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17.040.30 - Measuring instruments

ICS 17.040.30 Details

Measuring instruments

Me?gerate fur Langen- und Winkelmessungen

Instruments de mesure

Merila

General Information

Parent
17.040 - Linear and angular measurements

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Standardization Organization
Technical Committee
Directive
Mandate
50
SIST
SIST EN ISO 3611:2023(Main)
Geometrical product specifications (GPS) - Dimensional measuring equipment - Design and metrological characteristics of micrometers for external measurements (ISO 3611:2023)
EN ISO 3611:2023

This document provides the most important design and metrological characteristics of micrometers for external measurements:
—    with analogue indication;
—    with digital indication: mechanical or electronic digital display.

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EN ISO 3611:2023(Main)
Geometrical product specifications (GPS) - Dimensional measuring equipment - Design and metrological characteristics of micrometers for external measurements (ISO 3611:2023)
SIST EN ISO 3611:2023

This document provides the most important design and metrological characteristics of micrometers for external measurements:
—    with analogue indication;
—    with digital indication: mechanical or electronic digital display.

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ISO
ISO 3611:2023(Main)
Geometrical product specifications (GPS) — Dimensional measuring equipment — Design and metrological characteristics of micrometers for external measurements

This document provides the most important design and metrological characteristics of micrometers for external measurements: — with analogue indication; — with digital indication: mechanical or electronic digital display.

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CEN
EN ISO 12179:2022(Main)
Geometrical product specifications (GPS) - Surface texture: Profile method - Calibration of contact (stylus) instruments (ISO 12179:2021)
SIST EN ISO 12179:2022

This document specifies the calibration and adjustment of the metrological characteristics of contact (stylus) instruments for the measurement of surface texture by the profile method as defined in ISO 3274. The calibration and adjustment is intended to be carried out with the aid of measurement standards.
Annex B specifies the calibration and adjustment of metrological characteristics of simplified operator contact (stylus) instruments which do not conform with ISO 3274.

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CEN
EN ISO 10360-13:2021(Main)
Geometrical product specifications (GPS) - Acceptance and reverification tests for coordinate measuring systems (CMS) - Part 13: Optical 3D CMS (ISO 10360-13:2021)
SIST EN ISO 10360-13:2021

This document specifies the acceptance tests for verifying the performance of an optical 3D coordinate measuring system (CMS) when measuring lengths as stated by the manufacturer. It also specifies the reverification tests that enable the user to periodically reverify the performance of the optical 3D CMS.
This document is applicable to verification of the measuring performance of CMSs if the surface characteristics (e.g. glossiness, colour) of the object to be scanned are restricted and within a cooperative range.
This document does not apply to other types of CMSs, including those covered by the other parts of the ISO 10360 series.

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CEN
EN ISO 10360-10:2021(Main)
Geometrical product specifications (GPS) - Acceptance and reverification tests for coordinate measuring systems (CMS) - Part 10: Laser trackers (ISO 10360-10:2021)
SIST EN ISO 10360-10:2021

This document specifies the acceptance tests for verifying the performance of a laser tracker by measuring calibrated test lengths, according to the specifications of the manufacturer. It also specifies the reverification tests that enable the user to periodically reverify the performance of the laser tracker. The acceptance and reverification tests given in this document are applicable to laser trackers utilizing a retroreflector, or a retroreflector in combination with a stylus or optical distance sensor, as a probing system. Laser trackers that use interferometric measurement (IFM), absolute distance measurement (ADM) or both can be verified using this document. This document can also be used to specify and verify the relevant performance tests of other spherical coordinate measurement systems that use cooperative targets, such as “laser radar” systems.
NOTE       Systems which do not track the target, such as laser radar systems, will not be tested for probing performance.
This document does not explicitly apply to measuring systems that do not use a spherical coordinate system. However, interested parties can apply this document to such systems by mutual agreement.
This document specifies:
—    performance requirements that can be assigned by the manufacturer or the user of the laser tracker;
—    the manner of execution of the acceptance and reverification tests to demonstrate the stated requirements;
—    rules for proving comformity;
—    applications for which the acceptance and reverification tests can be used.

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SIST
SIST ISO 12179:2022(Main)
Geometrical product specifications (GPS) - Surface texture: Profile method - Calibration of contact (stylus) instruments
ISO 12179:2021

This document specifies the calibration and adjustment of the metrological characteristics of contact (stylus) instruments for the measurement of surface texture by the profile method as defined in ISOÂ 3274. The calibration and adjustment is intended to be carried out with the aid of measurement standards.
Annex B specifies the calibration and adjustment of metrological characteristics of simplified operator contact (stylus) instruments which do not conform with ISO 3274.

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SIST
SIST EN ISO 12179:2022(Main)
Geometrical product specifications (GPS) - Surface texture: Profile method - Calibration of contact (stylus) instruments (ISO 12179:2021)
EN ISO 12179:2022

This document specifies the calibration and adjustment of the metrological characteristics of contact
(stylus) instruments for the measurement of surface texture by the profile method as defined in
ISO 3274. The calibration and adjustment is intended to be carried out with the aid of measurement
standards.
Annex B specifies the calibration and adjustment of metrological characteristics of simplified operator
contact (stylus) instruments which do not conform with ISO 3274.

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ISO
ISO 12179:2021(Main)
Geometrical product specifications (GPS) — Surface texture: Profile method — Calibration of contact (stylus) instruments
SIST ISO 12179:2022

This document specifies the calibration and adjustment of the metrological characteristics of contact (stylus) instruments for the measurement of surface texture by the profile method as defined in ISO 3274. The calibration and adjustment is intended to be carried out with the aid of measurement standards. Annex B specifies the calibration and adjustment of metrological characteristics of simplified operator contact (stylus) instruments which do not conform with ISO 3274.

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SIST
SIST EN ISO 10360-13:2021(Main)
Geometrical product specifications (GPS) - Acceptance and reverification tests for coordinate measuring systems (CMS) - Part 13: Optical 3D CMS (ISO 10360-13:2021)
EN ISO 10360-13:2021

This part of ISO 10360 specifies the acceptance tests for verifying the performance of an optical CMS
(coordinate measuring system) when measuring lengths as stated by the manufacturer. It also
specifies the reverification tests that enable the user to periodically reverify the performance of the
optical 3D CMS. An optical 3D CMS that this standard intends to specify is a contactless area
measuring sensor delivering 3D surface data in several individual single views by an optical measuring
principle and transforming it into a common coordinate system. Typical optical measuring principles are
pattern projection, fringe projection, and project-and-sweep a scanned line, or similar, delivering single
views without assistance of external information related to position and orientation between CMS and
objects to be scanned. Typical registration principle is based on a best fitting of commonly captured
position information across at least two different single views either or both by using reference targets
or surface features of objects to be scanned.

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SIST
SIST EN ISO 10360-10:2021(Main)
Geometrical product specifications (GPS) - Acceptance and reverification tests for coordinate measuring systems (CMS) - Part 10: Laser trackers (ISO 10360-10:2021)
EN ISO 10360-10:2021

This document specifies the acceptance tests for verifying the performance of a laser tracker by
measuring calibrated test lengths, according to the specifications of the manufacturer. It also specifies
the reverification tests that enable the user to periodically reverify the performance of the laser tracker.
The acceptance and reverification tests given in this document are applicable to laser trackers utilizing
a retroreflector, or a retroreflector in combination with a stylus or optical distance sensor, as a probing
system. Laser trackers that use interferometric measurement (IFM), absolute distance measurement
(ADM) or both can be verified using this document. This document can also be used to specify and
verify the relevant performance tests of other spherical coordinate measurement systems that use
cooperative targets, such as “laser radar” systems.
NOTE Systems which do not track the target, such as laser radar systems, will not be tested for probing
performance.
This document does not explicitly apply to measuring systems that do not use a spherical coordinate
system. However, interested parties can apply this document to such systems by mutual agreement.
This document specifies:
— performance requirements that can be assigned by the manufacturer or the user of the laser tracker;
— the manner of execution of the acceptance and reverification tests to demonstrate the stated
requirements;
— rules for proving comformity;
— applications for which the acceptance and reverification tests can be used.

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ISO
ISO 10360-13:2021(Main)
Geometrical product specifications (GPS) — Acceptance and reverification tests for coordinate measuring systems (CMS) — Part 13: Optical 3D CMS

This document specifies the acceptance tests for verifying the performance of an optical 3D coordinate measuring system (CMS) when measuring lengths as stated by the manufacturer. It also specifies the reverification tests that enable the user to periodically reverify the performance of the optical 3D CMS. This document is applicable to verification of the measuring performance of CMSs if the surface characteristics (e.g. glossiness, colour) of the object to be scanned are restricted and within a cooperative range. This document does not apply to other types of CMSs, including those covered by the other parts of the ISO 10360 series.

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ISO
ISO 10360-10:2021(Main)
Geometrical product specifications (GPS) — Acceptance and reverification tests for coordinate measuring systems (CMS) — Part 10: Laser trackers

This document specifies the acceptance tests for verifying the performance of a laser tracker by measuring calibrated test lengths, according to the specifications of the manufacturer. It also specifies the reverification tests that enable the user to periodically reverify the performance of the laser tracker. The acceptance and reverification tests given in this document are applicable to laser trackers utilizing a retroreflector, or a retroreflector in combination with a stylus or optical distance sensor, as a probing system. Laser trackers that use interferometric measurement (IFM), absolute distance measurement (ADM) or both can be verified using this document. This document can also be used to specify and verify the relevant performance tests of other spherical coordinate measurement systems that use cooperative targets, such as “laser radar” systems. NOTE Systems which do not track the target, such as laser radar systems, will not be tested for probing performance. This document does not explicitly apply to measuring systems that do not use a spherical coordinate system. However, interested parties can apply this document to such systems by mutual agreement. This document specifies: — performance requirements that can be assigned by the manufacturer or the user of the laser tracker; — the manner of execution of the acceptance and reverification tests to demonstrate the stated requirements; — rules for proving comformity; — applications for which the acceptance and reverification tests can be used.

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CEN
EN ISO 13385-2:2020(Main)
Geometrical product specifications (GPS) - Dimensional measuring equipment - Part 2: Design and metrological characteristics of calliper depth gauges (ISO 13385-2:2020)
SIST EN ISO 13385-2:2020

This document specifies the most important design and metrological characteristics of calliper depth gauges
—     with analogue indication: vernier scale or circular scale (dial); and
—     with digital indication: digital display.

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CEN
EN ISO 10360-5:2020(Main)
Geometrical product specifications (GPS) - Acceptance and reverification tests for coordinate measuring systems (CMS) - Part 5: Coordinate measuring machines (CMMs) using single and multiple stylus contacting probing systems using discrete point and/or scanning measuring mode (ISO 10360-5:2020)
SIST EN ISO 10360-5:2020

This document specifies acceptance and periodic reverification tests of CMM performance with contacting probing systems and is only applicable to CMMs using:
—     any type of contacting probing system; and
—     spherical or hemispherical stylus tip(s).
NOTE    CMM probing performance tests are specified by the maximum permissible errors (MPEs), due to the impracticality of isolating the performance of the probing system from that of the CMM, even on a small artefact such as a test sphere.
This document applies to CMMs supplied with any of the following:
a)   single-stylus probing systems;
b)   multi-stylus probing systems with fixed multiple styli attached to a single probe (e.g. "star" stylus);
c)   multiple probing systems such as those with a stylus for each of their probes;
d)   systems with articulating probing systems;
e)   stylus and probe changing systems;
f)    manual (non-driven) and automated CMMs;
g)   installations including a scanning probe, capable of being used in a scanning mode.
This document is not applicable to non-contacting probing systems, which require different testing procedures.
The term ?combined CMM and multi-stylus probing system size error' has been shortened to ?multi-stylus size error' for convenience. This applies in similar cases.
If it is desirable to isolate the probing system performance as far as is practical, the influence of the CMM can be minimized but not eliminated. See Annex C for more information.

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SIST
SIST EN ISO 13385-2:2020(Main)
Geometrical product specifications (GPS) - Dimensional measuring equipment - Part 2: Design and metrological characteristics of calliper depth gauges (ISO 13385-2:2020)
EN ISO 13385-2:2020

This document specifies the most important design and metrological characteristics of calliper
depth gauges
— with analogue indication: vernier scale or circular scale (dial); and
— with digital indication: digital display.

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ISO
ISO 13385-2:2020(Main)
Geometrical product specifications (GPS) — Dimensional measuring equipment — Part 2: Design and metrological characteristics of calliper depth gauges

This document specifies the most important design and metrological characteristics of calliper depth gauges — with analogue indication: vernier scale or circular scale (dial); and — with digital indication: digital display.

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SIST
SIST EN ISO 10360-5:2020(Main)
Geometrical product specifications (GPS) - Acceptance and reverification tests for coordinate measuring systems (CMS) - Part 5: Coordinate measuring machines (CMMs) using single and multiple stylus contacting probing systems using discrete point and/or scanning measuring mode (ISO 10360-5:2020)
EN ISO 10360-5:2020

This document specifies acceptance and periodic reverification tests of CMM performance with
contacting probing systems and is only applicable to CMMs using:
— any type of contacting probing system; and
— spherical or hemispherical stylus tip(s).
NOTE CMM probing performance tests are specified by the maximum permissible errors (MPEs), due to the
impracticality of isolating the performance of the probing system from that of the CMM, even on a small artefact
such as a test sphere.
This document applies to CMMs supplied with any of the following:
a) single-stylus probing systems;
b) multi-stylus probing systems with fixed multiple styli attached to a single probe (e.g. “star” stylus);
c) multiple probing systems such as those with a stylus for each of their probes;
d) systems with articulating probing systems;
e) stylus and probe changing systems;
f) manual (non-driven) and automated CMMs;
g) installations including a scanning probe, capable of being used in a scanning mode.
This document is not applicable to non-contacting probing systems, which require different testing
procedures.
The term ‘combined CMM and multi-stylus probing system size error’ has been shortened to ‘multistylus
size error’ for convenience. This applies in similar cases.
If it is desirable to isolate the probing system performance as far as is practical, the influence of the
CMM can be minimized but not eliminated. See Annex C for more information.

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ISO
ISO 10360-5:2020(Main)
Geometrical product specifications (GPS) — Acceptance and reverification tests for coordinate measuring systems (CMS) — Part 5: Coordinate measuring machines (CMMs) using single and multiple stylus contacting probing systems using discrete point and/or scanning measuring mode

This document specifies acceptance and periodic reverification tests of CMM performance with contacting probing systems and is only applicable to CMMs using: — any type of contacting probing system; and — spherical or hemispherical stylus tip(s). NOTE CMM probing performance tests are specified by the maximum permissible errors (MPEs), due to the impracticality of isolating the performance of the probing system from that of the CMM, even on a small artefact such as a test sphere. This document applies to CMMs supplied with any of the following: a) single-stylus probing systems; b) multi-stylus probing systems with fixed multiple styli attached to a single probe (e.g. "star" stylus); c) multiple probing systems such as those with a stylus for each of their probes; d) systems with articulating probing systems; e) stylus and probe changing systems; f) manual (non-driven) and automated CMMs; g) installations including a scanning probe, capable of being used in a scanning mode. This document is not applicable to non-contacting probing systems, which require different testing procedures. The term ?combined CMM and multi-stylus probing system size error' has been shortened to ?multi-stylus size error' for convenience. This applies in similar cases. If it is desirable to isolate the probing system performance as far as is practical, the influence of the CMM can be minimized but not eliminated. See Annex C for more information.

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CEN
EN ISO 13385-1:2019(Main)
Geometrical product specifications (GPS) - Dimensional measuring equipment - Part 1: Design and metrological characteristics of callipers (ISO 13385-1:2019)
SIST EN ISO 13385-1:2019

This document provides the most important design and metrological characteristics of callipers
—          with analogue indication: vernier scale or circular scale (dial), and
—          with digital indication: digital display.

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CEN
EN ISO 20170:2019(Main)
Geometrical product specifications (GPS) - Decomposition of geometrical characteristics for manufacturing control (ISO 20170:2019)
SIST EN ISO 20170:2019

This document describes principles and tools to control a manufacturing process in accordance with a GPS specification. For this purpose a set of one or more complementary, independent characteristics (size, form, orientation, and location characteristics independent to each other) that correlate to the manufacturing process parameters and to the manufacturing process coordinate system established from the manufacturing datum system are used.
This document describes the concept of decomposition of the macro-geometrical part of the GPS specification. It does not cover the micro-geometry, i.e. surface texture.
The objective of the decomposition presented in this document is to define correction values for manufacturing control or to perform a statistical analysis of the process.

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SIST EN ISO 13385-1:2019(Main)
Geometrical product specifications (GPS) - Dimensional measuring equipment - Part 1: Design and metrological characteristics of callipers (ISO 13385-1:2019)
EN ISO 13385-1:2019

This document provides the most important design and metrological characteristics of callipers - with analogue indication: vernier scale or circular scale (dial), and - with digital indication: digital display.

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ISO
ISO 13385-1:2019(Main)
Geometrical product specifications (GPS) — Dimensional measuring equipment — Part 1: Design and metrological characteristics of callipers

This document provides the most important design and metrological characteristics of callipers — with analogue indication: vernier scale or circular scale (dial), and — with digital indication: digital display.

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CEN
EN ISO 14978:2018(Main)
Geometrical product specifications (GPS) - General concepts and requirements for GPS measuring equipment (ISO 14978:2018)
SIST EN ISO 14978:2019

This document specifies the general requirements, calibration, terms and definitions of characteristics of GPS measuring equipment, for example micrometers, callipers, gauge blocks and rotary axis form measuring instruments. This document forms the basis for standards defining and describing the design characteristics and metrological characteristics for measuring equipment and gives guidance for the development and content of standards for GPS measuring equipment.
This document is intended to ease the communication between manufacturer/supplier and customer/user and to make the specification phase of GPS measuring equipment more accurate. This document is also intended as a tool to be used in companies in the process of defining and selecting relevant characteristics for measuring equipment.
This document includes terms which are frequently used in connection with the characterization of specific measuring equipment.

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SIST
SIST EN ISO 14978:2019(Main)
Geometrical product specifications (GPS) - General concepts and requirements for GPS measuring equipment (ISO 14978:2018)
EN ISO 14978:2018

This document specifies the general requirements, calibration, terms and definitions of characteristics
of GPS measuring equipment, for example micrometers, callipers, gauge blocks and rotary axis form
measuring instruments. This document forms the basis for standards defining and describing the
design characteristics and metrological characteristics for measuring equipment and gives guidance
for the development and content of standards for GPS measuring equipment.
This document is intended to ease the communication between manufacturer/supplier and customer/
user and to make the specification phase of GPS measuring equipment more accurate. This document
is also intended as a tool to be used in companies in the process of defining and selecting relevant
characteristics for measuring equipment.
This document includes terms which are frequently used in connection with the characterization of
specific measuring equipment.

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CEN
EN ISO 5458:2018(Main)
Geometrical product specifications (GPS) - Geometrical tolerancing - Pattern and combined geometrical specification (ISO 5458:2018)
SIST EN ISO 5458:2018

This document establishes complementary rules to ISO 1101 to be applied to pattern specifications and defines rules to combine individual specifications, for geometrical specifications e.g. using the symbols POSITION, SYMMETRY, LINE PROFILE and SURFACE PROFILE, as well as STRAIGHTNESS (in the case where the toleranced features are nominally coaxial) and FLATNESS (in the case where the toleranced features are nominally coplanar) as listed in Annex C.
These rules apply when a set of tolerance zones are grouped together with location or orientation constraints, through the use of the CZ, CZR or SIM modifiers.
This document does not cover the use of the pattern specifications when the least and maximum material requirement is applied (see ISO 2692).
This document does not cover the establishment of common datum (see ISO 5459) based on pattern features.

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ISO
ISO 14978:2018(Main)
Geometrical product specifications (GPS) — General concepts and requirements for GPS measuring equipment

This document specifies the general requirements, calibration, terms and definitions of characteristics of GPS measuring equipment, for example micrometers, callipers, gauge blocks and rotary axis form measuring instruments. This document forms the basis for standards defining and describing the design characteristics and metrological characteristics for measuring equipment and gives guidance for the development and content of standards for GPS measuring equipment. This document is intended to ease the communication between manufacturer/supplier and customer/user and to make the specification phase of GPS measuring equipment more accurate. This document is also intended as a tool to be used in companies in the process of defining and selecting relevant characteristics for measuring equipment. This document includes terms which are frequently used in connection with the characterization of specific measuring equipment.

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CEN
EN ISO 17450-4:2018(Main)
Geometrical product specifications (GPS) - Basic concepts - Part 4: Geometrical characteristics for quantifying GPS deviations (ISO 17450-4:2017)
SIST EN ISO 17450-4:2018

ISO 17450-4:2017 specifies general rules for quantifying GPS deviations for individual GPS characteristics.
NOTE       GPS deviations can be local or global. A GPS characteristic defined from local GPS deviations is a parameter that transforms the set of local deviations into a global characteristic using a quantifying function (for more details, see Table 1).

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CEN
EN ISO 14253-1:2017(Main)
Geometrical product specifications (GPS) - Inspection by measurement of workpieces and measuring equipment - Part 1: Decision rules for verifying conformity or nonconformity with specifications (ISO 14253-1:2017)
SIST EN ISO 14253-1:2018

ISO 14253-1:2017 establishes the rules for verifying the conformity or nonconformity with a given tolerance for a characteristic of a workpiece (or a population of workpieces) or with a given maximum permissible errors for a metrological characteristic of a measuring equipment, including when the measured value falls close to the specification limits, taking measurement uncertainty into account.
ISO 14253-1:2017 applies to specifications defined in general GPS standards (see ISO 14638), i.e. standards prepared by ISO/TC 213, including:
-      workpiece specifications and population specifications (usually given as an upper specification limit or a lower specification limit or both);
-      measuring equipment specifications (usually given as maximum permissible errors).
ISO 14253-1:2017 only applies for characteristics and maximum permissible errors expressed as quantity values.

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CEN
EN ISO 25178-71:2017(Main)
Geometrical product specifications (GPS) - Surface texture: Areal - Part 71: Software measurement standards (ISO 25178-1:2017)
SIST EN ISO 25178-71:2017

ISO 25178-71:2017 defines Type S1 and Type S2 software measurement standards (etalons) for verifying the software of measuring instruments. It also defines the file format of Type S1 software measurement standards for the calibration of instruments for the measurement of surface texture by the areal method as defined in the areal surface texture chain of standards, chain link G.
NOTE       Throughout ISO 25178-71:2017, the term "softgauge" is used as a substitute for "software measurement standard Type S1".

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SIST EN ISO 14253-1:2018(Main)
Geometrical product specifications (GPS) - Inspection by measurement of workpieces and measuring equipment - Part 1: Decision rules for proving conformity or nonconformity with specifications (ISO 14253-1:2017)
EN ISO 14253-1:2017

This document establishes the rules for verifying the conformity or nonconformity with a given
tolerance for a characteristic of a workpiece (or a population of workpieces) or with a given maximum
permissible errors for a metrological characteristic of a measuring equipment, including when the
measured value falls close to the specification limits, taking measurement uncertainty into account.
This document applies to specifications defined in general GPS standards (see ISO 14638), i.e. standards
prepared by ISO/TC 213, including:
— workpiece specifications and population specifications (usually given as an upper specification
limit or a lower specification limit or both);
— measuring equipment specifications (usually given as maximum permissible errors).
This document only applies for characteristics and maximum permissible errors expressed as
quantity values.

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CEN
EN ISO 25178-72:2017(Main)
Geometrical product specifications (GPS) - Surface texture: Areal - Part 72: XML file format x3p (ISO 25178-72:2017)
SIST EN ISO 25178-72:2017

ISO 25178-72:2017 defines the XML file format x3p for storage and exchange of topography and profile data.

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CEN
EN ISO 9013:2017(Main)
Thermal cutting - Classification of thermal cuts - Geometrical product specification and quality tolerances (ISO 9013:2017)
SIST EN ISO 9013:2017

ISO 9013:2017 presents geometrical product specifications and quality tolerances for the classification of thermal cuts in materials suitable for oxyfuel flame cutting, plasma cutting and laser cutting. It is applicable to flame cuts from 3 mm to 300 mm, plasma cuts from 0,5 mm to 150 mm and laser cuts from 0,5 mm to 32 mm.
The geometrical product specifications are applicable if reference to this document is made in drawings or pertinent documents, e.g. delivery conditions. If this document were also to apply, by way of exception, to parts produced by other cutting processes, this would have to be agreed upon separately.
Flatness defects are not addressed as such in this document. The references are to the current standards for the materials used.

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CEN
EN ISO 1101:2017(Main)
Geometrical product specifications (GPS) - Geometrical tolerancing - Tolerances of form, orientation, location and run-out (ISO 1101:2017)
SIST EN ISO 1101:2017

ISO 1101:2017 defines the symbol language for geometrical specification of workpieces and the rules for its interpretation.
It provides the foundation for geometrical specification.
The illustrations in this document are intended to illustrate how a specification can be fully indicated with visible annotation (including e.g. TEDs).
NOTE 1       Other International Standards referenced in Clause 2 and in Tables 3 and 4 provide more detailed information on geometrical tolerancing.
NOTE 2       This document gives rules for explicit and direct indications of geometrical specifications. Alternatively, the same specifications can be indicated indirectly in accordance with ISO 16792 by attaching them to a 3D CAD model. In this case, it is possible that some elements of the specification are available through a query function or other interrogation of information on the model instead of being indicated using visible annotation

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CEN
EN ISO 1660:2017(Main)
Geometrical product specifications (GPS) - Geometrical tolerancing - Profile tolerancing (ISO 1660:2017)
SIST EN ISO 1660:2017

ISO 1660:2017 gives the rules for geometrical specifications of integral and derived features, using the line profile and surface profile characteristic symbols as defined in ISO 1101.

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CEN
EN ISO 1938-2:2017(Main)
Geometrical product specifications (GPS) - Dimensional measuring equipment - Part 2: Reference disk gauges (ISO 1938-2:2017)
SIST EN ISO 1938-2:2017

ISO 1938-2:2017 specifies the most important metrological and design characteristics of reference disk gauges.
ISO 1938-2:2017 covers linear sizes of the gauge up to 500 mm.

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CEN
EN ISO 14405-3:2017(Main)
Geometrical product specifications (GPS) - Dimensional tolerancing - Part 3: Angular sizes (ISO 14405-3:2016)
SIST EN ISO 14405-3:2017

This part of ISO 14405 establishes the default specification operator for angular size and defines a number of special specification operators for features of angular size: cone (truncated, i.e. frustum, or not), wedge (truncated or not), two opposite straight lines (intersection of a wedge/truncated wedge and a plane perpendicular to the intersection straight line of the two planes of the wedge/truncated wedge, intersection of a cone/frustum and a plane containing the axis of revolution of the cone/frustum). See Figure 1 and Figure 2.
This part of ISO 14405 also defines the specification modifiers and the drawing indications for these angular sizes.
This part of ISO 14405 covers the following angular sizes:
—    local angular size:
—    angular size between two lines;
—    portion angular size;
—    global angular size:
—    direct global angular size:
—    least squares angular size;
—    minimax angular size;
—    rank order angular size/indirect global angular size:
—    maximum angular size;
—    minimum angular size;
—    average angular size;
—    range of angular sizes;
—    mid-range angular size;
—    median angular size;
—    standard deviation of angular size.
This part of ISO 14405 defines the meaning of tolerances of angular sizes indicated as
—    + and/or - limit deviations, e.g. 0°/-0,5°, or
—    indicated with upper limit of size (ULS) and/or lower limit of size (LLS), e.g. 35° max. or 15° min., 34°/36°,
—    with or without modifiers.
This part of ISO 14405 provides a set of tools to express several types of angular size characteristics. It does not give any information on the relationship between a function or a use and an angular size characteristic.

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CEN
EN ISO 16610-30:2017(Main)
Geometrical product specifications (GPS) - Filtration - Part 30: Robust profile filters: Basic concepts (ISO 16610-30:2015)
SIST EN ISO 16610-30:2017

ISO 16610-30:2015 specifies the basic concepts of robust profile filters.

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CEN
EN ISO 16610-28:2016(Main)
Geometrical product specifications (GPS) - Filtration - Part 28: Profile filters: End effects (ISO 16610-28:2016)
SIST EN ISO 16610-28:2017

ISO 16610-28:2016 provides methods for treating the end effects of linear profile filters where such effects occur.

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CEN
EN ISO 16610-31:2016(Main)
Geometrical product specifications (GPS) - Filtration - Part 31: Robust profile filters: Gaussian regression filters (ISO 16610-31:2016)
SIST EN ISO 16610-31:2017

ISO 16610-31:2016 specifies the characteristics of the discrete robust Gaussian regression filter for the evaluation of surface profiles with spike discontinuities such as deep valleys and high peaks.

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CEN
EN ISO 18391:2016(Main)
Geometrical product specifications (GPS) - Population specification (ISO 18391:2016)
SIST EN ISO 18391:2017

ISO 18391:2016 defines rules to establish and to indicate population specifications, which are used to specify conditions on population characteristics, which are established from a set of characteristic values obtained one on each workpiece of a population of workpieces.
A population specification (as applied to a population of workpieces considered as a collection and not as individual items) can be seen as a complementary requirement to the individual specification (as applied to each workpiece considered as individual items). Population specifications express the statistical hypotheses used on the population of workpieces.
NOTE 1       A population specification is a complement to an individual GPS specification.
NOTE 2       ISO 18391:2016 is not intended to mandate a given tolerancing method or how to calculate tolerance values. Its intent is to specify tools to allow the expression of population specifications.

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CEN
EN ISO 10360-12:2016(Main)
Geometrical product specifications (GPS) - Acceptance and reverification tests for coordinate measuring systems (CMS) - Part 12: Articulated arm coordinate measurement machines (CMM) (ISO 10360-12:2016)
SIST EN ISO 10360-12:2017

ISO 10360-12:2016 specifies the acceptance tests for verifying the performance of an articulated arm CMM by measuring calibrated test lengths as stated by the manufacturer. It also specifies the reverification tests that enable the user to periodically reverify the performance of the articulated arm CMM. It applies to articulated arm CMMs using tactile probes and optionally optical distance sensors (also referred to as laser line scanners or laser line probes). Details on tests for scanner accessories are given in Annex E.
ISO 10360-12:2016 does not specify how often or when testing is performed, if at all, nor does it specify which party should bear the cost of testing.
This part of ISO 10360 specifies
-      performance requirements that can be assigned by the manufacturer or the user of the articulated arm CMM,
-      the manner of execution of the acceptance and reverification tests to demonstrate the stated requirements,
-      rules for proving conformance, and
-      applications for which the acceptance and reverification tests can be used.

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SIST
SIST EN ISO 1938-2:2017(Main)
Geometrical product specifications (GPS) - Dimensional measuring equipment - Part 2: Reference disk gauges (ISO 1938-2:2017)
EN ISO 1938-2:2017

This part of ISO 1938 specifies the most important metrological and design characteristics of reference disk gauges. This part of ISO 1938 covers linear sizes of the gauge up to 500 mm.

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SIST EN ISO 18674-2:2017(Main)
Geotechnical investigation and testing - Geotechnical monitoring by field instrumentation - Part 2: Measurement of displacements along a line: Extensometers (ISO 18674-2:2016)
EN ISO 18674-2:2016

This Standard applies to the measurement of displacements along a line by means of extensometers carried out for geotechnical monitoring. It is to be applied in conjunction with EN ISO 22474-1.
Specifically, this Standard applies to
–   investigating soils and rocks;
–   checking geotechnical design values in connection with the Observational Design method;
–   deriving geotechnical design values (e.g. pile load test; trial tunnelling);
–   evaluating stability ahead of, during or after construction (e.g. natural slopes, slope cuts, embankments, excavation walls, foundations, dams, refuse dumps, tunnels).

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CEN
EN ISO 17450-3:2016(Main)
Geometrical product specifications (GPS) - General concepts - Part 3: Toleranced features (ISO 17450-3:2016)
SIST EN ISO 17450-3:2016

ISO 17450-3:2016 gives default definitions for the extracted features (integral or derived) of workpieces, which are toleranced features in GPS specifications (dimensional, geometrical, or surface texture specifications). This part of ISO 17450 defines default geometrical features used to define GPS characteristics.

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SIST EN ISO 10360-12:2017(Main)
Geometrical Product Specifications (GPS) - Acceptance and reverification tests for coordinate measuring systems (CMS) - Part 12: Articulated arm coordinate measurement machines (CMM) (ISO 10360-12:2016)
EN ISO 10360-12:2016

This part of ISO 10360 specifies the acceptance tests for verifying the performance of an articulated arm CMM used for measuring calibrated test lengths as stated by the manufacturer. It also specifies the reverification tests that enable the user to periodically reverify the performance of the articulated arm CMM. It applies to articulated arm CMMs using tactile probes, scanner probes, or both.

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CEN
EN ISO 3040:2016(Main)
Geometrical product specifications (GPS) - Dimensioning and tolerancing - Cones (ISO 3040:2016)
SIST EN ISO 3040:2016

ISO 3040:2016 specifies graphical indication applicable to a cone (right-angle circular cones) to define its dimensioning or to specify its tolerancing.
For the purposes of this International Standard, the term "cone" relates to right-angle circular cones only (any intersection by a plane perpendicular to the axis of the nominal cone is a circle).
NOTE 1       For simplicity, only truncated cones have been represented in this International Standard. However, this International Standard can be applied to any type of cone within its scope.
NOTE 2       This International Standard is not intended to prevent the use of other methods of dimensioning and tolerancing.

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CEN
EN ISO 25178-1:2016(Main)
Geometrical product specifications (GPS) - Surface texture: Areal - Part 1: Indication of surface texture (ISO 25178-1:2016)
SIST EN ISO 25178-1:2016

ISO 25178-1:2016 specifies the rules for indication of areal surface texture in technical product documentation (e.g. drawings, specifications, contracts, reports) by means of graphical symbols.

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ISO
ISO 10360-12:2016(Main)
Geometrical product specifications (GPS) — Acceptance and reverification tests for coordinate measuring systems (CMS) — Part 12: Articulated arm coordinate measurement machines (CMM)

ISO 10360-12:2016 specifies the acceptance tests for verifying the performance of an articulated arm CMM by measuring calibrated test lengths as stated by the manufacturer. It also specifies the reverification tests that enable the user to periodically reverify the performance of the articulated arm CMM. It applies to articulated arm CMMs using tactile probes and optionally optical distance sensors (also referred to as laser line scanners or laser line probes). Details on tests for scanner accessories are given in Annex E. ISO 10360-12:2016 does not specify how often or when testing is performed, if at all, nor does it specify which party should bear the cost of testing. This part of ISO 10360 specifies - performance requirements that can be assigned by the manufacturer or the user of the articulated arm CMM, - the manner of execution of the acceptance and reverification tests to demonstrate the stated requirements, - rules for proving conformance, and - applications for which the acceptance and reverification tests can be used.

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EN ISO 16610-60:2015(Main)
Geometrical Product Specification (GPS) - Filtration - Part 60: Linear areal filters: Basic concepts (ISO 16610-60:2015)
SIST EN ISO 16610-60:2016

ISO 16610-60:2015 sets out the basic concepts of linear areal filters.

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