| Name |
Description |
Abstract |
Status |
Publication date |
Edition |
Number of pages |
Technical committee |
ICS |
| ISO/DIS 5425 |
Specifications for use of poly(lactic acid) based filament in additive manufacturing applications |
|
Under development |
|
Edition : 1 |
Number of pages : 12 |
Technical Committee |
25.030
Additive manufacturing
;
83.080.01
Plastics in general
|
| ISO 14649-17:2020 |
Industrial automation systems and integration — Physical device control — Data model for computerized numerical controllers — Part 17: Process data for additive manufacturing |
This document specifies the process data for additive manufacturing. This document describes additive manufacturing at the micro process plan level without making a commitment to particular machines, processes or technologies.
|
Published |
2020-03 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
25.030
Additive manufacturing
;
25.040.20
Numerically controlled machines
|
| ISO/ASTM DIS 52926-2 |
Additive Manufacturing of metals — Qualification principles — Part 2: Qualification of operators for PBF-LB |
|
Under development |
|
Edition : 1 |
Number of pages : 7 |
Technical Committee |
25.030
Additive manufacturing
;
03.100.30
Management of human resources
|
| ISO 17295:2023 |
Additive manufacturing — General principles — Part positioning, coordinates and orientation |
This document provides specifications and illustrations for the positioning and orientation of parts with regards with coordinate systems and testing methodologies for additive manufacturing (AM) technologies in an effort to standardize the method of representation used by AM users, producers, researchers, educators, press/media, and others, particularly when reporting results from testing of parts made on AM systems. Included specifications cover coordinate systems and the location and orientation of parts. It is intended to be in accordance with the principles of ISO 841 and to clarify the specific adaptation of those principles for additive manufacturing.
|
Published |
2023-01 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2015-01 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2014-09 |
Edition : 1 |
Number of pages : 14 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Withdrawn |
2014-09 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/IEC 23510:2021 |
Information technology — 3D printing and scanning — Framework for an Additive Manufacturing Service Platform (AMSP) |
This document specifies the framework for an Additive Manufacturing Service Platform (AMSP). The following elements are within the scope of this document:
— Overview introducing the stakeholders and workflow of an AMSP.
— Requirements specifying various prerequisite conditions from different aspects.
— Framework defining a general functional architecture based on the identified requirements.
— Use cases showing typical work modes of an AMSP.
This document is applicable when individuals or organizations (e.g. commercial enterprises, government agencies and non-profit organizations) build an AMSP or improve existing ones to provide 3D printing and other services specific to the submission, design and creation of AM parts.
|
Published |
2021-10 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
25.030
Additive manufacturing
;
35.020
Information technology (IT) in general
|
| ISO/DIS 27548 |
Additive manufacturing of plastics — Environment, health, and safety — Test method for determination of particle and chemical emission rates from desktop material extrusion 3D printer |
This document specifies test methods to determine particle emissions (including ultrafine particles) and specified VOCs (including aldehydes) from Material Extrusion(ME) processes often used in non-industrial environments such as school, homes and office spaces in an Emission Test Chamber (ETC) under specified test conditions. However, these tests may not accurately predict real-world results.
This document describes a conditioning method using an ETC with controlled temperature, humidity, air exchange rate, air velocity, and procedures for monitoring, storage, analysis, calculation, and reporting of emission rates.
This document is intended to cover a Fused Filament Fabrication (FFF) type desktop 3D printer using thermoplastic materials. The primary purpose of this document is to quantify particle and chemical emission rates emitted from a specific ME type desktop 3D printer which is operated using thermoplastic feedstocks.
However, not all possible emissions are covered by this method. Many feedstocks could release hazardous emissions that are not measured by the chemical detectors prescribed in this document. It is the responsibility of the user to understand the material being printed and the potential chemical emissions. An example is PVC feedstocks that could potentially emit chlorinated compounds, which would not be measured by this document.
|
Under development |
|
Edition : 1 |
Number of pages : 27 |
Technical Committee |
13.100
Occupational safety. Industrial hygiene
;
25.030
Additive manufacturing
;
13.040.30
Workplace atmospheres
|
| 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.
|
Withdrawn |
2015-12 |
Edition : 1 |
Number of pages : 19 |
Technical Committee |
25.030
Additive manufacturing
;
01.040.25
Manufacturing engineering (Vocabularies)
|
| No name found |
|
|
|
|
|
|
|
|
| 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.
|
Published |
2017-08 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
25.030
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.
|
Published |
2019-07 |
Edition : 1 |
Number of pages : 36 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM FDIS 52902 |
Additive manufacturing — Test artifacts — Geometric capability assessment of additive manufacturing systems |
|
Under development |
|
Edition : 2 |
|
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2020-04 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2020-10 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Withdrawn |
2013-06 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2019-08 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM DIS 52904 |
Additive manufacturing of metals — Process characteristics and performance — 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.
|
Under development |
|
Edition : 2 |
Number of pages : 16 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM DTR 52905 |
Additive manufacturing of metals — Non-destructive testing and evaluation — Defect detection in parts |
|
Under development |
|
Edition : 1 |
Number of pages : 158 |
Technical Committee |
25.030
Additive manufacturing
;
77.040.20
Non-destructive testing of metals
|
| ISO/ASTM TR 52906:2022 |
Additive manufacturing — Non-destructive testing — Intentionally seeding flaws in metallic parts |
This document is intended to serve as a best practice for the identification and “seeding” of nondestructively detectable flaw replicas of metal alloy PBF and DED processes. Three seeding categories are described:
a) process flaws through CAD design;
b) build parameter manipulation;
c) subtractive manufacturing.
These include flaws present within as-deposited materials, post heat-treated or HIP processed material, and those flaws made detectable because of post-processing operations. Geometrical aspects or measurement are not the subjects of this document.
WARNING — 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 document to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
|
Published |
2022-05 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2019-11 |
Edition : 1 |
Number of pages : 19 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM DIS 52908 |
Additive manufacturing of metals — Finished Part properties — Post-processing, inspection and testing of parts produced by powder bed fusion |
|
Under development |
|
Edition : 1 |
Number of pages : 23 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM 52915:2013 |
Standard specification for additive manufacturing file format (AMF) Version 1.1 |
ISO/ASTM 52915:2013 describes a framework for an interchange format to address the current and future needs of additive manufacturing technology. For the last three decades, the STL file format has been the industry standard for transferring information between design programs and additive manufacturing equipment. An STL file contains information only about a surface mesh and has no provisions for representing color, texture, material, substructure, and other properties of the fabricated target object. As additive manufacturing technology is quickly evolving from producing primarily single-material, homogenous shapes to producing multimaterial geometries in full colour with functionally graded materials and microstructures, there is a growing need for a standard interchange file format that can support these features.
|
Withdrawn |
2013-06 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
25.030
Additive manufacturing
;
35.240.50
IT applications in industry
|
| ISO/ASTM 52909:2022 |
Additive manufacturing of metals — Finished part properties — Orientation and location dependence of mechanical properties for metal powder bed fusion |
This document covers supplementary guidelines for evaluation of mechanical properties including static/quasi-static and dynamic testing of metals made by additive manufacturing (AM) to provide guidance toward reporting when results from testing of as-build specimen or those excised from printed parts made by this technique or both.
This document is provided to leverage already existing standards. Guidelines are provided for mechanical properties measurements and reporting for additively manufactured metallic specimen as well as those excised from parts.
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, health and environmental practices and determine the applicability of regulatory limitations prior to use.
This document expands upon the nomenclature of ISO/ASTM 52900 and principles of ISO/ASTM 52921 and extends them specifically to metal additive manufacturing. The application of this document is primarily intended to provide guidance on orientation designations in cases where meaningful orientation/direction for AM cannot be obtained from available test methods.
|
Published |
2022-10 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2018-07 |
Edition : 1 |
Number of pages : 24 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM DIS 52910 |
Additive manufacturing — Design — Requirements, guidelines and recommendations |
|
Under development |
|
Edition : 2 |
Number of pages : 23 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2019-07 |
Edition : 1 |
Number of pages : 23 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2019-09 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM 52911-3:2023 |
Additive manufacturing — Design — Part 3: PBF-EB of metallic materials |
This document specifies the features of electron beam powder bed fusion of metals (PBF-EB/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.
|
Published |
2023-02 |
Edition : 1 |
Number of pages : 26 |
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2020-09 |
Edition : 1 |
Number of pages : 27 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM 52915:2016 |
Specification for additive manufacturing file format (AMF) Version 1.2 |
ISO/ASTM 52915:2016 provides the specification for the Additive Manufacturing File Format (AMF), an interchange format to address the current and future needs of additive manufacturing technology.
The AMF may be prepared, displayed and transmitted provided the requirements of this specification are met. When prepared in a structured electronic format, strict adherence to an extensible markup language (XML)[1] schema is required to support standards-compliant interoperability.
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 International Standard. Suggested future features are listed in Annex B.
ISO/ASTM 52915:2016 does not specify any explicit mechanisms for ensuring data integrity, electronic signatures and encryptions.
|
Withdrawn |
2016-02 |
Edition : 2 |
Number of pages : 26 |
Technical Committee |
25.030
Additive manufacturing
;
35.240.50
IT applications in industry
|
| 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.
|
Published |
2020-03 |
Edition : 3 |
Number of pages : 27 |
Technical Committee |
25.030
Additive manufacturing
;
35.240.50
IT applications in industry
|
| ISO/ASTM TR 52916:2022 |
Additive manufacturing for medical — Data — Optimized medical image data |
This document includes the creation of optimized data for medical additive manufacturing (MAM). These data are generated from static modalities, such as magnetic resonance imaging (MRI), computed tomography (CT). This document addresses improved medical image data, and medical image data acquisition processing and optimization approaches for accurate solid medical models, based on real human and animal data.
Solid medical models are generally created from stacked 2D images output from medical imaging systems. The accuracy of the final model depends on the resolution and accuracy of the original image data. The main factors influencing accuracy are the resolution of the image, the amount of image noise, the contrast between the tissues of interest and artefacts inherent in the imaging system.
|
Published |
2022-01 |
Edition : 1 |
Number of pages : 24 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM TR 52917:2022 |
Additive manufacturing — Round robin testing — General guidelines |
This document is focused on the management of the round robin study (RRS) and can provide guidance for the scope development, planning, and execution of the RRS study. It can provide guidance to identify the feedstock, machine operations, process controls, and post-processing operations prior to running the study. RR organizers can identify controlled and free parameters in the study. This document can also provide guidance on the selection and use of test methods that can be applicable. The RRS investigates the variations found in AM parts. The outcome of the study can be used to improve the maturation of AM technologies.
A RRS, as described in this document, is different from an inter-laboratory comparison because an inter-laboratory study establishes the variability in a measurement method when undertaken by multiple users on a well-controlled artefact.
|
Published |
2022-08 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM CD TR 52918 |
Additive manufacturing — Data formats — File format support, ecosystem and evolutions |
|
Under development |
|
Edition : 1 |
|
Technical Committee |
25.030
Additive manufacturing
;
35.240.50
IT applications in industry
|
| ISO/ASTM CD 52919 |
Additive manufacturing — Qualification principles — Test method of sand moulds for metal casting |
This document defines test methods for sand molds for metal casting produced by means of additive manufacturing technologies. The test methods include the determination of mechanical and physical properties such as, but not limited to, tensile strength, transverse strength, gas permeability, and also others.
|
Under development |
|
Edition : 1 |
|
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM FDIS 52920 |
Additive manufacturing — Qualification principles — Requirements for industrial additive manufacturing processes and production sites |
|
Under development |
|
Edition : 1 |
Number of pages : 39 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM FDIS 52924 |
Additive manufacturing of polymers — Qualification principles — Classification of part properties |
|
Under development |
|
Edition : 1 |
Number of pages : 18 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM CD 52929 |
Additive manufacturing of metals — Powder bed fusion — Presentation of material properties in material data sheets |
This document specifies basic content and relevant parameters to be reported in material data sheets. Individual additions and extensions are permissible. This document is intended for manufacturers of PBF-LB/M or PBF-EB/M equipment, powder suppliers, service providers and users of the additively manufactured components.
|
Under development |
|
Edition : 1 |
|
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM TS 52930:2021 |
Additive manufacturing — Qualification principles — Installation, operation and performance (IQ/OQ/PQ) of PBF-LB equipment |
This document addresses installation qualification (IQ), operational qualification (OQ), and performance qualification (PQ) issues directly related to the additive manufacturing system that has a direct influence on the consolidation of material. The first three elements of process validation, process mapping, risk assessment, and validation planning, are necessary pre-conditions to machine qualification, however, they are outside the scope of this document.
This document covers issues directly related to the AM equipment and does not cover feedstock qualification or post processing beyond powder removal.
Physical facility, personnel, process and material issues are only included to the extent necessary to support machine qualification.
|
Published |
2021-11 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM 52931:2023 |
Additive manufacturing of metals — Environment, health and safety — General principles for use of metallic materials |
This document provides guidance and requirements for risk assessment and implementation of prevention and protection measures relating to additive manufacturing with metallic powders.
The risks covered by this document concern all sub-processes composing the manufacturing process, including the management of waste.
This document does not specify requirements for the design of machinery and equipment used for additive manufacturing.
|
Published |
2023-01 |
Edition : 1 |
Number of pages : 35 |
Technical Committee |
13.100
Occupational safety. Industrial hygiene
;
25.030
Additive manufacturing
;
13.020.01
Environment and environmental protection in general
;
13.030.30
Special wastes
|
| ISO/ASTM DIS 52933 |
Additive manufacturing — Environment, health and safety — Test method for the hazardous substances emitted from material extrusion type 3D printers in the non-industrial places |
|
Under development |
|
Edition : 1 |
Number of pages : 24 |
Technical Committee |
13.100
Occupational safety. Industrial hygiene
;
25.030
Additive manufacturing
;
13.040.30
Workplace atmospheres
|
| ISO/ASTM DIS 52935 |
Additive manufacturing of metals – Qualification principles – Qualification of AM coordination personnel |
|
Under development |
|
Edition : 1 |
Number of pages : 14 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM 52936-1:2023 |
Additive manufacturing of polymers — Qualification principles — Part 1: General principles and preparation of test specimens for PBF-LB |
This document specifies the general principles to be followed when test specimens of thermoplastic materials are prepared by laser-based powder bed fusion (PBF-LB/P), which is commonly known as laser sintering. The (PBF-LB/P) process is used to prepare test specimens layer upon layer in which thermal energy selectively fuses regions of a powder bed. This document provides a basis for establishing reproducible and reportable sintering conditions. Its purpose is to promote uniformity in describing the main process parameters, build orientation of the sintering process and also to establish uniform practice in reporting sintering conditions.
This document does not specify the test procedure itself.
|
Published |
2023-01 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM DIS 52938-1 |
Additive manufacturing of metals — Environment, health and safety — Part 1: Safety requirements for PBF-LB machines |
|
Under development |
|
Edition : 1 |
Number of pages : 33 |
Technical Committee |
13.100
Occupational safety. Industrial hygiene
;
13.110
Safety of machinery
;
25.030
Additive manufacturing
|
| ISO/ASTM DIS 52939 |
Additive Manufacturing for construction — Qualification principles — Structural and infrastructure elements |
|
Under development |
|
Edition : 1 |
Number of pages : 36 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM CD 52940 |
Additive manufacturing of ceramics — Feedstock materials — Characterization of ceramic slurry in vat photopolymerization |
This standard specifies the characterization of ceramic slurry for use as feedstock in vat photopolymerization additive manufacturing (AM) process. The characterization includes the composition and properties of the slurry, such as solids content, dynamic viscosity, particle size distribution, chemical composition, and solid dispersion stability. This standard also provides available methods about sampling and preparing slurry samples for testing. This standard does not deal with safety aspects.
|
Under development |
|
Edition : 1 |
|
Technical Committee |
25.030
Additive manufacturing
|
| ISO/IEC DIS 5392 |
Information technology — Artificial intelligence — Reference architecture of knowledge engineering |
|
Under development |
|
Edition : 1 |
Number of pages : 43 |
Technical Committee |
35.020
Information technology (IT) in general
|
| 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.
|
Published |
2020-11 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM CD 52941 |
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.
|
Under development |
|
Edition : 2 |
|
Technical Committee |
25.030
Additive manufacturing
|
| 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.
|
Published |
2020-08 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
25.030
Additive manufacturing
;
03.100.30
Management of human resources
|
| ISO/ASTM DIS 52943-2 |
Additive manufacturing for aerospace — Process characteristics and performance — Part 2: Directed energy deposition using wire and arc |
This document specifies requirements for the additive manufacturing of metallic parts with directed energy deposition in the aerospace industry. These can be additively generated parts or additively generated additions to existing parts. Within the application scope of this document, wire is used as feedstock, and arc processes (gas-shielded metal arc processes, Tungsten inert gas processes, plasma arc processes) are the main energy source.
This document is to be used in conjunction with the engineering documents, if required by the engineering authority.
|
Under development |
|
Edition : 1 |
Number of pages : 14 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM DIS 52945 |
Additive manufacturing for automotive — Qualification principles — Generic machine evaluation and specification of key performance indicators for PBF-LB/M processes |
This document defines the methodology for generic AM-machine evaluation in automotive
environment using objective test criteria and provides the framework for an objective AMmachine
evaluation and comparison. This document finds application in benchmarks,
preparation of purchase decisions, but also AM-machine evaluation within the machine
procurement, acceptance, and qualification process. The methodology and performance
characteristics are introduced to enable evaluation on an objective and quantitative basis. The
documentation resulting from the AM-machine evaluation is used to obtain a reliable orientation
selection and evaluation of PBF-LB/M AM-machines.
Furthermore, this document specifies machine KPIs in the context of machine procurement,
production planning and production of PBF-LB/M components. It aims to reach a detailed
understanding between machine supplier and machine customer with respect to the acceptance
criteria during the procurement process and evaluation of machine performance during running
production.
This document is applicable to the additive manufacturing technology LPBF-M defined in
ISO/ASTM 52900.
|
Under development |
|
Edition : 1 |
Number of pages : 22 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM 52950:2021 |
Additive manufacturing — General principles — Overview of data processing |
This document 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.
This document
— 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 this document.
This document 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:
— producers 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.
|
Published |
2021-01 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM DTR 52952 |
Additive manufacturing of metals — Feedstock materials — Correlating of rotating drum measurement with powder spreadability in PBF-LB machines |
|
Under development |
|
Edition : 1 |
Number of pages : 15 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO 13399-1:2006/Cor 2:2011 |
Cutting tool data representation and exchange — Part 1: Overview, fundamental principles and general information model — Technical Corrigendum 2 |
|
Published |
2011-03 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/ASTM DIS 52953 |
Additive manufacturing for metals — General principles — Registration of geometric data acquired from process-monitoring and for quality control |
This document sets and defines the minimum requirements for registration of geometric data acquired from process-monitoring and for quality control in Additive Manufacturing (AM), including the description of a procedure.
Furthermore, this document comprises actions that users need to register multi-modal AM data and store them in an appropriate repository.
This document is not applicable for the following types of data: data cleansing, image processing, cost, production time and personnel.
This document in only applicable for geometric data gathered and generated from non-destructive test methods and sensors by using X-ray Computer Tomography (XCT), cameras and Coordinate Measuring Machines (CMM).
This document is only applicable to metals produced through means of Laser-based powder bed fusion (PBF-LB) and Direct Energy Deposition (DED).
Note: The procedure can be applied to monitor other AM processes and materials (e.g. polymer or ceramic power bed fusion, binder jetting, and photopolymerization), but this document does not provide any data or case studies for them.
|
Under development |
|
Edition : 1 |
Number of pages : 21 |
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM CD 52957 |
Additive Manufacturing — Design — Parts using ceramic materials |
This standard is aimed at product planners and designers who want to use parts made of ceramic materials. It provides the necessary basic knowledge about ceramic parts and the special possibilities of additive manufacturing of ceramics. Therefore, more in-depth previous knowledge in these areas is not assumed.
|
Under development |
|
Edition : 1 |
|
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM CD 52958 |
Additive Manufacturing of Metals — Powder Bed Fusion (PBF) — Best Practice for In-Situ Flaw Detection and Analysis for Laser-based PBF |
In this document, a workflow that includes experimental procedures and flaw (imperfection) detection algorithms to identify the location of flaws created during the powder bed fusion-laser-based (PBF-LB) process of metals is explained. These flaws may have detrimental effects on the printed part mechanical performance.
In this practice, only guidelines and workflow for coaxial photodiode-based in-situ monitoring as well as the associated statistical and machine learning flaw detection algorithms are provided.
This practice does not address the security risks associated with manufacturing and environmental information. It is the responsibility of the user to follow practices and establish appropriate information technology related security measures.
WARNING - 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 appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.
|
Under development |
|
Edition : 1 |
|
Technical Committee |
25.030
Additive manufacturing
|
| ISO/ASTM CD 52959 |
Additive Manufacturing — Test Artifacts — Compression Validation Coupons for Lattice Designs |
This document defines testing coupons and methods for the evaluation of the compression strength of AM lattice designs. The standardized test coupons will accommodate the application of a variety of lattice designs, while standardizing the evaluation method.
This document is generally intended to be used in validation or verification activities for an additively manufactured component that incorporates a lattice or porous (non-solid) design.
Details may include limits or requirements for minimum repeated elements and relative dimensions of the specimen.
Note: Due to inherent variability across the manufacturing of AM components, evaluation methods are needed. Specifically, when an eventual component is intended to be subjected to compressive loads, a representative testing coupon is needed to represent the component to undergo destructive evaluation as a surrogate for the component itself.
|
Under development |
|
Edition : 1 |
|
Technical Committee |
25.030
Additive manufacturing
|
| ISO/IEC Guide 77-1:2008 |
Guide for specification of product properties and classes — Part 1: Fundamental benefits |
ISO/IEC Guide 77 provides recommendations for standardization committees for the description of products and their properties for the creation of computer processable product libraries, catalogues and reference dictionaries. This description will provide the details of the products and their properties in an unambiguous manner capable of computer communication, in a form that is independent from any proprietary application software.
ISO/IEC Guide 77 is intended to assist the objective of enabling the flow of technical information between internal and external business partners in a cost-effective and timely manner.
The guidance given in ISO/IEC Guide 77-1:2008 is intended to assist convenors and members of ISO and IEC Technical Committees, as well as managers and technical experts in the manufacturing industry.
ISO/IEC Guide 77-1:2008 is intended to provide an overview of the needs and benefits and the process of creating product libraries, catalogues and reference dictionaries. The following are within the scope of ISO/IEC Guide 77-1:2008:
international standardization activities related to reference dictionaries;
benefits of reference dictionaries to International Standards;
a procedure for creating reference dictionaries;
resources required;
assessment of savings;
sources of information and expertise.
The following are outside the scope of ISO/IEC Guide 77-1:2008:
technical guidance for the creation of product libraries and dictionaries;
case studies from experiences in the creation of dictionaries of product information in industrial practice.
Reference dictionaries can be useful in the context of product data in the supply chain, as well as in the business context of product data management.
ISO/IEC Guide 77-1:2008 is for guidance only and is intended to support activities such as education.
|
Published |
2008-02 |
Edition : 1 |
Number of pages : 14 |
Technical Committee |
25.040.40
Industrial process measurement and control
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-2:2005 |
Cutting tool data representation and exchange — Part 2: Reference dictionary for the cutting items |
ISO/TS 13399-2:2005 specifies a reference dictionary for cutting items, together with their descriptive properties and domains of values, for use in cutting tool data representation. The reference dictionary contains definitions and identifications of the classes of cutting items and their features, together with an associated classification scheme, definitions and identifications of the data element types that represent the properties of cutting items and their features, and definitions and identifications of domains of values for describing those data element types.
It is applicable to standard data that represent the various classes of cutting items and cutting item features, standard data that represent the various properties of cutting items and cutting item features, standard data that represent domains of values used for properties of cutting items and cutting item features, definitions of reference systems for cutting items and their properties, and an implementation method by which the standard data defined in this Technical Specification may be exchanged, specified in ISO 10303-21.
It is not applicable to applications where these standard data may be stored or referenced, implementation methods other than the one defined in this Technical Specification by which the standard data may be exchanged and referenced, information model for cutting tools, definitions of classes and properties for tool items, definitions of classes and properties for adaptive items, or definitions of classes and properties for assembly items and auxiliary items.
|
Withdrawn |
2005-02 |
Edition : 1 |
Number of pages : 98 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/IEC Guide 77-2:2008 |
Guide for specification of product properties and classes — Part 2: Technical principles and guidance |
ISO/IEC Guide 77 provides general advice and guidance for the description of products and their characteristics by the use of the ISO 13584 and IEC 61360 series of standards for the creation of computer-processable reference dictionaries. This description will provide the details of the products and their properties in an unambiguous manner capable of computer communication, in a form that is independent from any proprietary application software.
ISO/IEC Guide 77 is intended to assist the objective of enabling the flow of technical information between internal and external business partners in a cost-effective and timely manner.
The guidance given in ISO/IEC Guide 77-2:2008 contains technical recommendations intended to assist standardization committees and technical experts contributing their knowledge to the development of standard reference dictionaries compliant with the common ISO 13584/IEC 61360 dictionary model.
It might also be useful for information experts responsible for the exchange of technical information between business partners or for the generation of applications of ISO 13584 and IEC 61360.
ISO/IEC Guide 77-2:2008 is intended to support the achievement of industrial benefits of applications of the common ISO 13584/IEC 61360 dictionary model. The following are within the scope of ISO/IEC Guide 77-2:2008:
general principles of product description and characterization;
presentation of the concepts of product characterization classes, product properties, product ontology and reference dictionaries for products;
universal identification of classes and properties;
presentation of the modelling constructs that can be used for building reference dictionaries conforming to the common ISO 13584/IEC 61360 dictionary model;
rules and principles for developing standard reference dictionaries;
rules and principles for connecting standard reference dictionaries to avoid duplication and overlap;
rules and principles for developing user-defined reference dictionaries and for connecting user-defined reference dictionaries to standard reference dictionaries;
formats and mechanisms for exchanging reference dictionaries;
mechanisms for connecting reference dictionaries to classification systems.
The following are outside the scope of ISO/IEC Guide 77-2:2008:
an overview for ISO and IEC Technical Committees and industrial managers for the development of computer-processable product libraries, reference dictionaries and catalogues;
case studies from experiences in the creation of reference dictionaries of product information in industrial practice;
categorization of products for purposes other than product characterization.
|
Published |
2008-09 |
Edition : 1 |
Number of pages : 33 |
Technical Committee |
25.040.40
Industrial process measurement and control
;
35.240.50
IT applications in industry
|
| ISO/IEC Guide 77-3:2008 |
Guide for specification of product properties and classes — Part 3: Experience gained |
ISO/IEC Guide 77-3:2008 provides general advice and guidance for the description of products and their characteristics by the use of ISO 13584 and IEC 61360 for the creation of computer processable product libraries, catalogues and reference dictionaries. This description will provide the details of the products and their properties in an unambiguous manner, capable of computer communication in a form that is independent of any proprietary application software. The term “product” is taken to include devices, processes, systems, installations, etc. ISO/IEC Guide 77-3:2008 is intended to assist in the objective of enabling the flow of technical information between internal and external business partners in a cost effective and timely manner.
The guidance in ISO/IEC Guide 77-3:2008 is intended to assist the following groups:
convenors and members of ISO technical committees;
technical experts contributing their knowledge to the development of reference dictionaries, data bases and product libraries;
information experts responsible for the generation of applications of ISO 13584, particularly related to standardized reference dictionaries;
managers and technical experts in the manufacturing industry.
ISO/IEC Guide 77-3:2008 is intended to provide practical information of the experience gained in the creation of product reference dictionaries within ISO and IEC. ISO/IEC Guide 77-3:2008 is intended for information only, in areas such as education.
The following are within the scope of ISO/IEC Guide 77-3:2008:
experience of developing a reference dictionary for cutting tools;
experience of developing a reference dictionary for electronic components;
experience of creating a system for the maintenance of a reference dictionary for measuring instruments;
experience of developing a reference dictionary for fasteners.
The following are outside the scope of ISO/IEC Guide 77-3:2008:
an overview for ISO technical committees and industrial managers for the development of computer-processable product libraries, reference dictionaries and catalogues;
technical guidance for the creation of product libraries and dictionaries.
|
Published |
2008-03 |
Edition : 1 |
Number of pages : 55 |
Technical Committee |
25.040.40
Industrial process measurement and control
;
35.240.50
IT applications in industry
|
| ISO/IEC 2382-24:1995 |
Information technology — Vocabulary — Part 24: Computer-integrated manufacturing |
Defines concepts related to computer-integrated manufacturing.
|
Withdrawn |
1995-12 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
01.040.35
Information technology (Vocabularies)
;
35.240.50
IT applications in industry
|
| ISO 7462:1985 |
Shipbuilding — Principal ship dimensions — Terminology and definitions for computer applications |
Defines terms for quantities used as input to, and output from, computer programs for shipbuilding. Establishes terminology and definitions also for derived non-dimensional coefficients used in describing ships' hulls and their hydrostatic conditions.
|
Published |
1985-02 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
01.040.47
Shipbuilding and marine structures (Vocabularies)
;
35.240.50
IT applications in industry
;
47.020.01
General standards related to shipbuilding and marine structures
|
| ISO 7463:1990 |
Shipbuilding and marine structures — Symbols for computer applications |
|
Withdrawn |
1990-09 |
Edition : 1 |
Number of pages : 29 |
Technical Committee |
01.075
Character symbols
;
35.240.50
IT applications in industry
;
47.020.01
General standards related to shipbuilding and marine structures
|
| ISO 13399-1:2006 |
Cutting tool data representation and exchange — Part 1: Overview, fundamental principles and general information model |
ISO 13399-1:2006 covers the main categories of cutting tool data and the relationships between them. It provides a general information model of data representation and information exchange for these categories, as well as an overview of the principles of product data exchange used in ISO 13399 as a whole, a description of the other parts of ISO 13399 and a method for transferring cutting tool data.
|
Published |
2006-02 |
Edition : 1 |
Number of pages : 284 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO 13399-1:2006/Amd 1:2010 |
Cutting tool data representation and exchange — Part 1: Overview, fundamental principles and general information model — Amendment 1 |
|
Published |
2010-05 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO 13399-1:2006/Cor 1:2008 |
Cutting tool data representation and exchange — Part 1: Overview, fundamental principles and general information model — Technical Corrigendum 1 |
|
Published |
2008-01 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-2:2005/Cor 1:2011 |
Cutting tool data representation and exchange — Part 2: Reference dictionary for the cutting items — Technical Corrigendum 1 |
|
Withdrawn |
2011-03 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-2:2014 |
Cutting tool data representation and exchange — Part 2: Reference dictionary for the cutting items |
ISO/TS 13399-2:2014 specifies a reference dictionary for cutting items, together with their descriptive properties and domains of values, containing definitions and identifications of the classes of cutting items and their features, with an associated classification scheme, definitions and identifications of the data element types that represent the properties of cutting items and their features, and definitions and identifications of domains of values for describing those data element types.
|
Withdrawn |
2014-02 |
Edition : 2 |
Number of pages : 104 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-2:2021 |
Cutting tool data representation and exchange — Part 2: Reference dictionary for the cutting items |
This document specifies a reference dictionary for cutting items, together with their descriptive properties and domains of values.
This document specifies a reference dictionary containing:
— definitions and identifications of the classes of cutting items and their features, with an associated classification scheme;
— definitions and identifications of the data element types that represent the properties of cutting items and their features;
— definitions and identifications of domains of values for describing the above-mentioned data element types.
The following are within the scope of this document:
— standard data that represent the various classes of cutting items and cutting item features;
— standard data that represent the various properties of cutting items and cutting item features;
— standard data that represent domains of values used for properties of cutting items and cutting item features;
— definitions of reference systems for cutting items and their properties;
— one implementation method by which the standard data defined in this document can be exchanged.
NOTE 1 The implementation method by which the standard data defined in this document can be exchanged is specified in ISO 10303-21.
The following are outside the scope of this document:
— applications where these standard data can be stored or referenced;
— implementation methods other than the one defined in this document by which the standard data can be exchanged and referenced;
— information model for cutting tools;
— definitions of classes and properties for tool items;
— definitions of classes and properties for adaptive items;
— definitions of classes and properties for assembly items and auxiliary items.
NOTE 2 The information model for cutting tools is defined in ISO 13399-1.
NOTE 3 The definitions of classes and properties for tool items, adaptive items, assembly items, and auxiliary items are provided in ISO/TS 13399-3, ISO/TS 13399-4, and ISO/TS 13399-5, respectively.
|
Published |
2021-11 |
Edition : 3 |
Number of pages : 201 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-3:2007 |
Cutting tool data representation and exchange — Part 3: Reference dictionary for tool items |
ISO 13399-3:2007 specifies a reference dictionary for tool items, together with their descriptive properties and domains of values. It specifies a reference dictionary that contains definitions and identifications of the classes of tool items and their features, with an associated classification scheme, definitions and identifications of the data element types that represent the properties of tool items and their features, and definitions and identifications of domains of values for describing the above data element types.
The following is within the scope of ISO 13399-3:2007: standard data that represent the various classes of tool items and tool item features; standard data that represent the various properties of tool items and tool item features; standard data that represent domains of values used for properties of tool items and tool item features; a single implementation method by which the standard data defined in ISO 13399-3:2007 can be exchanged (see ISO 10303-21).
The following is not within its scope: specialized or expert knowledge on the design and use of cutting tools; rules used to determine the information that should be communicated; applications where these standard data may be stored or referenced; implementation methods other that the one defined in ISO 13399-3:2007 by which the standard data can be exchanged and referenced; information models for cutting tools; definitions of classes and properties for cutting items, adaptive items, assembly items, reference systems and common concepts, or for connection systems, these being covered by other parts of ISO 13399.
|
Withdrawn |
2007-01 |
Edition : 1 |
Number of pages : 160 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-3:2007/Cor 1:2011 |
Cutting tool data representation and exchange — Part 3: Reference dictionary for tool items — Technical Corrigendum 1 |
|
Withdrawn |
2011-03 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-3:2014 |
Cutting tool data representation and exchange — Part 3: Reference dictionary for tool items |
ISO/TS 13399-3:2014 specifies a reference dictionary for tool items, together with their descriptive properties and domains of values, containing definitions and identifications of the classes of tool items and their features, with an associated classification scheme, definitions and identifications of the data element types that represents the properties of tool items and their features, and definitions and identifications of domains of values for describing those data element types.
|
Withdrawn |
2014-02 |
Edition : 2 |
Number of pages : 140 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-3:2021 |
Cutting tool data representation and exchange — Part 3: Reference dictionary for tool items |
This document specifies a reference dictionary for tool items, together with their descriptive properties and domains of values.
This document specifies a reference dictionary containing:
— definitions and identifications of the classes of tool items and their features, with an associated classification scheme;
— definitions and identifications of the data element types that represents the properties of tool items and their features;
— definitions and identifications of domains of values for describing the above-mentioned data element types.
The following are within the scope of this document:
— standard data that represent the various classes of tool items and tool item features;
— standard data that represent the various properties of tool items and tool item features;
— standard data that represent domains of values used for properties of tool items and tool item features;
— definition of cutting operations;
— definitions of reference systems for tool items and their properties;
— one implementation method by which the standard data defined in this document can be exchanged.
NOTE 1 The implementation method by which the standard data defined in this document can be exchanged is specified in ISO 10303-21.
The following are outside the scope of this document:
— specialized or expert knowledge in the design and use of cutting tools;
— rules to determine what information should be communicated;
— applications where these standard data can be stored or referenced;
— implementation methods other than the one defined in this document by which the standard data can be exchanged and referenced;
— information model for cutting tools;
— definitions of classes and properties for cutting items;
— definitions of classes and properties for adaptive items;
— definitions of classes and properties for assembly items;
— definitions of classes and properties for connection systems;
— definitions of classes and properties for reference systems.
NOTE 2 The information model for cutting tools is defined in ISO 13399-1.
NOTE 3 The definitions of classes and properties for cutting items, adaptive items, and assembly items are provided in ISO/TS 13399-2, ISO/TS 13399-4, and ISO/TS 13399-5, respectively.
NOTE 4 The definitions of classes and properties for connection systems and reference systems are provided in ISO/TS 13399-50.
|
Published |
2021-11 |
Edition : 3 |
Number of pages : 461 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO 15787:2016 |
Technical product documentation — Heat-treated ferrous parts — Presentation and indications |
ISO 15787:2016 specifies the manner of presenting and indicating the final condition of heat‐treated ferrous parts in technical drawings.
|
Published |
2016-09 |
Edition : 2 |
Number of pages : 33 |
Technical Committee |
25.200
Heat treatment
;
01.100.20
Mechanical engineering drawings
|
| ISO/TS 13399-4:2007 |
Cutting tool data representation and exchange — Part 4: Reference dictionary for adaptive items |
ISO/TS 13399-4:2007 specifies a reference dictionary for adaptive items, together with their descriptive properties and domains of values. The reference dictionary contains definitions and identifications of the classes of adaptive items, with an associated classification scheme, definitions and identifications of the data element types that represent the properties of adaptive items, and definitions and identifications of domains of values for describing the above data element types.
The following is within the scope of ISO/TS 13399-4:2007: standard data that represent the various classes of adaptive items; standard data that represent the various properties of adaptive items; standard data that represent domains of values used for properties of adaptive items; a single implementation method by which the standard data defined in ISO/TS 13399-4:2007 can be exchanged (see ISO 10303-21).
The following is not within its scope: specialized or expert knowledge on the design and use of cutting tools; rules used to determine the information that should be communicated; applications where these standard data may be stored or referenced; implementation methods other that the one defined in ISO/TS 13399-4:2007 by which the standard data can be exchanged and referenced; information models for cutting tools; definitions of classes and properties for cutting items, tool items, assembly items, reference systems and common concepts, or for connection systems, these being covered by other parts of ISO 13399.
|
Withdrawn |
2007-01 |
Edition : 1 |
Number of pages : 60 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-4:2007/Cor 1:2011 |
Cutting tool data representation and exchange — Part 4: Reference dictionary for adaptive items — Technical Corrigendum 1 |
|
Withdrawn |
2011-03 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-4:2014 |
Cutting tool data representation and exchange — Part 4: Reference dictionary for adaptive items |
ISO/TS 13399-4:2014 specifies a reference dictionary for adaptive items, together with their descriptive properties and domains of values, containing definitions and identifications of the classes of adaptive items, with an associated classification scheme, definitions and identifications of the data element types that represents the properties of adaptive items, and definitions and identifications of domains of values for describing those data element types.
|
Withdrawn |
2014-02 |
Edition : 2 |
Number of pages : 56 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-4:2021 |
Cutting tool data representation and exchange — Part 4: Reference dictionary for adaptive items |
This document specifies a reference dictionary for adaptive items, together with their descriptive properties and domains of values.
This document specifies a reference dictionary containing:
— definitions and identifications of the classes of adaptive items, with an associated classification scheme;
— definitions and identifications of the data element types that represents the properties of adaptive items;
— definitions and identifications of domains of values for describing the above-mentioned data element types.
The following are within the scope of this document:
— standard data that represent the various classes of adaptive items;
— standard data that represent the various properties of adaptive items;
— standard data that represent domains of values used for properties of adaptive items;
— one implementation method by which the standard data defined in this document can be exchanged.
NOTE 1 The implementation method by which the standard data defined in this document can be exchanged is specified in ISO 10303-21.
The following are outside the scope of this document:
— specialized or expert knowledge in the design and use of cutting tools;
— rules to determine what information should be communicated;
— applications where these standard data can be stored or referenced;
— implementation methods other than the one defined in this document by which the standard data can be exchanged and referenced;
— information model for cutting tools;
— definitions of classes and properties for cutting items;
— definitions of classes and properties for tool items;
— definitions of classes and properties for assembly items;
— definitions of classes and properties for connection systems;
— definitions of classes and properties for reference systems.
NOTE 2 The information model for cutting tools is defined in ISO 13399-1.
NOTE 3 The definitions of classes and properties for cutting items, tool items, and assembly items are provided in ISO/TS 13399-2, ISO/TS 13399-3, and ISO/TS 13399-5.
NOTE 4 The definitions of classes and properties for connection systems and reference systems are provided in ISO/TS 13399-50.
|
Published |
2021-11 |
Edition : 3 |
Number of pages : 199 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-5:2007 |
Cutting tool data representation and exchange — Part 5: Reference dictionary for assembly items |
ISO/TS 13399-5:2007 specifies a reference dictionary for assembly items for cutting tools, together with their descriptive properties and domains of values. It specifies a reference dictionary that contains definitions and identifications of the classes of assembly items, with an associated classification scheme, definitions and identifications of the data element types that represent the properties of assembly items, and definitions and identifications of domains of values for describing the above data element types.
The following is within the scope of ISO/TS 13399-5:2007: standard data that represent the various classes of assembly items; standard data that represent the various properties of assembly items; standard data that represent domains of values used for properties of assembly items; a single implementation method by which the standard data defined in ISO/TS 13399-5:2007 can be exchanged (see ISO 10303-21).
The following is not within its scope: specialized or expert knowledge on the design and use of cutting tools; rules used to determine the information that should be communicated; applications where these standard data may be stored or referenced; implementation methods other than the one defined in ISO/TS 13399-5:2007 by which the standard data can be exchanged and referenced; information models for cutting tools; definitions of classes and properties for cutting items, tool items, adaptive items, reference systems and common concepts, or for connection systems, these being covered by other parts of ISO 13399; definitions of items for general engineering use that may be specified by other organizations and included in other dictionaries approved by ISO.
|
Withdrawn |
2007-03 |
Edition : 1 |
Number of pages : 54 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-5:2007/Cor 1:2011 |
Cutting tool data representation and exchange — Part 5: Reference dictionary for assembly items — Technical Corrigendum 1 |
|
Withdrawn |
2011-03 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-5:2014 |
Cutting tool data representation and exchange — Part 5: Reference dictionary for assembly items |
ISO/TS 13399-5:2014 specifies a reference dictionary for items used to assemble cutting tools, together with their descriptive properties and domains of values, containing definitions and identifications of the classes of assembly items, with an associated classification scheme, definitions and identifications of the data element types that represents the properties of assembly items, and definitions and identifications of domains of values for describing those data element types.
|
Published |
2014-02 |
Edition : 2 |
Number of pages : 51 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TR 24464:2020 |
Automation systems and integration — Industrial data — Visualization elements of digital twins |
This document analyses visualization elements that are key components of the interface between the physical asset and the avatar (digital replica of the physical asset).
|
Published |
2020-11 |
Edition : 1 |
Number of pages : 19 |
Technical Committee |
25.040.40
Industrial process measurement and control
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-50:2007 |
Cutting tool data representation and exchange — Part 50: Reference dictionary for reference systems and common concepts |
ISO/TS 13399-50:2007 specifies a reference dictionary for reference systems and common concepts for cutting tools, together with their descriptive properties and domains of values. The reference dictionary contains definitions and identifications of the classes of reference systems and common concepts for cutting tools, with an associated classification scheme, definitions and identifications of the data element types that represent the properties of reference systems and common concepts for cutting tools, and definitions and identifications of domains of values for describing the above data element types.
The following is within the scope of ISO/TS 13399-50:2007: standard data that represent the various classes of reference systems and common concepts for cutting tools; standard data that represent the various properties of reference systems and common concepts for cutting tools; standard data that represent domains of values used for properties of reference systems and common concepts for cutting tools; a single implementation method by which the standard data defined in ISO/TS 13399-50:2007 can be exchanged (see ISO 10303-21).
The following is not within its scope: specialized or expert knowledge on the design and use of cutting tools; rules used to determine the information that should be communicated; applications where these standard data may be stored or referenced; implementation methods other that the one defined in ISO/TS 13399-50:2007 by which the standard data can be exchanged and referenced; information models for cutting tools; definitions of classes and properties for cutting items, tool items, assembly items, adaptive items, or for connection systems, these being covered by other parts of ISO 13399.
|
Withdrawn |
2007-01 |
Edition : 1 |
Number of pages : 89 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-50:2007/Cor 1:2011 |
Cutting tool data representation and exchange — Part 50: Reference dictionary for reference systems and common concepts — Technical Corrigendum 1 |
|
Withdrawn |
2011-03 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-50:2013 |
Cutting tool data representation and exchange — Part 50: Reference dictionary for reference systems and common concepts |
ISO 13399-50:2013 specifies a reference dictionary for reference systems for cutting tools, together with their descriptive properties and domains of values.
ISO 13399-50:2013 specifies a reference dictionary containing:
definitions and identifications of the classes of reference systems for cutting tools, with an associated classification scheme;
definitions and identifications of the data element types that represent the properties of reference systems for cutting tools;
definitions and identifications of domains of values for describing the above-mentioned data element types.
The following are within the scope of ISO 13399-50:2013: standard data that represent the various classes of connection systems for cutting tools; standard data that represent the various properties of connection systems for cutting tools; standard data that represent domains of values used for properties of connection systems for cutting tools; standard data that represent the various classes of reference systems for cutting tools; standard data that represent the various properties of reference systems for cutting tools; standard data that represent domains of values used for properties of reference systems for cutting tools; one implementation method by which the standard data defined in ISO 13399-50:2013 can be exchanged (ISO 10303-21).
|
Published |
2013-12 |
Edition : 2 |
Number of pages : 126 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-60:2007 |
Cutting tool data representation and exchange — Part 60: Reference dictionary for connection systems |
ISO/TS 13399-60:2007 specifies a reference dictionary for connection systems for cutting tools, together with their descriptive properties and domains of values. The reference dictionary contains definitions and identifications of the classes of connection systems for cutting tools, with an associated classification scheme, definitions and identifications of the data element types that represent the properties of connection systems for cutting tools, and definitions and identifications of domains of values for describing the above data element types.
The following is within the scope of ISO/TS 13399-60:2007: standard data that represent the various classes of connection systems for cutting tools; standard data that represent the various properties connection systems for cutting tools; standard data that represent domains of values used for properties of connection systems for cutting tools; a single implementation method by which the standard data defined in ISO/TS 13399-60:2007 can be exchanged (see ISO 10303-21).
The following is not within its scope: specialized or expert knowledge on the design and use of cutting tools; rules used to determine the information that should be communicated; applications where these standard data may be stored or referenced; implementation methods other that the one defined in ISO/TS 13399-60:2007 by which the standard data can be exchanged and referenced; information models for cutting tools; definitions of classes and properties for cutting items, tool items, assembly items, adaptive items, or for reference systems and common concepts, these being covered by other parts of ISO 13399.
|
Withdrawn |
2007-01 |
Edition : 1 |
Number of pages : 122 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-60:2007/Cor 1:2011 |
Cutting tool data representation and exchange — Part 60: Reference dictionary for connection systems — Technical Corrigendum 1 |
|
Withdrawn |
2011-03 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-60:2014 |
Cutting tool data representation and exchange — Part 60: Reference dictionary for connection systems |
ISO/TS 13399-60:2014 specifies a reference dictionary for connection systems for cutting tools, together with their descriptive properties and domains of values, and the structure of interface codes containing definitions and identifications of the classes of connection systems, with an associated classification scheme, definitions and identifications of the data element types that represent the properties of connection systems, definitions and identifications of domains of values for describing those data element types, definitions and structure of the value entry of the properties of interface codes that are defined, and rules for the structure of these properties to be able to communicate between systems.
|
Published |
2014-02 |
Edition : 2 |
Number of pages : 138 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO 9415:1989 |
Woodworking machines — Wide belt sanding machines — Nomenclature |
Specifies the nomenclature appopriate to the various parts of these wide belt sanding machines in order to assist manufacturers and users in the identification of these parts. Gives in addition to terms used in two of the three official ISO languages (English and French) the equivalent terms in the German, Spanish and Italian languages.
|
Withdrawn |
1989-05 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
01.040.79
Wood technology (Vocabularies)
;
79.120.10
Woodworking machines
|
| ISO/TS 13399-70:2016 |
Cutting tool data representation and exchange — Part 70: Graphical data layout — Layer setting for tool layout |
ISO/TS 13399-70:2016 is intended to be used for the design of tool layouts for the simulation and the documentation of cutting tool components and cutting tool assemblies. It can be used in connection and correlation with other parts of ISO/TS 13399.
The main purpose of this layer structure is the graphical layout of cutting tool components and cutting tool assemblies to be used within tool pre-setting, NC programming and the simulation of processes, as well as for the design of the machining equipment layout.
The common concept of the BMG (building model generation) layer structure has been extended with more layer definitions for universal use. ISO/TS 13399-70:2016 is applicable for a new layout; old, existing data files are not updated to this level. The use of ISO/TS 13399-70:2016 in terms of change management of existing cutting tool layout is at the manufacturer's discretion.
The extent of the dimensioning is limited to the number of dimensions that are also populated within manufacturer's or distributer's catalogues. The manufacturer determines the level of details and is understood as tool specific.
As the 3D-simulation systems proceed with stock removal, it is differentiated between cutting and non-cutting tool components. Also, the data concept includes the rules of zero points and mounting points for non-rotating tools (lathe tools).
|
Published |
2016-07 |
Edition : 1 |
Number of pages : 49 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-71:2016 |
Cutting tool data representation and exchange — Part 71: Graphical data layout — Creation of documents for standardized data exchange: Graphical product information |
ISO/TS 13399-71:2016 determines the elements to be used for the creation of 2D documentation. The individual parts of documentation are drawing content, geometrical data, drawing frame and drawing header data as shown in Figure 1.
The standardization of drawing formats, e.g. drawing frame, structure of the bill of material, are out of the scope of ISO/TS 13399-71:2016. Furthermore, it is intended to standardize the data exchange of the product documentation.
It specifies a common way for the basic principles for the creation of product documentation that contain the following:
- definitions and identifications of the elements of a product documentation;
- definitions and identifications of the internal structure of the product documentation;
- definitions and identifications of those elements and features that are necessary to show the protection notices and the copyrights of the originator of the document.
The following are outside the scope of ISO/TS 13399-71:2016:
- layer settings as defined in ISO/TS 13399‑70;
- structure of the data exchange file using extensible mark-up language (XML);
- applications where these standard data may be stored or referenced;
- concept of the classification of cutting tool data and their properties;
- concept of the design of 2D drawings for cutting tools;
- concept of the design of 3D models for cutting tools;
- application data for the use of those cutting tools;
- information about the reconditioning of cutting tools;
- information about additional application and usage data (e.g. coolant supply).
|
Published |
2016-07 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-72:2016 |
Cutting tool data representation and exchange — Part 72: Creation of documents for the standardized data exchange — Definition of properties for drawing header and their XML-data exchange |
ISO/TS 13399-72:2016 defines the necessary text elements of a drawing frame and determines a standardized data exchange format. Therefore, the effort is reduced for the maintenance of documentation because the content of a drawing header is mated into a specific drawing frame by means of using XML technology and an individual mapping table. The benefit of this concept for manufacturer/supplier and end user is the advantage of a central maintenance of the appropriate templates.
It covers the following:
- identification and definition of the data fields;
- identification and definition of the structure of the data fields;
- structure of the data exchange file.
The standardization of drawing formats, e.g. drawing frame, structure of the bill of material, are outside the scope of ISO/TS 13399-72:2016 which is rather more intended to standardize the data exchange of the product documentations.
The following are outside the scope of ISO/TS 13399-72:2016;
- layer settings as defined in ISO/TS 13399‑70;
- structure of the tool documentation as defined in ISO/TS 13399‑71;
- applications where these standard data may be stored or referenced;
- concept of the classification of cutting tool data and their properties;
- concept of the design of 2D drawings for cutting tools;
- concept of the design of 3D models for cutting tools;
- application data for the use of those cutting tools;
- information about the reconditioning of cutting tools;
- information about additional application and usage data (e.g. coolant supply).
|
Published |
2016-07 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-80:2014 |
Cutting tool data representation and exchange — Part 80: Creation and exchange of 3D models — Overview and principles |
ISO 13399-80:2014 specifies the basic principles for the creation and exchange of simplified 3D models of cutting items, tool items, and adaptive items, using related properties and domains of values. Simplified 3D models contain the following: naming and defining of the basic design features of cutting items, tool items, and adaptive items, with an association to the used properties; naming and defining of the internal structure of the 3D model that represents the features and the properties of cutting items, tool items, and adaptive items; naming and defining of those elements and features that are not defined in ISO/TS 13399‑50, but are necessary to design 3D models.
The following are outside the scope of ISO 13399-80:2014: applications where these standard data may be stored or referenced; creation and exchange of simplified 3D models for cutting tools; creation and exchange of simplified 3D models for tool items; creation and exchange of simplified 3D models for adaptive items; creation and exchange of simplified 3D models for assembly items and auxiliary items.
|
Withdrawn |
2014-07 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|
| ISO/ASTM 52915:2013 |
Standard specification for additive manufacturing file format (AMF) Version 1.1 |
ISO/ASTM 52915:2013 describes a framework for an interchange format to address the current and future needs of additive manufacturing technology. For the last three decades, the STL file format has been the industry standard for transferring information between design programs and additive manufacturing equipment. An STL file contains information only about a surface mesh and has no provisions for representing color, texture, material, substructure, and other properties of the fabricated target object. As additive manufacturing technology is quickly evolving from producing primarily single-material, homogenous shapes to producing multimaterial geometries in full colour with functionally graded materials and microstructures, there is a growing need for a standard interchange file format that can support these features.
|
Withdrawn |
2013-06 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
25.030
Additive manufacturing
;
35.240.50
IT applications in industry
|
| ISO/TS 13399-80:2017 |
Cutting tool data representation and exchange — Part 80: Creation and exchange of 3D models — Overview and principles |
ISO/TS 13399-80:2017 specifies the basic principles for the creation and exchange of simplified 3D models of cutting items, tool items, and adaptive items, using related properties and domains of values.
Simplified 3D models contain the following:
- naming and defining of the basic design features of cutting items, tool items, and adaptive items, with an association to the used properties;
- naming and defining of the internal structure of the 3D model that represents the features and the properties of cutting items, tool items, and adaptive items;
- naming and defining of those elements and features that are not defined in ISO/TS 13399‑50, but are necessary to design 3D models.
The following are outside the scope of this document:
- applications where these standard data may be stored or referenced;
- creation and exchange of simplified 3D models for cutting tools;
- creation and exchange of simplified 3D models for tool items;
- creation and exchange of simplified 3D models for adaptive items;
- creation and exchange of simplified 3D models for assembly items and auxiliary items.
|
Published |
2017-05 |
Edition : 2 |
Number of pages : 34 |
Technical Committee |
25.100.01
Cutting tools in general
;
35.240.50
IT applications in industry
|