possibilities of grading boiled reproduction cork in terms of thickness, specifies its visual classification, packing and marking and defines the acceptable loss in transit.

ISO 18938:2014 Imaging materials — Optical discs — Care and handling for extended storage

ISO 18938:2014 establishes general principles for the care and handling of digital optical discs during use. It addresses the issues of physical integrity of the medium necessary to preserve access to the recorded data (information). ISO 18938:2014 includes recommendations for handling procedures to maximize the effective life of optical discs.

The following are within the scope of ISO 18938:2014:

-use and handling environments, including pollutants, temperature and humidity and light exposure;

-contamination concerns;

-inspection;

-cleaning and maintenance, including cleaning methods and frequency;

-transportation;

-disasters, including water, fire, construction and post-disaster procedures;

-staff training.

ISO 949:1987 Cauliflowers — Guide to cold storage and refrigerated transport

The guidance describes methods for obtaining conditions for the successful keeping and transporting of various varieties derived from Brassica oleracea Linnaeus var. botrytis Linnaeus subvar cauliflora A.P. Decandolle. It includes conditions of harvesting and packing, and optimum conditions, such as temperature, relative humidity, air circulation, storage life, further requirements for transportation and loading. Limits of application are given in an annex

ISO/ASTM 52942:2020 Additive manufacturing — Qualification principles — Qualifying machine operators of laser metal powder bed fusion machines and equipment used in aerospace applications

This document specifies requirements for the qualification of operators of laser metal powder bed fusion machines and equipment for additive manufacturing in aerospace applications.

This document is applicable if the operator qualification testing is required by contract or by application standards in the field of aerospace.

ISO/ASTM 52941:2020 Additive manufacturing — System performance and reliability — Acceptance tests for laser metal powder-bed fusion machines for metallic materials for aerospace application

This document specifies requirements and test methods for the qualification and re-qualification of laser beam machines for metal powder bed fusion additive manufacturing for aerospace applications.

It can also be used to verify machine features during periodic inspections or following maintenance and repair activities.

ISO/ASTM 52910:2018 Additive manufacturing — Design — Requirements, guidelines and recommendations

This document gives requirements, guidelines and recommendations for using additive manufacturing (AM) in product design.

It is applicable during the design of all types of products, devices, systems, components or parts that are fabricated by any type of AM system. This document helps determine which design considerations can be utilized in a design project or to take advantage of the capabilities of an AM process.

General guidance and identification of issues are supported, but specific design solutions and process-specific or material-specific data are not supported.

The intended audience comprises three types of users:

— designers who are designing products to be fabricated in an AM system and their managers;

— students who are learning mechanical design and computer-aided design; and

— developers of AM design guidelines and design guidance systems.

ISO 17296-3:2014 Additive manufacturing — General principles — Part 3: Main characteristics and corresponding test methods

ISO 17296-3:2014 covers the principal requirements applied to testing of parts manufactured by additive manufacturing processes. It specifies main quality characteristics of parts, specifies appropriate test procedures, and recommends the scope and content of test and supply agreements.

ISO 17296-3:2014 is aimed at machine manufacturers, feedstock suppliers, machine users, part providers, and customers to facilitate the communication on main quality characteristics. It applies wherever additive manufacturing processes are used.

ISO 17296-2:2015 Additive manufacturing — General principles — Part 2: Overview of process categories and feedstock

ISO 17296-2:2015 describes the process fundamentals of Additive Manufacturing (AM). It also gives an overview of existing process categories, which are not and cannot be exhaustive due to the development of new technologies. ISO 17296-2:2015 explains how different process categories make use of different types of materials to shape a product's geometry. It also describes which type of material is used in different process categories. Specification of feedstock material and requirements for the parts produced by combinations of different processes and feedstock material will be given in subsequent separate standards and are therefore not covered by ISO 17296-2:2015. ISO 17296-2:2015 describes the overreaching principles of these subsequent standards.

ISO/ASTM 52904:2019 Additive manufacturing — Process characteristics and performance — Practice for metal powder bed fusion process to meet critical applications

1.1 This practice describes the operation and production control of metal powder bed fusion (PBF) machines and processes to meet critical applications such as commercial aerospace components and medical implants. The requirements contained herein are applicable for production components and mechanical test specimens using powder bed fusion (PBF) with both laser and electron beams.

1.2 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appro-priate safety, health, and environmental practices and deter-mine the applicability of regulatory limitations prior to use.

1.3 This international standard was developed in accor-dance with internationally recognized principles on standard-ization established in the Decision on Principles for the Development of International Standards, Guides and Recom-mendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

ISO/ASTM 52907:2019 Additive manufacturing — Feedstock materials — Methods to characterize metal powders

This document provides technical specifications for metallic powders intended to be used in additive manufacturing and covers the following aspects:

— documentation and traceability;

— sampling;

— particle size distribution;

— chemical composition;

— characteristic densities;

— morphology;

— flowability;

— contamination;

— packaging and storage.

This document does not deal with safety aspects.

In addition, this document gives specific requirements for used metallic powders in additive manufacturing.

ISO/ASTM 52902:2019 Additive manufacturing — Test artifacts — Geometric capability assessment of additive manufacturing systems

This document covers the general description of benchmarking test piece geometries along with quantitative and qualitative measurements to be taken on the benchmarking test piece(s) to assess the performance of additive manufacturing (AM) systems.

This performance assessment can serve the following two purposes:

— AM system capability evaluation;

— AM system calibration.

The benchmarking test piece(s) is (are) primarily used to quantitatively assess the geometric performance of an AM system. This document describes a suite of test geometries, each designed to investigate one or more specific performance metrics and several example configurations of these geometries into test piece(s). It prescribes quantities and qualities of the test geometries to be measured but does not dictate specific measurement methods. Various user applications can require various grades of performance. This document discusses examples of feature configurations, as well as measurement uncertainty requirements, to demonstrate low and high grade examination and performance. This document does not discuss a specific procedure or machine settings for manufacturing a test piece, which are covered by ASTM F 2971 and other relevant process specific specifications.

ISO 17296-4:2014 Additive manufacturing — General principles — Part 4: Overview of data processing

ISO 17296-4:2014 covers the principal considerations which apply to data exchange for additive manufacturing. It specifies terms and definitions which enable information to be exchanged describing geometries or parts such that they can be additively manufactured. The data exchange method outlines file type, data enclosed formatting of such data and what this can be used for.

ISO 17296-4:2014 enables a suitable format for data exchange to be specified, describes the existing developments for additive manufacturing of 3D geometries, outlines existing file formats used as part of the existing developments, and enables understanding of necessary features for data exchange for adopters of the International Standard.

ISO 17296-4:2014 is aimed at users and producers of additive manufacturing processes and associated software systems. It applies wherever additive processes are used, and to the following fields in particular: production of additive manufacturing systems and equipment including software; software engineers involved in CAD/CAE systems; reverse engineering systems developers; test bodies wishing to compare requested and actual geometries.

ISO/ASTM 52900:2015 Additive manufacturing — General principles — Terminology

ISO/ASTM 52900:2015 establishes and defines terms used in additive manufacturing (AM) technology, which applies the additive shaping principle and thereby builds physical 3D geometries by successive addition of material.

The terms have been classified into specific fields of application.

New terms emerging from the future work within ISO/TC 261 and ASTM F42 will be included in upcoming amendments and overviews of this International Standard.

ISO/ASTM 52901:2017 Additive manufacturing — General principles — Requirements for purchased AM parts

ISO/ASTM 52901:2017 defines and specifies requirements for purchased parts made by additive manufacturing.

ISO/ASTM 52901:2017 gives guidelines for the elements to be exchanged between the customer and the part provider at the time of the order, including the customer order information, part definition data, feedstock requirements, final part characteristics and properties, inspection requirements and part acceptance methods.

ISO/ASTM 52901:2017 is applicable for use as a basis to obtain parts made by additive manufacturing that meet minimum acceptance requirements. More stringent part requirements can be specified through the addition of one or more supplementary requirements at the time of the order.

ISO 22716:2007 Cosmetics — Good Manufacturing Practices (GMP) — Guidelines on Good Manufacturing Practices

ISO 22716:2007 gives guidelines for the production, control, storage and shipment of cosmetic products.

These guidelines cover the quality aspects of the product, but as a whole do not cover safety aspects for the personnel engaged in the plant, nor do they cover aspects of protection of the environment.

The guidelines in ISO 22716:2007 are not applicable to research and development activities and distribution of finished products.

ISO/IEC DTR 63306-2 Smart Manufacturing Standards Map — Part 2: Catalogue

ISO/ASTM TR 52912:2020 Additive manufacturing — Design — Functionally graded additive manufacturing

The use of Additive Manufacturing (AM) enables the fabrication of geometrically complex components by accurately depositing materials in a controlled way. Technological progress in AM hardware, software, as well as the opening of new markets demand for higher flexibility and greater efficiency in today's products, encouraging research into novel materials with functionally graded and high-performance capabilities. This has been termed as Functionally Graded Additive Manufacturing (FGAM), a layer-by-layer fabrication technique that involves gradationally varying the ratio of the material organization within a component to meet an intended function. As research in this field has gained worldwide interest, the interpretations of the FGAM concept requires greater clarification. The objective of this document is to present a conceptual understanding of FGAM. The current-state of art and capabilities of FGAM technology will be reviewed alongside with its challenging technological obstacles and limitations. Here, data exchange formats and some of the recent application is evaluated, followed with recommendations on possible strategies in overcoming barriers and future directions for FGAM to take off.

ISO/ASTM 52903-2:2020 Additive manufacturing — Material extrusion-based additive manufacturing of plastic materials — Part 2: Process equipment

This document describes a method for defining requirements and assuring component integrity for plastic parts created using material extrusion based additive manufacturing processes. It relates to the process, equipment and operational parameters. Processes include all material extrusion based additive manufacturing processes.

This document is intended for use by AM users and customers procuring such parts.

ISO/ASTM 52903-1:2020 Additive manufacturing — Material extrusion-based additive manufacturing of plastic materials — Part 1: Feedstock materials

This document describes a method for defining requirements for plastic materials used in extrusion-based additive manufacturing (AM) processes. Materials include unfilled, filled, and reinforced plastic materials suitable for processing into parts. These materials can also contain special additives (e.g. flame retardants, stabilizers, etc.). Processes include all material extrusion-based AM processes.

This document is intended for use by manufacturers of materials, feedstocks, plastic parts or any combination of the three using material extrusion-based AM.

NOTE In some cases, material manufacturers can also be feedstock manufacturers. In other cases, a material manufacturer can supply materials (example: pellets) to a feedstock manufacturer (example: converter of pellets into filaments).

This document does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health, and environmental practices and determine the applicability of regulatory limitations prior to use.

ISO/ASTM 52911-2:2019 Additive manufacturing — Design — Part 2: Laser-based powder bed fusion of polymers

This document specifies the features of laser-based powder bed fusion of polymers (LB-PBF/P) and provides detailed design recommendations.

Some of the fundamental principles are also applicable to other additive manufacturing (AM) processes, provided that due consideration is given to process-specific features.

This document also provides a state-of-the-art review of design guidelines associated with the use of powder bed fusion (PBF) by bringing together relevant knowledge about this process and by extending the scope of ISO/ASTM 52910.

ISO/ASTM 52911-1:2019 Additive manufacturing — Design — Part 1: Laser-based powder bed fusion of metals

This document specifies the features of laser-based powder bed fusion of metals (PBF-LB/M) and provides detailed design recommendations.

Some of the fundamental principles are also applicable to other additive manufacturing (AM) processes, provided that due consideration is given to process-specific features.

This document also provides a state of the art review of design guidelines associated with the use of powder bed fusion (PBF) by bringing together relevant knowledge about this process and by extending the scope of ISO/ASTM 52910.

ISO 13281:1997 Industrial automation systems — Manufacturing Automation Programming Environment (MAPLE) — Functional architecture

The document specifies the functional architecture of MAPLE, a Manufacturing Automation Programming Environment. MAPLE is a vendor-independent neutral facility for the programming of multiple manufacturing devices and controls. For the programming of manufacturing devices and controls the following areas will be supported: Connection between various manufacturing data and manufacturing application programs; management of several manufacturing databases; sharing of manufacturing application programs and software tools.

ISO/TR 24475:2010 Cosmetics — Good Manufacturing Practices — General training document

ISO/TR 24475:2010 is aimed at contributing to the training of personnel in cosmetic production plants within the context of the introduction of Good Manufacturing Practices.

It is intended to complement personal involvement and reasoning in the implementation of ISO 22716.

ISO/TR 24475:2010 covers the quality aspects of the cosmetic product, but does not take into account safety aspects for the personnel, nor does it cover aspects of protection of the environment or those concerning the safety and efficacy of the finished products.

ISO/TR 24475:2010 cannot be used alone and needs as a prerequisite a good knowledge of ISO 22716 which is the reference document.

ISO/IEC TR 63306-1:2020 Smart manufacturing standards map (SM2) — Part 1: Framework

This document describes the framework and the vocabulary that are used for the development of entries in the Smart Manufacturing Standards Map Catalogue. These enable the mapping and linking of standards and standard projects related to various aspects of smart manufacturing (product, production, supply chain, industrial services ...).

ISO/ASTM 52915:2020 Specification for additive manufacturing file format (AMF) Version 1.2

This document provides the specification for the Additive Manufacturing File Format (AMF), an interchange format to address the current and future needs of additive manufacturing technology.

This document specifies the requirements for the preparation, display and transmission for the AMF. When prepared in a structured electronic format, strict adherence to an extensible markup language (XML)[1] schema supports standards-compliant interoperability.

NOTE A W3C XML schema definition (XSD) for the AMF is available from ISO from http://standards.iso.org/iso/52915 and from ASTM from www.astm.org/MEETINGS/images/amf.xsd. An implementation guide for such an XML schema is provided in Annex A.

It is recognized that there is additional information relevant to the final part that is not covered by the current version of this document. Suggested future features are listed in Annex B.

This document does not specify any explicit mechanisms for ensuring data integrity, electronic signatures and encryptions.

ISO 14246:2014 Gas cylinders — Cylinder valves — Manufacturing tests and examinations

ISO 14246:2014 specifies the procedures and acceptance criteria for manufacturing testing and examination of cylinder valves that have been manufactured to achieve type approval.

ISO 14246:2014 is applicable to cylinder valves intended to be fitted to refillable transportable gas cylinders, main valves (excluding ball valves) for cylinder bundles and cylinder valves or main valves with integrated pressure regulator (VIPR) designed and type tested according to ISO 10297.

ISO 9506-2:2003 Industrial automation systems — Manufacturing Message Specification — Part 2: Protocol specification

ISO 9506 is an Application Layer communication specification, in accord with the OSI communication model. It provides a set of services appropriate to communications between automated equipment and systems that interrogate or control them. Its description of interactions follow the client server model. It is suitable for use over any network that supports full-duplex, reliable communication, such as the Internet.

Part 1 provides a set of abstract models of information objects that may be found in such automated systems, and the specifications of a set of abstract services that operate on these models.

ISO 9506-2:2003 provides the protocol for the messages to be exchanged between client and server to realize support for the abstract services defined in Part 1.

ISO 9506-1:2003 Industrial automation systems — Manufacturing Message Specification — Part 1: Service definition

ISO 9506-1:2003 provides a set of abstract models of information objects that may be found in such automated systems, and the specifications of a set of abstract services that operate on these models.

Part 2 provides the protocol for the messages to be exchanged between client and server to realize support for the abstract services defined in Part 1.

ISO 11161:2007 Safety of machinery — Integrated manufacturing systems — Basic requirements

ISO 11161:2007 specifies the safety requirements for integrated manufacturing systems (IMS) that incorporate two or more interconnected machines for specific applications, such as component manufacturing or assembly. It gives requirements and recommendations for the safe design, safeguarding and information for the use of such IMSs.

ISO 11161:2007 is not intended to cover safety aspects of individual machines and equipment that may be covered by standards specific to those machines and equipment. Therefore it deals only with those safety aspects that are important for the safety-relevant interconnection of the machines and components. Where machines and equipment of an integrated manufacturing system are operated separately or individually, and while the protective effects of the safeguards provided for production mode are muted or suspended, the relevant safety standards for these machines and equipment apply.

ISO 484-2:2015 Shipbuilding — Ship screw propellers — Manufacturing tolerances — Part 2: Propellers of diameter between 0,80 and 2,50 m inclusive

ISO 484-2:2015 defines manufacturing tolerances of ship screw propellers of a diameter between 0,80 m and 2,50 m.

NOTE Some deviations for the tolerance are permitted in certain cases subject to the discretion of the customer or of the designer and the customer.

ISO 484-1:2015 Shipbuilding — Ship screw propellers — Manufacturing tolerances — Part 1: Propellers of diameter greater than 2,50 m

ISO 484-1:2015 defines manufacturing tolerances of ship screw propellers of a diameter greater than 2,50 m.

NOTE Some deviations for the tolerance are permitted in certain cases subject to the discretion of the customer or of the designer and the customer.

ISO/ASTM 52921:2013 Standard terminology for additive manufacturing — Coordinate systems and test methodologies

ISO/ASTM 52921:2013 includes terms, definitions of terms, descriptions of terms, nomenclature, and acronyms associated with coordinate systems and testing methodologies for additive manufacturing (AM) technologies in an effort to standardize terminology used by AM users, producers, researchers, educators, press/media, and others, particularly when reporting results from testing of parts made on AM systems. Terms included cover definitions for machines/systems and their coordinate systems plus the location and orientation of parts. It is intended, where possible, to be compliant with ISO 841 and to clarify the specific adaptation of those principles to additive manufacturing.

ISO 18100:2017 Timber structures — Finger-jointed timber — Manufacturing and production requirements

ISO 18100:2017 specifies the product and performance requirements for finger-jointed structural timber made from sawn timber elements.

ISO 18100:2017 does not cover products made using impressed (die-formed) joints or finger-jointed laminations for glued laminated timber, which is covered in ISO 12578.

ISO 16100-1:2009 Industrial automation systems and integration — Manufacturing software capability profiling for interoperability — Part 1: Framework

ISO 16100-1:2009 specifies a framework for the interoperability of a set of software products used in the manufacturing domain and to facilitate its integration into a manufacturing application. This framework addresses information exchange models, software object models, interfaces, services, protocols, capability profiles and conformance test methods.

ISO 16100-4:2006 Industrial automation systems and integration — Manufacturing software capability profiling for interoperability — Part 4: Conformance test methods, criteria and reports

ISO 16100-4:2006 specifies the test method, the associated test criteria and the statement format used to evaluate and declare the degree of conformance of an implementation, i.e. a unit under test (UUT), to the requirements specified in other parts of ISO 16100.

ISO 16100-4:2006 includes definitions intended to assist a manufacturer or supplier (first party), a user or purchaser (second party), or an independent body (third party) to perform the assessment for type evaluation.

ISO 16100-4:2006 contains the following:

an enumeration of those conformance aspects that can be used to determine whether an implementation conforms to ISO 16100;

a definition of the conformance tests and statements used in declaring which aspects are met by an implementation;

a description of the aspects to be included in a conformance statement;

a set of rules to select valid or invalid combinations of aspects when they are combined.

ISO 21125:2019 Ships and marine technology — Marine cranes — Manufacturing requirements

This document specifies the general technical manufacturing requirements for marine cranes of metal construction.

This document is applicable to the following types of marine cranes:

— deck cranes mounted on ships for handling cargo or containers in harbour conditions;

— floating cranes or grab cranes mounted on barges or pontoons for operating in harbour conditions;

— engine room cranes and provision cranes, etc. mounted on ships (including floating docks) for handling equipment and stores in harbour conditions.

NOTE Marine cranes in other types of crane can refer to this document.

This document does not apply to cranes manufactured to operate in:

— ambient operating temperatures below −20 °C;

— ambient operating temperatures above +45 °C;

— lifting operations below sea level;

— lifting operations involving more than one crane;

— emergency rescue operations;

— shore-side cargo handling cranes;

— lifting lifeboats, liferafts accommodation ladders, pilot ladders, gangways and their handling appliances;

— launching appliances for survival craft and rescue boats.

ISO 16100-5:2009 Industrial automation systems and integration — Manufacturing software capability profiling for interoperability — Part 5: Methodology for profile matching using multiple capability class structures

ISO 16100-5:2009 specifies the methods and rules for matching existing manufacturing software unit (MSU) capability profiles and required capability profiles derived from multiple capability class structures. The methods and rules allow MSUs in manufacturing applications to be evaluated for interoperability and, in some cases, for interchangeability.

The following are outside the scope of ISO 16100-5:2009:

services for creating, registering and accessing the various templates for the reference manufacturing domain models, the manufacturing domain data and the capability class structures;
the conformance tables that reference Type 1 services defined and specified in ISO 16100-3;
additional services needed for managing these templates in a database or equivalent object repository.

ISO 16100-3:2005 Industrial automation systems and integration — Manufacturing software capability profiling for interoperability — Part 3: Interface services, protocols and capability templates

ISO 16100-3:2005 specifies requirements for interface services and protocols used to access and edit capability profiles and associated templates used in the capability profiling method defined in Clause 5 of ISO 16100-2.

The detailed services for accessing capability profiles and performing the matching process on these profiles are defined in ISO 16100-3:2005.

ISO 16100-3:2005 is applicable only for the interoperability of software units used in the manufacturing domain. Concerns regarding interchangeability of manufacturing software units are outside the scope of this part of ISO 16100.

ISO 16100-2:2003 Industrial automation systems and integration — Manufacturing software capability profiling for interoperability — Part 2: Profiling methodology

ISO 16100-2:2003 specifies a methodology for constructing profiles of manufacturing software capabilities, and is applicable to software products used in the manufacturing domain. It is an integral part of ISO 16100 (all parts), a series of International Standards for the computer-interpretable and human readable representation of a software capability profile. The goal of ISO 16100 (all parts) is to provide a method to represent the capability of manufacturing software relative to its role throughout the life cycle of a manufacturing application, independent of a particular system architecture or implementation platform.

ISO 13281-2:2000 Industrial automation systems and integration — Manufacturing Automation Programming Environment (MAPLE) — Part 2: Services and interfaces

This part of ISO 13281 specifies a minimum set of services to be provided and interface requirements for creating a

MAPLE. The specifications in this part of ISO 13281 are specifically for software developers of MAPLE

environments, system integrators, and software tool developers. Specifications that address the needs of users

such as program developers, planners and operators in a manufacturing automation environment are outside the

scope of this document.

This part of ISO 13281 only specifies the interface at the application layer between MAPLE and software programs.

The creation or deletion of a Manufacturing Database, as well as specifications for the MAPLE Data Dictionary and

MAPLE Software Dictionary beyond the dictionary definition schema, are outside the scope of this part of

ISO 13281.

ISO 16100-6:2018 Industrial automation systems and integration — Manufacturing software capability profiling for interoperability — Part 6: Interface services and protocols for matching profiles based on multiple capability class structures

This document defines the detailed interface services and protocols used in a matching method based on multiple capability class structures. This document also defines a CPTI (Capability Profile Template Interface) Service Group, an Extended CPI (Capability Profile Interface) Service Group and an Extended Matcher Interface Service Group, which is extensions of the Type 1, Type 2 and Type 3 services, respectively, specified in ISO 16100-3:2005,5.4.

This document also defines the CCSI (Capability Class Structure Interface) Service Group, an additional service group used to create, register, access and modify a capability class structure for the reference manufacturing domain models specified in ISO 16100-5:2009, Clause 6.

This document also specifies detailed contents of the specific part of a capability profile template defined in ISO 16100-5:2009, Clause 7.

ISO 8887-1:2017 Technical product documentation — Design for manufacturing, assembling, disassembling and end-of-life processing — Part 1: General concepts and requirements

ISO 8887-1:2017 specifies the requirements for the preparation, content and structure of technical product documentation (TPD) of design output for the cycles of manufacturing, assembling, disassembling and end-of-life processing of products. It describes the TPD needed at the critical stages of a design process.

It identifies and describes methods and conventions appropriate to the preparation of documentation, in whatever form, necessary to realize a design including the application to multiple life cycles. It extends beyond specification for the manufacturing and assembling of products to incorporate guidance on the ultimate reusing, recovering, recycling and disposing of the components and materials used.

ISO 15531-32:2005 Industrial automation systems and integration — Industrial manufacturing management data: Resources usage management — Part 32: Conceptual model for resources usage management data

ISO 15531-32:2005 specifies the full description of the conceptual model for resources usage management data, based on the resource information model and basic principles described in ISO15531-31.

The following are within the scope of ISO 15531-32:2005.

the description of the conceptual resource information model and related definitions for resource usage management data;
the EXPRESS description of the model and related entities;
the EXPRESS-G diagram of the model.

ISO 15531-42:2005 Industrial automation systems and integration — Industrial manufacturing management data — Part 42: Time Model

ISO 15531-42:2005 specifies a generic framework for the description of topological properties applicable to a wide range of one dimension domains.

Developments made in ISO 15531-42:2005 are focused on the time domain, thus providing a universal, self consistent model, independent of any event that may occur, or has already occurred, at a given point in time.

The time model specified in ISO 15531-42:2005 enables any software application to provide an accurate time reference to any related event or sequence of events, whether in the past, in the present or in the future. This time model may be used by any application that needs to reference events, actions or sequences of action linked to time or intervals of time simultaneously.

According to this, the scope of ISO 15531-42:2005 includes the following:

the description of the topological properties of an one dimension domain;
the description of the time model and of the related definitions;
the EXPRESS definitions of entities, attributes and schemas as prescribed in ISO 10303-11 (the reference manual of the EXPRESS language);
the EXPRESS-G diagrams of the model as prescribed in ISO 10303-11.

ISO 15531-31:2004 Industrial automation systems and integration — Industrial manufacturing management data — Part 31: Resource information model

ISO 15531-31:2004 is an introduction to the ISO 15531-3x series of ISO 15531. It describes the universe of discourse of this International Standard as well as the resources information model. It provides the main principles used in this series of parts of ISO 15531.

ISO 19617:2018 Traditional Chinese medicine — General requirements for the manufacturing process of natural products

ISO 19617:2018 specifies the general requirements for manufacturing processes to ensure the quality of finished products used in traditional Chinese medicine (TCM). This document covers premises, documentation, personnel, training, manufacturing control and quality control. This document applies to the manufacturing of natural products used in and as TCM.

ISO 19617:2018 does not conflict with general pharmaceutical good manufacturing practices (GMPs).

ISO 19617:2018 applies to all materials of natural origin: medicinal plants, medicinal animals, medicinal minerals, crude drugs or crude drug preparations.

ISO 15531-43:2006 Industrial automation systems and integration — Industrial manufacturing management data — Part 43: Manufacturing flow management data: Data model for flow monitoring and manufacturing data exchange

ISO 15531-43:2006 addresses the representation of information related to manufacturing flow management, through the development of a conceptual model of the processes and of the flows of materials and information.

ISO 15531-1:2004 Industrial automation systems and integration — Industrial manufacturing management data — Part 1: General overview

ISO 15531-1:2004 provides a general overview of the whole ISO 15531 standard (MANDATE). It specifies its scope and provides a number of basic definitions on which the whole standard is built in accordance with the "General system theory" and the concepts defined in APICS dictionary. Its informative annexes provide a description of the relationships between MANDATE and other standards (especially ISO/TC 184 standards), as well as a clarification of the concepts of "capability and capacity" as they are used in MANDATE and other standards that refer explicitly or implicitly to the system theory.

MANDATE address the modelling of manufacturing management data such as:

Resources management data (Resource model);
Time related features (Time model);
Flow management data in manufacturing (Flow management model).

MANDATE, in association with STEP, PLIB and other SC 4 (or non SC 4) standards, may be used in any software application that addresses manufacturing management related information such as resources management data, flow management data. As such, the standard is intented at facilitating information exchanges between software applications such as E.R.P., manufacturing management software, maintenance management software, quotation software, etc.

MANDATE has been written in EXPRESS. During the development phases of the MANDATE standard, the compatibility of the standard with the ISO 10303 (STEP) standard has been the subject of a thorough analysis.

ISO 19610:2017 Traditional Chinese medicine — General requirements for industrial manufacturing process of red ginseng (Panax ginseng C.A. Meyer)

This document specifies the general requirements for the industrial manufacturing process of red ginseng from Panax ginseng C.A. Meyer which is the only species from which red ginseng is processed[6-11]. It is intended that manufacturers perform the appropriate washing, steaming, drying and packaging processes to assure the quality of red ginseng products for consumers.

ISO 11161:2007/AMD 1:2010 Safety of machinery — Integrated manufacturing systems — Basic requirements — Amendment 1

ISO 14246:2014/AMD 1:2017 Gas cylinders — Cylinder valves — Manufacturing tests and examinations — Amendment 1

ISO/TR 25599:2005 Cranes — Jib cranes — International Standards for design, manufacturing, use and maintenance requirements and recommendations

ISO 20170:2019 Geometrical product specifications (GPS) — Decomposition of geometrical characteristics for manufacturing control

This document describes principles and tools to control a manufacturing process in accordance with a GPS specification. For this purpose a set of one or more complementary, independent characteristics (size, form, orientation, and location characteristics independent to each other) that correlate to the manufacturing process parameters and to the manufacturing process coordinate system established from the manufacturing datum system are used.

This document describes the concept of decomposition of the macro-geometrical part of the GPS specification. It does not cover the micro-geometry, i.e. surface texture.

The objective of the decomposition presented in this document is to define correction values for manufacturing control or to perform a statistical analysis of the process.

ISO 11111-6:2005
Textile Machinery –Safety Requirements – Part 6: Fabric Manufacturing Machinery

ISO 11111-6:2005, taken together with ISO 11111-1, specifies significant hazards and corresponding safety requirements and/or measures for fabric manufacturing machinery. It is applicable to all machinery, plant and related equipment intended to be used for weaving, knitting and tufting.

ISO/IEC DIS 23510
Information technology — 3D Printing and Scanning — Framework for Additive Manufacturing Service Platform (AMSP)

ISO/WD 20964
Specification for consumables used in forensic process — Requirements for product manufacturing and kit assembly

ISO/IEC 9506-2:1990/COR 1:1995
Industrial automation systems — Manufacturing Message Specification — Part 2: Protocol specification — Technical Corrigendum 1

ISO/IEC 9506-1:1990/COR 1:1995
Industrial automation systems — Manufacturing Message Specification — Part 1: Service definition — Technical Corrigendum 1

ISO/IEC 9506-2:1990/COR 2:1995
Industrial automation systems — Manufacturing Message Specification — Part 2: Protocol specification — Technical Corrigendum 2

ISO/IEC 9506-1:1990/COR 2:1995
Industrial automation systems — Manufacturing Message Specification — Part 1: Service definition — Technical Corrigendum 2

ISO/TS 23303:2020
Health informatics — Categorial structure for Chinese materia medica products manufacturing process

This document specifies the whole manufacturing process of Chinese materia medica products by defining a set of domain constraints of sanctioned characteristics, each composed of a relationship and an applicable categorial structure. It includes three process categories: processing, extracting and preparation.
This document is not applicable to Japanese traditional KAMPO medicinal products.

ISO 11354-2:2015
Advanced automation technologies and their applications — Requirements for establishing manufacturing enterprise process interoperability — Part 2: Maturity model for assessing enterprise interoperability

ISO 11354-2:2015 specifies:
- levels to represent the capability of an enterprise to interoperate with other enterprises;
- measures for assessing the capability of a specific enterprise to interoperate with other enterprises;
- methods for combining these measures into two kinds of overall assessment:
- maturity level by concern and barrier, and
- assessment relative to four designated maturity levels;
- a method for representing concern and barrier overall assessments in a graphical form and for identifying where capabilities are required to achieve desired higher levels of interoperability.

ISO 22400-1:2014
Automation systems and integration — Key performance indicators (KPIs) for manufacturing operations management — Part 1: Overview, concepts and terminology

ISO 22400 specifies an industry-neutral framework for defining, composing, exchanging, and using key performance indicators (KPIs) for manufacturing operations management (MOM), as defined in IEC 62264 1 for batch, continuous and discrete industries.
ISO 22400-1:2014:
• provides an overview of what a KPI is,
• presents concepts of relevance for working with KPIs including criteria for constructing KPIs,
• specifies terminology related to KPIs, and
• describes how a KPI can be used.

ISO 16300-4:2019
Automation systems and integration — Interoperability of capability units for manufacturing application solutions — Part 4: Capability unit assessment for the manufacturing application requirements

This document specifies the search methodology from software unit catalogues for acquiring candidate capability units which satisfy the manufacturing application requirements.

ISO 16300-2:2019
Automation systems and integration — Interoperability of capability units for manufacturing application solutions — Part 2: Capability templates and software unit cataloguing

This document specifies a set of template definitions to describe the capability of a software unit of an automation solution that can be mapped to the functional requirements of a target manufacturing application.

This document specifies how to develop and manage a software unit catalogue in terms of capability properties and defines mapping rules from capability profiles to a software unit catalogue.

ISO 22400-2:2014
Automation systems and integration — Key performance indicators (KPIs) for manufacturing operations management — Part 2: Definitions and descriptions

ISO 22400 defines key performance indicators (KPIs) used in manufacturing operations management.

With reference to equipment, the KPIs in ISO 22400-2:2014 relate to work units, as specified in IEC 62264.

ISO 9902-6:2018
Textile machinery — Noise test code — Part 6: Fabric manufacturing machinery

This document covers the different types of weaving and knitting machines defined in ISO 5247 (all parts)[2] and ISO 7839[3], respectively.
It is applicable to:
full-width weaving machines with weft insertion by:
• shuttles;
• rigid, telescopic or flexible rapiers;
• projectiles;
• hydraulic (waterjet) or by pneumatic (airjet) nozzle;
narrow fabric weaving machines with weft insertion by shuttles or needles;
jacquard machines;
knitting machinery including:
• circular knitting;
• flat bed knitting;
• warp knitting;
• raschel;
• cotton (flat weft weaving);
other fabric manufacturing machines e.g.:
• multi-phase weaving machines;
• circular weaving machines;
• stitch bonding machines.
NOTE Because of the high requirements on measurement conditions, grade 1 methods are normally not feasible for textile machinery.

ISO 16300-1:2018
Automation systems and integration — Interoperability of capability units for manufacturing application solutions — Part 1: Interoperability criteria of capability units per application requirements

This document specifies a framework for describing an automation solution in terms of a set of capabilities provided by a set of manufacturing software units.

The framework also defines a set of capability elements and composition rules to represent the interoperability criteria in terms of the automation system capability requirements of an enterprise application.

ISO/IEC 9506-2:1990/AMD 2:1995
Industrial automation systems — Manufacturing Message Specification — Part 2: Protocol specification — Amendment 2: Conditioned service response

ISO/IEC 9506-2:1990/AMD 1:1993
Industrial automation systems — Manufacturing Message Specification — Part 2: Protocol specification — Amendment 1: Data exchange

ISO/IEC 9506-1:1990/AMD 1:1993
Industrial automation systems — Manufacturing Message Specification — Part 1: Service definition — Amendment 1: Data exchange

ISO/IEC 9506-1:1990/AMD 2:1995
Industrial automation systems — Manufacturing Message Specification — Part 1: Service definition — Amendment 2: Conditioned service response

ISO/IEC 9506-3:1991/AMD 2:1997
Industrial automation systems — Manufacturing message specification — Part 3: Companion standard for robotics — Amendment 2: conformance

ISO/IEC 9506-3:1991/COR 1:1993
Industrial automation systems — Manufacturing message specification — Part 3: Companion standard for robotics — Technical Corrigendum 1

IEC 62264-5:2016
Enterprise-control system integration — Part 5: Business to manufacturing transactions

IEC 62264-5:2016 defines transactions in terms of information exchanges between applications performing business and manufacturing activities associated with Levels 3 and 4. The exchanges are intended to enable information collection, retrieval, transfer and storage in support of enterprise-control system integration. This part of IEC 62264 is consistent with the IEC 62264-2 and IEC 62264-4 object models attributes. This standard also defines transactions that specify how to exchange the objects defined in IEC 62264-2, IEC 62264-4 and this standard. This second edition cancels and replaces the first edition published in 2011. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: The addition of transaction rules for objects defined in IEC 62264-4: Job, Job List, Job Response, Job Response List, Work Alert Definition, Work Alert, Work Calendar Definition, Work Calendar, Work Capability Work Directive, Work Master, Work Performance, Work Record, Work Schedule, Workflow Specification Node Type, Workflow Specification. It is published as a double logo standard.

ISO 16300 3:2017 specifies a framework for verifying and validating the interoperability of manufacturing capability units (MCUs) having a set of capabilities that meet the functional requirements of a target manufacturing application solution.
The verification and validation framework describes the use of the interoperability criteria in ISO 16300 1 and the steps to be performed.

ISO 11354-1:2011
Advanced automation technologies and their applications — Requirements for establishing manufacturing enterprise process interoperability — Part 1: Framework for enterprise interoperability

The purpose of ISO 11354-1:2011 is to specify a Framework for Enterprise Interoperability (FEI) that establishes dimensions and viewpoints to address interoperability barriers, their potential solutions, and the relationships between them.

ISO 11354 applies to manufacturing enterprises, but can also apply to other kinds of enterprises. It is intended for use by stakeholders who are concerned with developing and deploying solutions based on information and communication technology for manufacturing enterprise process interoperability. It focuses on, but is not restricted to, enterprise (manufacturing or service) interoperability.

ISO 11354-1:2011 specifies the following:
• viewpoints for addressing stakeholder concerns for the exchange of entities (information objects or physical objects) at the operational levels of enterprises at which interoperability is required;
• a framework for structuring these stakeholder concerns (business, process, service, data), the barriers relating to enterprise interoperability (conceptual, technological, organizational) and the approaches to overcome barriers (integrated, unified, federated), with contents identifying the various kinds of solutions available to enable interoperability.

ISO 11354-1:2011 does not specify the specific mechanisms for the exchange of entities (information objects or physical objects), nor the manner in which interoperability solutions are implemented.

ISO/DTS 23565
Biotechnology — Bioprocessing — General requirements and considerations for equipment systems used in manufacturing of cellular therapeutic products

ISO 9902-6:2001
Textile machinery — Noise test code — Part 6: Fabric manufacturing machinery

ISO/IEC 2382-24:1995
Information technology — Vocabulary — Part 24: Computer-integrated manufacturing

Defines concepts related to computer-integrated manufacturing.

IEC 62264-3:2016
Enterprise-control system integration — Part 3: Activity models of manufacturing operations management