| Name |
Description |
Abstract |
Status |
Publication date |
Edition |
Number of pages |
Technical committee |
ICS |
| ISO 10140-4:2010 |
Acoustics — Laboratory measurement of sound insulation of building elements — Part 4: Measurement procedures and requirements |
ISO 10140-4:2010 specifies the basic measurement procedures for airborne and impact sound insulation in laboratory test facilities.
|
Withdrawn |
2010-09 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10140-4:2021 |
Acoustics — Laboratory measurement of sound insulation of building elements — Part 4: Measurement procedures and requirements |
This document specifies the basic measurement procedures for airborne and impact sound insulation of building elements in laboratory test facilities.
|
Published |
2021-04 |
Edition : 2 |
Number of pages : 12 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10140-5:2010 |
Acoustics — Laboratory measurement of sound insulation of building elements — Part 5: Requirements for test facilities and equipment |
ISO 10140-5:2010 specifies laboratory test facilities and equipment for sound insulation measurements of building elements, such as components and materials, building elements, technical elements (small building elements) and sound insulation improvement systems.
|
Withdrawn |
2010-09 |
Edition : 1 |
Number of pages : 35 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10140-5:2010/Amd 1:2014 |
Acoustics — Laboratory measurement of sound insulation of building elements — Part 5: Requirements for test facilities and equipment — Amendment 1: Rainfall sound |
|
Withdrawn |
2014-05 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 15186-1:2000 |
Acoustics — Measurement of sound insulation in buildings and of building elements using sound intensity — Part 1: Laboratory measurements |
|
Published |
2000-03 |
Edition : 1 |
Number of pages : 14 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10848-1:2017 |
Acoustics — Laboratory and field measurement of flanking transmission for airborne, impact and building service equipment sound between adjoining rooms — Part 1: Frame document |
ISO 10848 (all parts) specifies measurement methods to characterize the flanking transmission of one or several building components. These measurements are performed in a laboratory test facility or in the field.
The performance of the building components is expressed either as an overall quantity for the combination of elements and junction (such as the normalized flanking level difference and/or normalized flanking impact sound pressure level) or as the vibration reduction index of a junction or the normalized direction-average vibration level difference of a junction.
Two approaches are used for structure-borne sound sources in buildings, a normalized flanking equipment sound pressure level and a transmission function that can be used to estimate sound pressure levels in a receiving room due to structure-borne excitation by service equipment in a source room. The former approach assumes that flanking transmission is limited to one junction (or no junction if the element supporting the equipment is the separating element), and the latter considers the combination of direct (if any) and all flanking transmission paths.
ISO 10848-1:2017 contains definitions, general requirements for test elements and test rooms, and measurement methods. Guidelines are given for the selection of the quantity to be measured, depending on the junction and the types of building elements involved. Other parts of ISO 10848 specify the application for different types of junction and building elements.
The quantities characterizing the flanking transmission can be used to compare different products, or to express a requirement, or as input data for prediction methods, such as ISO 12354‑1 and ISO 12354‑2.
|
Published |
2017-09 |
Edition : 2 |
Number of pages : 35 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10848-2:2006 |
Acoustics — Laboratory measurement of the flanking transmission of airborne and impact sound between adjoining rooms — Part 2: Application to light elements when the junction has a small influence |
ISO 10848-2:2006 applies to light elements such as suspended ceilings, access floors, light uninterrupted façades or floating floors. The transmission from one room to another can be simultaneous through the test element and via the plenum, if any. With measurements according to ISO 10848-2:2006, the total sound transmission is measured, and it is not possible to separate the two kinds of transmission.
|
Withdrawn |
2006-04 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10848-2:2006/Cor 1:2007 |
Acoustics — Laboratory measurement of the flanking transmission of airborne and impact sound between adjoining rooms — Part 2: Application to light elements when the junction has a small influence — Technical Corrigendum 1 |
|
Withdrawn |
2007-02 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10848-2:2017 |
Acoustics — Laboratory and field measurement of flanking transmission for airborne, impact and building service equipment sound between adjoining rooms — Part 2: Application to Type B elements when the junction has a small influence |
ISO 10848 (all parts) specifies measurement methods to characterize the flanking transmission of one or several building components. This document considers only laboratory measurements.
The measured quantities can be used to compare different products, or to express a requirement, or as input data for prediction methods, such as ISO 12354‑1 and ISO 12354‑2. However, the measured quantities Dn,f, Ln,f and Lne0,f only represent the performance with the dimensions for the test specimens described in this document.
ISO 10848-2:2017 is referred to in ISO 10848‑1:2017, 4.5 as being a supporting part of the frame document. It applies to Type B elements as defined in ISO 10848‑1, such as suspended ceilings, access floors, light uninterrupted façades or floating floors. The transmission from one room to another can occur simultaneously through the test element and via the plenum (if any). For measurements made according to this document, the total sound transmission is determined and it is not possible to separate the two kinds of transmission.
|
Published |
2017-09 |
Edition : 2 |
Number of pages : 12 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10848-3:2006 |
Acoustics — Laboratory measurement of the flanking transmission of airborne and impact sound between adjoining rooms — Part 3: Application to light elements when the junction has a substantial influence |
ISO 10848-3:2006 applies to structurally connected light elements forming a T or X junction. The performance of the building components is expressed either as an overall quantity for the combination of elements and junction, or as the vibration reduction index of a junction.
|
Withdrawn |
2006-04 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10848-3:2017 |
Acoustics — Laboratory and field measurement of flanking transmission for airborne, impact and building service equipment sound between adjoining rooms — Part 3: Application to Type B elements when the junction has a substantial influence |
ISO 10848 (all parts) specifies measurement methods to characterize the flanking transmission of one or several building components.
ISO 10848-3:2017 specifies laboratory and field measurements of buildings for Type B elements (defined in ISO 10848‑1) when the junction has a substantial influence.
Laboratory measurements are used to quantify the performance of the junction with suppressed flanking transmission from the laboratory structure. Field measurements are used to characterize the in situ performance and it is not usually possible to suppress unwanted flanking transmission sufficiently; hence, the results can only be considered representative of the performance of that junction when installed in that particular building structure.
ISO 10848-3:2017 is referred to in ISO 10848‑1:2017, 4.5 as being a supporting part to the frame document and applies to Type B elements that are structurally connected as defined in ISO 10848‑1.
The measured quantities can be used to compare different products, or to express a requirement, or as input data for prediction methods, such as ISO 12354‑1 and ISO 12354‑2.
The relevant quantity to be measured is selected according to ISO 10848‑1:2017, 4.5. The performance of the building components is expressed either as an overall quantity for the combination of elements and junction (such as Dn,f,ij and/or Ln,f,ij and/or Lne0,f,ij) or as the normalized direction-average velocity level difference of a junction. Dn,f,ij, Ln,f,ij, Lne0,f,ij and depend on the actual dimensions of the elements.
|
Published |
2017-09 |
Edition : 2 |
Number of pages : 8 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10848-4:2010 |
Acoustics — Laboratory measurement of the flanking transmission of airborne and impact sound between adjoining rooms — Part 4: Application to junctions with at least one heavy element |
ISO 10848-4:2010 specifies laboratory measurements of normalized flanking level difference, normalized flanking impact sound pressure level or vibration reduction index of buildings where at least one of the elements that form the construction under test is not a light element.
ISO 10848-4:2010 applies to T- or X-junctions.
|
Withdrawn |
2010-08 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10848-4:2017 |
Acoustics — Laboratory and field measurement of flanking transmission for airborne, impact and building service equipment sound between adjoining rooms — Part 4: Application to junctions with at least one Type A element |
ISO 10848 (all parts) specifies measurement methods to characterize the flanking transmission of one or several building components.
ISO 10848-4:2017 specifies laboratory and field measurements of buildings where at least one of the elements that form the construction under test is a Type A element (defined in ISO 10848‑1).
Laboratory measurements are used to quantify the performance of the junction with suppressed flanking transmission from the laboratory structure. Field measurements are used to characterize the in situ performance and it is not usually possible to suppress unwanted flanking transmission sufficiently; hence, the results are primarily representative of the performance of that junction when installed in that particular building structure.
The measured quantities can be used to compare different products, or to express a requirement, or as input data for prediction methods, such as ISO 12354‑1 and ISO 12354‑2.
|
Published |
2017-09 |
Edition : 2 |
Number of pages : 7 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 10848-5:2020 |
Acoustics — Laboratory and field measurement of the flanking transmission for airborne, impact and building service equipment sound between adjoining rooms — Part 5: Radiation efficiencies of building elements |
This document specifies measurement methods to characterize in the laboratory the acoustic radiation of a building element when it is directly excited by an airborne or structure-borne source. It is applicable to single-leaf and double-leaf elements (see ISO 12354-1:2017 Annex F, F2). The measured quantity can be used as input data for prediction methods, such as ISO 12354-1 and ISO 12354-2, to compare products, or to express a requirement.
|
Published |
2020-08 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 11654:1997 |
Acoustics — Sound absorbers for use in buildings — Rating of sound absorption |
|
Published |
1997-04 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 11691:1995 |
Acoustics — Measurement of insertion loss of ducted silencers without flow — Laboratory survey method |
Specifies a laboratory substitution method to determine the insertion loss of ducted circular and rectangular silencers without flow, as well as other duct elements for use in ventilating and air-conditioning systems.
|
Withdrawn |
1995-08 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 11691:2020 |
Acoustics — Measurement of insertion loss of ducted silencers without flow — Laboratory survey method |
This document specifies a laboratory substitution method to determine the insertion loss without flow of ducted, mainly absorbent, circular and rectangular silencers, as well as other duct elements for use in ventilating and air-conditioning systems.
NOTE Laboratory measurement procedures for ducted silencers with superimposed flow are described in ISO 7235[5].
This document is applicable to silencers where the design velocity does not exceed 15 m/s. As the method does not include self-generated flow noise, this document is not suitable for tests on silencers where this type of noise is of great importance for the evaluation of the silencer performance. As most silencers, particularly in offices and dwelling, have design velocities below 15 m/s, this document can often be a cost-efficient alternative to ISO 7235[5].
The insertion loss determined according to this document in a laboratory is not necessarily the same as the insertion loss obtained in an installation in the field. Different sound and flow fields in the duct yield different results. In this document, the sound field is dominated by plane wave modes. Due to the use of regular test ducts, the results can include some flanking transmission via structural vibrations in the duct walls that sets an upper limit to the insertion loss that can be determined.
This document is intended to be used for circular silencers with diameters of 80 mm to 2 000 mm or for rectangular silencers with cross-sectional areas within the same range.
|
Published |
2020-07 |
Edition : 2 |
Number of pages : 8 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 11820:1996 |
Acoustics — Measurements on silencers in situ |
Applies to measurements on silencers in practical applications for acoustic analysis, acceptance tests and similar evaluations. Depending on the method used, the measurement is either of insertion loss or transmission loss.
|
Published |
1996-12 |
Edition : 1 |
Number of pages : 18 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 12354-1:2017 |
Building acoustics — Estimation of acoustic performance of buildings from the performance of elements — Part 1: Airborne sound insulation between rooms |
ISO 12354-1:2017 specifies calculation models designed to estimate the airborne sound insulation between adjacent rooms in buildings, primarily using measured data which characterize direct or indirect flanking transmission by the participating building elements, and theoretically-derived methods of sound propagation in structural elements.
A detailed model is described for calculation in frequency bands, in the frequency range 1/3 octave 100 Hz to 3 150 Hz in accordance with ISO 717‑1, possibly extended down to 1/3 octave 50 Hz if element data and junction data are available (see Annex I); the single number rating can be determined from the calculation results. A simplified model with a restricted field of application is deduced from this, calculating directly the single number rating, using the single number ratings of the elements; a method to determine uncertainty is proposed for the simplified model (see Annex K).
ISO 12354-1:2017 describes the principles of the calculation scheme, lists the relevant quantities and defines its applications and restrictions.
|
Published |
2017-07 |
Edition : 1 |
Number of pages : 94 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 12354-2:2017 |
Building acoustics — Estimation of acoustic performance of buildings from the performance of elements — Part 2: Impact sound insulation between rooms |
ISO 12354-2:2017 specifies calculation models designed to estimate the impact sound insulation between rooms in buildings, primarily using measured data which characterize direct or indirect flanking transmission by the participating building elements and theoretically-derived methods of sound propagation in structural elements.
A detailed model is described for calculation in frequency bands, in the frequency range 1/3 octave 100 Hz to 3150 Hz in accordance with ISO 717‑1, possibly extended down to 1/3 octave 50 Hz if element data and junction data are available (see Annex E); the single number rating of buildings can be determined from the calculation results. A simplified model with a restricted field of application is deduced from this, calculating directly the single number rating, using the single number ratings of the elements; the uncertainty on the apparent impact sound pressure level calculated using the simplified model can be determined according to the method described in ISO 12354‑1:2017, Annex K (see Clause 5).
ISO 12354-2:2017 describes the principles of the calculation scheme, lists the relevant quantities and defines its applications and restrictions.
|
Published |
2017-07 |
Edition : 1 |
Number of pages : 46 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 12354-3:2017 |
Building acoustics — Estimation of acoustic performance of buildings from the performance of elements — Part 3: Airborne sound insulation against outdoor sound |
ISO 12354-3:2017 specifies a calculation model to estimate the sound insulation or the sound pressure level difference of a façade or other external surface of a building. The calculation is based on the sound reduction index of the different elements from which the façade is constructed and it includes direct and flanking transmission. The calculation gives results which correspond approximately to the results from field measurements in accordance with ISO 16283‑3. Calculations can be carried out for frequency bands or for single number ratings.
The calculation results can also be used for calculating the indoor sound pressure level due to for instance road traffic (see Annex E).
ISO 12354-3:2017 describes the principles of the calculation model, lists the relevant quantities and defines its applications and restrictions.
|
Published |
2017-07 |
Edition : 1 |
Number of pages : 29 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 12354-4:2017 |
Building acoustics — Estimation of acoustic performance of buildings from the performance of elements — Part 4: Transmission of indoor sound to the outside |
ISO 12354-4:2017 specifies a calculation model to estimate the sound power level radiated by the envelope of a building due to airborne sound inside that building, primarily by means of measured sound pressure levels inside the building and measured data which characterize the sound transmission by the relevant elements and openings in the building envelope. These sound power levels, together with those of other sound sources in or in front of the building envelope, form the basis for the calculation of the sound pressure level at a chosen distance from a building as a measure for the acoustic performance of buildings.
The prediction of the inside sound pressure level from knowledge of the indoor sound sources is outside the scope of this document.
The prediction of the outdoor sound propagation is outside the scope of this document.
NOTE For simple propagation conditions an approach is given for the estimation of the sound pressure level in Annex E.
ISO 12354-4:2017 describes the principles of the calculation model, lists the relevant quantities and defines its applications and restrictions.
|
Published |
2017-07 |
Edition : 1 |
Number of pages : 23 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 12999-1:2014 |
Acoustics — Determination and application of measurement uncertainties in building acoustics — Part 1: Sound insulation |
ISO 12999-1:2014 specifies procedures for assessing the measurement uncertainty of sound insulation in building acoustics. It provides for a detailed uncertainty assessment, a determination of uncertainties by inter-laboratory tests, and an application of uncertainties.
|
Withdrawn |
2014-05 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
17.140.01
Acoustic measurements and noise abatement in general
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 12999-1:2020 |
Acoustics — Determination and application of measurement uncertainties in building acoustics — Part 1: Sound insulation |
This document specifies procedures for assessing the measurement uncertainty of sound insulation in building acoustics. It provides for
— a detailed uncertainty assessment;
— a determination of uncertainties by inter-laboratory tests;
— an application of uncertainties.
Furthermore, typical uncertainties are given for quantities determined according to ISO 10140 (all parts), ISO 16283 (all parts) and ISO 717 (all parts).
|
Published |
2020-04 |
Edition : 2 |
Number of pages : 21 |
Technical Committee |
17.140.01
Acoustic measurements and noise abatement in general
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 12999-2:2020 |
Acoustics — Determination and application of measurement uncertainties in building acoustics — Part 2: Sound absorption |
This document specifies how to calculate:
— the uncertainty of sound absorption coefficients and equivalent sound absorption areas measured according to ISO 354;
— the uncertainty of the practical and weighted sound absorption coefficients determined according to ISO 11654;
— the uncertainty of the object sound absorption coefficient according to ISO 20189; and
— the uncertainty of the single number rating determined according to EN 1793‑1.
Furthermore, the use of uncertainties in reporting measured or weighted sound absorption coefficients is explained.
|
Published |
2020-06 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
17.140.01
Acoustic measurements and noise abatement in general
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 15186-2:2003 |
Acoustics — Measurement of sound insulation in buildings and of building elements using sound intensity — Part 2: Field measurements |
ISO 15186-2:2003 specifies a sound intensity method to determine the in-situ sound insulation of walls, floors, doors, windows and small building elements. It is intended for measurements that have to be made in the presence of flanking transmission. It can be used to provide sound power data for diagnostic analysis of flanking transmission or to measure flanking sound insulation parameters.
ISO 15186-2:2003 can be used by laboratories that could not satisfy the requirements of ISO 15186-1, which deals with laboratory measurements with no or little flanking transmission. ISO 15186-3 deals with measurements under laboratory conditions, at low frequencies.
ISO 15186-2:2003 also describes the effect of flanking transmission on measurements made using the specified method, and how intensity measurements can be used
-- to compare the in-situ sound insulation of a building element with laboratory measurements where flanking has been suppressed (i.e. ISO 140-3),
-- to rank the partial contributions for building elements, and
-- to measure the flanking sound reduction index for one or more transmission paths (for validation of prediction models such as those given in EN 12354-1).
This method gives values for airborne sound insulation, which are frequency dependent. They can be converted into a single number, characterizing the acoustic performance, by application of ISO 717-1.
The reproducibility of this intensity method is estimated to be equal to or better than that of the methods of ISO 140-10 and ISO 140-4, when measuring a single small and large building element, respectively.
|
Published |
2003-06 |
Edition : 1 |
Number of pages : 25 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 15186-3:2002 |
Acoustics — Measurement of sound insulation in buildings and of building elements using sound intensity — Part 3: Laboratory measurements at low frequencies |
ISO 15186-3:2002 specifies a sound intensity method to determine the sound reduction index and the element-normalized level difference of building elements at low frequencies. This method has significantly better reproducibility in a typical test facility than those of ISO 140-3, ISO 140-10 and ISO 15186-1. The results are more independent of the room dimensions of the laboratory and closer to values that would be measured between rooms of volume greater than 300 m3. ISO 15186-3 is applicable in the frequency range 50 Hz to 160 Hz but is mainly intended for the frequency range 50 Hz to 80 Hz.
NOTE For elements faced with thick, porous absorbers, the recommended frequency range is 50 Hz to 80 Hz.
The main differences between the methods of ISO 15186-1 and ISO 15186-3 are that in ISO 15186-3
the sound pressure level of the source room is measured close to the surface of the test specimen, andthe surface opposite the test specimen in the receiving room is highly absorbing and converts the room acoustically into a duct with several propagating cross-modes above the lowest cut-on frequency.
The results found by the method of ISO 15186-3 can be combined with those of ISO 140-3 and ISO 15186-1 to produce data in the frequency range 50 Hz to 5 000 Hz.
The reproducibility of this intensity method is, for all frequencies, estimated to be equal to or better than that found with the method of ISO 140-3 at 100 Hz.
Some comparisons of data obtained with this part of ISO 15186 and with ISO 140-3 are given for information.
|
Published |
2002-11 |
Edition : 1 |
Number of pages : 14 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 15665:2003 |
Acoustics — Acoustic insulation for pipes, valves and flanges |
ISO 15665:2003 defines the acoustic performance of three classes (classes A, B and C) of pipe insulation. It also specifies three types of construction that will meet these acoustic performance classes. Furthermore, it defines a standardized test method for measuring the acoustic performance of any type of construction, thereby allowing existing and new insulation constructions to be rated against the three classes.
ISO 15665:2003 is applicable to the acoustic insulation of cylindrical steel pipes and to their piping components. It is valid for pipes up to 1 m in diameter and a minimum wall thickness of 4,2 mm for diameters below 300 mm, and 6,3 mm for diameters from 300 mm and above. It is not applicable to the acoustic insulation of rectangular ducting and vessels or machinery.
ISO 15665:2003 covers both design and installation aspects of acoustic insulation and provides guidance to assist noise control engineers in determining the required class and extent of insulation needed for a particular application. It gives typical examples of construction methods, but the examples are for information only and not meant to be prescriptive.
|
Published |
2003-08 |
Edition : 1 |
Number of pages : 36 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 15665:2003/Cor 1:2004 |
Acoustics — Acoustic insulation for pipes, valves and flanges — Technical Corrigendum 1 |
|
Published |
2004-03 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO/DIS 15665 |
Acoustics — Acoustic insulation for pipes, valves and flanges |
|
Under development |
|
Edition : 2 |
Number of pages : 43 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 15712-1:2005 |
Building acoustics — Estimation of acoustic performance of buildings from the performance of elements — Part 1: Airborne sound insulation between rooms |
ISO 15712-1:2005 describes calculation models designed to estimate the airborne sound insulation between rooms in buildings, primarily using measured data which characterize direct or indirect flanking transmission by the participating building elements and theoretically derived methods of sound propagation in structural elements.
A detailed model is described for calculation in frequency bands; the single number rating can be determined from the calculation results. A simplified model with a restricted field of application is deduced from this, calculating directly the single number rating, using the single number ratings of the elements.
ISO 15712-1:2005 describes the principles of the calculation scheme, lists the relevant quantities and defines its applications and restrictions. It is intended for acoustical experts and provides the framework for the development of application documents and tools for other users in the field of building construction, taking into account local circumstances.
The calculation models described use the most general approach for engineering purposes, with a clear link to measurable quantities that specify the performance of building elements. The known limitations of these calculation models are described in this document. Users should, however, be aware that other calculation models also exist, each with their own applicability and restrictions.
The models are based on experience with predictions for dwellings; they could also be used for other types of buildings provided the construction systems and dimensions of elements are not too different from those in dwellings.
|
Withdrawn |
2005-01 |
Edition : 1 |
Number of pages : 59 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 2041:1990 |
Vibration and shock — Vocabulary |
Defines terms in English and French. An alphabetical index is provided for each of the two languages.
|
Withdrawn |
1990-08 |
Edition : 2 |
Number of pages : 59 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
01.040.17
Metrology and measurement. Physical phenomena (Vocabularies)
|
| ISO 15712-2:2005 |
Building acoustics — Estimation of acoustic performance of buildings from the performance of elements — Part 2: Impact sound insulation between rooms |
ISO 15712-2:2005 specifies calculation models designed to estimate the impact sound insulation between rooms in buildings, primarily on the bases of measured data which characterizes direct or indirect flanking transmission by the participating building elements and theoretically derived methods of sound propagation in structural elements.
A detailed model is described for calculation in frequency bands; the single number rating of buildings can be determined from the calculation results. A simplified model with a restricted field of application is deduced from this, calculating directly the single number rating, using the single number ratings of the elements.
ISO 15712-2:2005 describes the principles of the calculation scheme, lists the relevant quantities and defines its applications and restrictions. It is intended for acoustical experts and provides the framework for the development of application documents and tools for other users in the field of building construction, taking into account local circumstances.
The calculation models described use the most general approach for engineering purposes, with a clear link to measurable quantities that specify the performance of building elements. The known limitations of these calculation models are described in this standard. Users should, however, be aware that other calculation models also exist, each with their own applicability and restrictions.
The models are based on experience with prediction for dwellings; they could also be used for other types of buildings provided the construction systems and dimensions of elements are not too different from those in dwellings.
|
Withdrawn |
2005-01 |
Edition : 1 |
Number of pages : 30 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 15712-3:2005 |
Building acoustics — Estimation of acoustic performance of buildings from the performance of elements — Part 3: Airborne sound insulation against outdoor sound |
ISO 15712-3:2005 specifies a calculation model to estimate the sound insulation or the sound pressure level difference of a façade or other external surface of a building. The calculation is based on the sound reduction index of the different elements from which the façade is constructed and it includes direct and flanking transmission. The calculation gives results which correspond approximately to the results from field measurements according to ISO 140-5. Calculations can be carried out for frequency bands or for single number ratings.
The calculation results can be used also for calculating the indoor sound pressure level due to for instance road traffic; this use is treated in the informative annex D.
ISO 15712-3:2005 describes the principles of the calculation model, lists the relevant quantities and defines its applications and restrictions. It is intended for acoustical experts and provides the framework for the development of application documents and tools for other users in the field of building construction, taking into account local circumstances.
The model is based on experience with predictions for dwellings; it can also be used for other types of buildings provided the dimensions of constructions are not too different from those in dwellings.
|
Withdrawn |
2005-01 |
Edition : 1 |
Number of pages : 26 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 15712-4:2005 |
Building acoustics — Estimation of acoustic performance of buildings from the performance of elements — Part 4: Transmission of indoor sound to the outside |
ISO 15712-4:2005 describes a calculation model for the sound power level radiated by the envelope of a building due to airborne sound inside that building, primarily by means of measured sound pressure levels inside the building and measured data which characterize the sound transmission by the relevant elements and openings in the building envelope. These sound power levels, together with those of other sound sources in or in front of the building envelope, form the basis for the calculation of the sound pressure level at a chosen distance from a building as a measure for the acoustic performance of buildings.
The prediction of the inside sound pressure level from knowledge of the indoor sound sources is outside the scope of ISO 15712-4:2005.
The prediction of the outdoor sound propagation is outside the scope of ISO 15712-4:2005.
ISO 15712-4:2005 describes the principles of the calculation model, lists the relevant quantities and defines its applications and restrictions. It is intended for acoustical experts and provides the framework for the development of application documents and tools for other users in the field of building construction, taking into account local circumstances.
|
Withdrawn |
2005-02 |
Edition : 1 |
Number of pages : 23 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 16032:2004 |
Acoustics — Measurement of sound pressure level from service equipment in buildings — Engineering method |
ISO 16032:2004 specifies methods for measuring the sound-pressure level produced by service equipment attached to or installed in buildings. It specifically covers measurements on sanitary installations, mechanical ventilation, heating and cooling service equipment, lifts, rubbish chutes, boilers, blowers, pumps and other auxiliary service equipment, and motor-driven car park doors, but can also be applied to other equipment attached to or installed in buildings.
The methods are suitable for rooms with volumes of approximately 300 cubic metres or less in e.g. dwellings, hotels, schools, offices and hospitals. The standard is not in general intended for measurements in large auditoria such as concert halls. However, the operating conditions and operating cycles in Annex B can be used in such cases.
The service equipment sound-pressure level is determined as the maximum A-weighted and optionally C-weighted sound-pressure level occurring during a specified operation cycle of the service equipment under test, or as the equivalent continuous sound-pressure level determined with a specified integration time. A-weighted and C-weighted values are calculated from octave-band measurements.
|
Published |
2004-09 |
Edition : 1 |
Number of pages : 19 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
91.120.20
Acoustics in building. Sound insulation
;
91.140.01
Installations in buildings in general
|
| ISO 2041:2009 |
Mechanical vibration, shock and condition monitoring — Vocabulary |
ISO 2041:2009 defines terms and expressions unique to the areas of mechanical vibration, shock and condition monitoring.
|
Withdrawn |
2009-08 |
Edition : 3 |
Number of pages : 46 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
01.040.17
Metrology and measurement. Physical phenomena (Vocabularies)
|
| ISO/DIS 16032 |
Acoustics — Measurement of sound pressure level from service equipment or activities in buildings — Engineering method |
ISO 16032:2004 specifies methods for measuring the sound-pressure level produced by service equipment attached to or installed in buildings. It specifically covers measurements on sanitary installations, mechanical ventilation, heating and cooling service equipment, lifts, rubbish chutes, boilers, blowers, pumps and other auxiliary service equipment, and motor-driven car park doors, but can also be applied to other equipment attached to or installed in buildings.
The methods are suitable for rooms with volumes of approximately 300 cubic metres or less in e.g. dwellings, hotels, schools, offices and hospitals. The standard is not in general intended for measurements in large auditoria such as concert halls. However, the operating conditions and operating cycles in Annex B can be used in such cases.
The service equipment sound-pressure level is determined as the maximum A-weighted and optionally C-weighted sound-pressure level occurring during a specified operation cycle of the service equipment under test, or as the equivalent continuous sound-pressure level determined with a specified integration time. A-weighted and C-weighted values are calculated from octave-band measurements.
|
Under development |
|
Edition : 2 |
Number of pages : 22 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
91.120.20
Acoustics in building. Sound insulation
;
91.140.01
Installations in buildings in general
|
| ISO 16251-1:2014 |
Acoustics — Laboratory measurement of the reduction of transmitted impact noise by floor coverings on a small floor mock-up — Part 1: Heavyweight compact floor |
ISO 16251-1:2014 specifies a laboratory measurement method to determine the improvement of impact sound insulation by a floor covering when laid on a standard concrete floor mock-up and excited by a standard tapping machine. The method is restricted to soft, flexible floor coverings, which transmit impact sound mainly "locally" into the floor, i.e. through the area close to the points of excitation, so that the size of the flooring specimen does not have an influence on the results. Examples of such floor coverings are carpets, PVC, and linoleum. These floor coverings correspond to ISO 10140‑1:2010, Annex H, category I.
The results only provide information about the noise radiated. A subjective classification of the quality of the floor coverings is not intended.
ISO 16251-1:2014 provides the measurement method. Product test codes can contain further requirements concerning the specimens, such as temperature range, the number of test specimens or special mounting conditions.
|
Published |
2014-08 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 16283-1:2014 |
Acoustics — Field measurement of sound insulation in buildings and of building elements — Part 1: Airborne sound insulation |
ISO 16283-1:2014 specifies procedures to determine the airborne sound insulation between two rooms in a building using sound pressure measurements. These procedures are intended for room volumes in the range from 10 m3 to 250 m3 in the frequency range from 50 Hz to 5 000 Hz. The test results can be used to quantify, assess and compare the airborne sound insulation in unfurnished or furnished rooms where the sound field may or may not approximate to a diffuse field. The measured airborne sound insulation is frequency-dependent and can be converted into a single number quantity to characterize the acoustic performance using the rating procedures in ISO 717‑1.
|
Published |
2014-02 |
Edition : 1 |
Number of pages : 43 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 16283-1:2014/Amd 1:2017 |
Acoustics — Field measurement of sound insulation in buildings and of building elements — Part 1: Airborne sound insulation — Amendment 1 |
|
Published |
2017-10 |
Edition : 1 |
Number of pages : 14 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 16283-2:2015 |
Acoustics — Field measurement of sound insulation in buildings and of building elements — Part 2: Impact sound insulation |
ISO 16283-2:20015 specifies procedures to determine the impact sound insulation using sound pressure measurements with an impact source operating on a floor or stairs in a building. These procedures are intended for room volumes in the range from 10 m3 to 250 m3 in the frequency range from 50 Hz to 5 000 Hz. The test results can be used to quantify, assess and compare the impact sound insulation in unfurnished or furnished rooms where the sound field might, or might not approximate to a diffuse field.
Two impact sources are described: the tapping machine and the rubber ball. These impact sources do not exactly replicate all possible types of real impacts on floors or stairs in buildings.
The tapping machine can be used to assess a variety of light, hard impacts such as footsteps from walkers wearing hard-heeled footwear or dropped objects. A single number quantity can be calculated using the rating procedures in ISO 717‑2. This single number quantity links the measured impact sound insulation using the tapping machine to subjective assessment of general impacts in dwellings that occur on floors or stairs in a building. The tapping machine is also well-suited to the prediction of impact sound insulation using ISO 15712‑2. These two aspects facilitate the specification of impact sound insulation in national building requirements using only measurements with the tapping machine as an impact source.
The rubber ball can be used to assess heavy, soft impacts such as from walkers in bare feet or children jumping, as well as quantifying absolute values that can be related to human disturbance in terms of a Fast time-weighted maximum sound pressure level. At present, calculation procedures for a single number quantity do not currently exist in an ISO Standard.
|
Withdrawn |
2015-11 |
Edition : 1 |
Number of pages : 42 |
Technical Committee |
91.060.30
Ceilings. Floors. Stairs
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 16283-2:2018 |
Acoustics — Field measurement of sound insulation in buildings and of building elements — Part 2: Impact sound insulation |
This document specifies procedures to determine the impact sound insulation using sound pressure measurements with an impact source operating on a floor or stairs in a building. These procedures are intended for room volumes in the range from 10 m3 to 250 m3 in the frequency range from 50 Hz to 5 000 Hz. The test results can be used to quantify, assess and compare the impact sound insulation in unfurnished or furnished rooms where the sound field can approximate to a diffuse field.
|
Withdrawn |
2018-05 |
Edition : 2 |
Number of pages : 45 |
Technical Committee |
91.060.30
Ceilings. Floors. Stairs
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 16283-2:2020 |
Acoustics — Field measurement of sound insulation in buildings and of building elements — Part 2: Impact sound insulation |
This document specifies procedures to determine the impact sound insulation using sound pressure measurements with an impact source operating on a floor or stairs in a building. These procedures are intended for room volumes in the range from 10 m3 to 250 m3 in the frequency range from 50 Hz to 5 000 Hz. The test results can be used to quantify, assess and compare the impact sound insulation in unfurnished or furnished rooms where the sound field may or may not approximate to a diffuse field.
|
Published |
2020-07 |
Edition : 3 |
Number of pages : 44 |
Technical Committee |
91.060.30
Ceilings. Floors. Stairs
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 16283-3:2016 |
Acoustics — Field measurement of sound insulation in buildings and of building elements — Part 3: Façade sound insulation |
ISO 16283-3:2016 specifies procedures to determine the airborne sound insulation of façade elements (element methods) and whole façades (global methods) using sound pressure measurements. These procedures are intended for room volumes in the range from 10 m3 to 250 m3 in the frequency range from 50 Hz to 5 000 Hz.
The test results can be used to quantify, assess, and compare the airborne sound insulation in unfurnished or furnished rooms where the sound field can or cannot approximate to a diffuse field. The measured airborne sound insulation is frequency-dependent and can be converted into a single number quantity to characterize the acoustic performance using the rating procedures in ISO 717-1.
|
Published |
2016-02 |
Edition : 1 |
Number of pages : 37 |
Technical Committee |
91.060.10
Walls. Partitions. Façades
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 17497-1:2004 |
Acoustics — Sound-scattering properties of surfaces — Part 1: Measurement of the random-incidence scattering coefficient in a reverberation room |
ISO 17497-1:2004 specifies a method of measuring the random-incidence scattering coefficient of surfaces as caused by surface roughness. The measurements are made in a reverberation room, either in full scale or on a physical scale model. The measurement results can be used to describe how much the sound reflection from a surface deviates from a specular reflection. The results obtained can be used for comparison purposes and for design calculations with respect to room acoustics and noise control.
The method is not intended for characterizing the spatial uniformity of the scattering from a surface.
|
Published |
2004-05 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 17497-1:2004/Amd 1:2014 |
Acoustics — Sound-scattering properties of surfaces — Part 1: Measurement of the random-incidence scattering coefficient in a reverberation room — Amendment 1 |
|
Published |
2014-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 17497-2:2012 |
Acoustics — Sound-scattering properties of surfaces — Part 2: Measurement of the directional diffusion coefficient in a free field |
This part of ISO 17497 specifies a method of measuring the directional diffusion coefficient of surfaces.
The diffusion coefficient characterizes the sound reflected from a surface in terms of the uniformity of the reflected polar distribution. The diffusion coefficient is a measure of quality designed to inform producers and users of surfaces that, either deliberately or accidentally, diffuse sound. It can also inform developers and users of geometric room acoustic models. The diffusion coefficient is not suitable for direct use as an input to current diffusion algorithms in geometric room acoustic models.
This part of ISO 17497 details a free-field characterization method.
|
Published |
2012-05 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 18233:2006 |
Acoustics — Application of new measurement methods in building and room acoustics |
ISO 18233:2006 gives guidelines and specifies requirements for the application of new methods for the measurement of the acoustic properties of buildings and building elements. Guidelines and requirements for selection of the excitation signal, signal processing and environmental control are given, together with requirements for linearity and time-invariance for the systems to be tested.
ISO 18233:2006 is applicable to such measurements as airborne sound insulation between rooms and of façades, measurement of reverberation time and other acoustic parameters of rooms, measurement of sound absorption in a reverberation room, and measurement of vibration level differences and loss factor.
ISO 18233:2006 specifies methods to be used as substitutes for measurement methods specified in standards covering classical methods, such as ISO 140 (all parts), ISO 3382 (all parts) and ISO 17497-1.
|
Published |
2006-06 |
Edition : 1 |
Number of pages : 26 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 2041:2018 |
Mechanical vibration, shock and condition monitoring — Vocabulary |
This document defines terms and expressions unique to the areas of mechanical vibration, shock and condition monitoring.
|
Published |
2018-10 |
Edition : 4 |
Number of pages : 56 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
01.040.17
Metrology and measurement. Physical phenomena (Vocabularies)
|
| ISO 2372:1974 |
Mechanical vibration of machines with operating speeds from 10 to 200 rev/s — Basis for specifying evaluation standards |
|
Withdrawn |
1974-11 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO/TS 19488:2021 |
Acoustics — Acoustic classification of dwellings |
This document describes criteria and procedures for acoustic classification of dwellings.
The purpose of this document is to make it easier for developers to specify a classified level of acoustic quality for a dwelling, and help users and builders to be informed about the acoustic conditions and define increased acoustic quality. The document can also be applied as a general tool to characterize the quality of the existing housing stock and includes provisions for classifying the acoustic quality before and after renovation has taken place. By the acoustic quality for a dwelling is understood the quality of the acoustic performances typically included in building regulations, e.g. sound insulation towards neighbouring premises and road traffic as well as sound from service equipment. Sound insulation and room acoustics internally in a dwelling are not included in the acoustic classes defined.
This document does not have a legal status in a country, unless decided by its own authorities. However, an additional purpose of this document is to help national authorities and standardization organisations to develop or revise national building regulations and acoustic classification schemes.
For the purpose of this document, the term ”dwellings” refers to detached and attached dwelling-houses, buildings with several flats as well as individual dwellings, and a dwelling is the living space for a household.
|
Published |
2021-04 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 20189:2018 |
Acoustics — Screens, furniture and single objects intended for interior use — Rating of sound absorption and sound reduction of elements based on laboratory measurements |
This document specifies how screens, furniture and single objects intended for interior use are assessed with regard to sound absorption and specifies the evaluation of sound attenuation for floor screens. It also specifies under which circumstances various interior products for offices, schools and other public spaces are considered as plane absorbers or as discrete single objects. A product considered as a single object and intended for interior use is measured according to ISO 354 and evaluated by its equivalent sound absorption area or object sound absorption coefficient in octave bands. This document defines interior products and single objects and it comprises additional information regarding measurements and assessment of single objects.
The sound absorption as specified in this document can be used to calculate:
a) reverberation time characteristics in rooms;
b) room acoustic parameters using ray tracing software.
|
Published |
2018-11 |
Edition : 1 |
Number of pages : 28 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 22955:2021 |
Acoustics — Acoustic quality of open office spaces |
This document provides technical guidance to achieve acoustic quality of open office spaces to support dialogue and formal commitment between the various stakeholders involved in the planning, design, construction or layout of open-plan workspaces: end customers, project owners, prescribers, consultants, etc.
It is applicable to all open-plan offices in which the following activities are performed:
— Space type 1: activity not known yet – vacant floor plate;
— Space type 2: activity mainly focusing on outside of the room communication (by telephone/audio/video);
— Space type 3: activity mainly based on collaboration between people at the nearest workstations;
— Space type 4: activity based on a small amount of collaborative work;
— Space type 5: activity that can involve receiving public;
— Space type 6: combining activities within the same space.
More specifically, this document applies to refitting projects of existing business sites (renovation and/or change or add activities) and layout projects for new spaces and spaces delivered unfurnished.
It covers both the activities and the operations of the following stakeholders:
— end customers: diagnosis, survey, expression of needs in keeping with their knowledge in the area of acoustics;
— project owners: drafting contract specifications;
— project management companies (architects, acousticians, ergonomists, economists and consulting engineers): indicating the performance of acoustic solutions and the layout principles used to achieve the result expressed in the specifications;
— building traders: reaching a clear and verifiable target with respect to the choices of materials and implementation;
— Building developer: promoting indoor environmental quality, including acoustic comfort, in estate operations in order to use it as a competitive element;
— specialists in occupational health, safety and quality;
— expert assessments and consultancy.
|
Published |
2021-05 |
Edition : 1 |
Number of pages : 39 |
Technical Committee |
13.140
Noise with respect to human beings
;
91.120.20
Acoustics in building. Sound insulation
|
| ISO 23351-1:2020 |
Acoustics — Measurement of speech level reduction of furniture ensembles and enclosures — Part 1: Laboratory method |
This document specifies a laboratory method to facilitate the comparison of furniture ensembles and enclosures with respect to their ability to reduce the speech level of the occupant speaking inside the product.
In this method, the sound power level is measured in two scenarios: 1) without the product, and 2) with the product. During scenario 1), the test signal is produced by the sound source in an empty room while the product is absent. During scenario 2), the test signal is produced by the sound source inside the product in the occupant's position. Level reduction is the difference of the sound power levels measured in the two scenarios in 1/1-octave frequency bands from 125 Hz to 8 000 Hz. Speech level reduction is a single-number quantity that expresses the corresponding reduction in A-weighted sound power level of standard speech within the entire frequency range from 125 Hz to 8 000 Hz.
The method is applicable for entire furniture ensembles or enclosures, which form a unity that serves one or several occupants, and which are also used to provide improved speech privacy.
This method is not intended for single components used in workstations, such as a screen, a storage unit, a table, a luminaire, a cupboard, a bookshelf, a standard chair, a wall absorber or a ceiling absorber.
|
Published |
2020-06 |
Edition : 1 |
Number of pages : 14 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 2372:1974/Amd 1:1983 |
Mechanical vibration of machines with operating speeds from 10 to 200 rev/s — Basis for specifying evaluation standards — Amendment 1 |
|
Withdrawn |
1983-07 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 2373:1987 |
Mechanical vibration of certain rotating electrical machinery with shaft heights between 80 and 400 mm — Measurement and evaluation of the vibration severity |
|
Withdrawn |
1987-06 |
Edition : 2 |
|
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
29.160.01
Rotating machinery in general
|
| ISO 23591:2021 |
Acoustic quality criteria for music rehearsal rooms and spaces |
This document specifies differentiated criteria for acoustic conditions and characteristics for rooms and spaces used for music rehearsal. The criteria are specified for different types of music, regardless of the type of building in which the spaces are located. The document provides criteria for room acoustics in spaces used for music rehearsal, whether this is the primary use of the spaces or they are multi-purpose spaces. Together with the acoustic criteria, requirements are given for net room height, net room volume and net area.
Criteria for acoustic conditions are differentiated on the basis of three music types: amplified music, quiet acoustic music, and loud acoustic music.
This document is applicable to the planning of new buildings and the refurbishment of existing ones. The document can also be used to assess the suitability of existing spaces for different musical purposes. The document can be used for the adjustment of rooms and spaces whose primary purpose is not music rehearsal such as sports halls, classrooms, assembly halls, multi-purpose rooms, etc. Flexible acoustic solutions can be used in order to cover several purposes of use.
The criteria in this document do not apply to large, specialized concert halls, opera venues and similar spaces which are basically designed for concerts and performances, or specialized music recording studios.
The document does not deal with the need for logistics, storage rooms for instruments and other key support functions relating to music rehearsal. Sound insulation criteria are not included in this document.
|
Published |
2021-09 |
Edition : 1 |
Number of pages : 29 |
Technical Committee |
91.120.20
Acoustics in building. Sound insulation
|
| ISO 2017-1:2005 |
Mechanical vibration and shock — Resilient mounting systems — Part 1: Technical information to be exchanged for the application of isolation systems |
ISO 2017-1:2005 establishes requirements to ensure the appropriate exchange of information between users, manufacturers and suppliers of vibration sources and receivers regarding the application of isolation systems. The sources and the receivers can be machines, structures, people or sensitive equipment subjected to vibrations and shocks generated by machines, railways, road traffic and other external and internal sources where the vibrations are usually transmitted through the ground to a building.
ISO 2017-1:2005 is applicable to the use of new products (source or receiver), and can also be applied to previously installed products when the user wishes to solve a newly arisen vibration problem.
|
Published |
2005-02 |
Edition : 1 |
Number of pages : 17 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 2017-2:2007 |
Mechanical vibration and shock — Resilient mounting systems — Part 2: Technical information to be exchanged for the application of vibration isolation associated with railway systems |
ISO 2017-2:2007 establishes requirements to ensure appropriate exchange of information regarding the application of isolation for vibrations and shocks generated by railway systems.
ISO 2017-2:2007 is applicable to the construction of new railway systems. It may also be applied to previously installed systems when the user wishes to solve a new vibration problem arising from railroad degradation, when new environmental land use planning requirements are put in place, or when new vibration-sensitive land development occurs in proximity to existing railway systems.
It applies to vibration problems encountered in a railway environment but does not address vibration problems within railway cars (carriages) themselves.
ISO 2017-2:2007 intends to give appropriate responses to questions highlighted by the producer and users (why, what, when and how to isolate mechanical systems).
|
Published |
2007-12 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
93.100
Construction of railways
|
| ISO 2017-3:2015 |
Mechanical vibration and shock — Resilient mounting systems — Part 3: Technical information to be exchanged for application of vibration isolation to new buildings |
ISO 2017-3:2015 establishes requirements to ensure appropriate exchange of information regarding the application of isolation of buildings from vibrations and shocks generated by man-made sources.
ISO 2017-3:2015 is applicable only during the design and construction of new buildings in areas affected by important vibrations which can be generated by single or multiple sources (railways, traffic, industrial activity, etc.) The isolation of these buildings serves to ensure the integrity of the structure and equipment inside (including sensitive equipment) and human comfort.
ISO 2017-3:2015 specifies the information to be exchanged between building owner, customer, and vibration isolation supplier. It gives appropriate responses to questions highlighted by the producer and user (why, what, when, and how to isolate mechanical systems).
ISO 2017-3:2015 does not include earthquake and wind-generated forces.
|
Published |
2015-12 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 2017:1982 |
Vibration and shock — Isolators — Procedure for specifying characteristics |
Specifies the subject matter and format for describing resilient mounts, the equipment to be isolated, supporting structure and environment. Is intended to serve as guide for the exchange of technical information between the user and supplier of resilient devices, as required for their proper application.
|
Withdrawn |
1982-11 |
Edition : 2 |
Number of pages : 4 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 2041:1975 |
Vibration and shock — Vocabulary |
|
Withdrawn |
1975-08 |
Edition : 1 |
Number of pages : 53 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
01.040.17
Metrology and measurement. Physical phenomena (Vocabularies)
|
| ISO 5347-0:1987 |
Methods for the calibration of vibration and shock pick-ups — Part 0: Basic concepts |
|
Withdrawn |
1987-07 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 2954:1975 |
Mechanical vibration of rotating and reciprocating machinery — Requirements for instruments for measuring vibration severity |
States the requirements for measuring devices if inaccuracies of measurement are not to exceed a specified value. Devices covered give direct indication or recording of root-mean-square vibration velocity.
|
Withdrawn |
1975-07 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 2954:2012 |
Mechanical vibration of rotating and reciprocating machinery — Requirements for instruments for measuring vibration severity |
|
Published |
2012-04 |
Edition : 2 |
Number of pages : 13 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 3046-5:1978 |
Reciprocating internal combustion engines — Performance — Part 5: Torsional vibrations |
|
Withdrawn |
1978-12 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
27.020
Internal combustion engines
|
| ISO 3046-5:2001 |
Reciprocating internal combustion engines — Performance — Part 5: Torsional vibrations |
|
Published |
2001-12 |
Edition : 2 |
Number of pages : 10 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
27.020
Internal combustion engines
|
| ISO 3482:2022 |
Ships and marine technology — Technical guidelines for active source exploration with ocean bottom seismometers (OBS) |
This document specifies the technical requirements for system makeup, ocean bottom seismometer (OBS) instruments, active sources, field design, exploration operation, data processing for active source exploration with OBS, and their relative terms.
This document is applicable to active source exploration with OBS, but also a useful reference to the passive source exploration with OBS. It can be used in seabed resource exploration, geological disaster surveillance and submarine geoscience research.
|
Published |
2022-05 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
47.020.99
Other standards related to shipbuilding and marine structures
|
| ISO 3945:1977 |
Mechanical vibration of large rotating machines with speed range from 10 to 200 rev/s — Measurement and evaluation of vibration severity in situ |
|
Withdrawn |
1977-03 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 3945:1985 |
Mechanical vibration of large rotating machines with speed range from 10 to 200 r/s — Measurement and evaluation of vibration severity in situ |
|
Withdrawn |
1985-11 |
Edition : 2 |
Number of pages : 6 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 4548-7:1990 |
Methods of test for full-flow lubricating oil filters for internal combustion engines — Part 7: Vibration fatigue test |
Specifies a method of testing the constructional integrity of oil filters to withstand engine or installation vibration. This test is intended to filters with disposable elements with a maximum flow rate of 100 l/min.
|
Withdrawn |
1990-11 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
27.020
Internal combustion engines
|
| ISO 4548-7:2012 |
Methods of test for full-flow lubricating oil filters for internal combustion engines — Part 7: Vibration fatigue test |
ISO 4548.7:2012 specifies a method of testing the constructional integrity of full-flow lubricating oil filters to withstand engine vibrations. This test is intended for application to spin-on type filters and detachable filters with disposable elements with a maximum flow rate of 100 l/min.
This test method is intended for test parts made from materials that do not experience mechanical property changes within the temperature range experienced in service. The test may be applied to other filters if thought applicable by agreement between the filter manufacturer and the purchaser.
|
Published |
2012-10 |
Edition : 2 |
Number of pages : 6 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
27.020
Internal combustion engines
|
| ISO/CD 4548-15 |
Methods of test for full-flow lubricating oil filters for internal combustion engines — Part 15: Vibration fatigue test for composite filter housings |
|
Under development |
|
Edition : 2 |
|
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
27.020
Internal combustion engines
|
| ISO 4866:1990 |
Mechanical vibration and shock — Vibration of buildings — Guidelines for the measurement of vibrations and evaluation of their effects on buildings |
|
Withdrawn |
1990-08 |
Edition : 1 |
Number of pages : 18 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
91.120.25
Seismic and vibration protection
|
| ISO 5347-0:1987/Cor 1:1990 |
Methods for the calibration of vibration and shock pick-ups — Part 0: Basic concepts — Technical Corrigendum 1 |
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Withdrawn |
1990-09 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
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| ISO 4866:1990/Amd 1:1994 |
Mechanical vibration and shock — Vibration of buildings — Guidelines for the measurement of vibrations and evaluation of their effects on buildings — Amendment 1 |
Adds a new annex as annex D and changes the present annex D to annex E.
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Withdrawn |
1994-11 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
91.120.25
Seismic and vibration protection
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| ISO 4866:1990/Amd 2:1996 |
Mechanical vibration and shock — Vibration of buildings — Guidelines for the measurement of vibrations and evaluation of their effects on buildings — Amendment 2 |
Adds the annex E and changes the present annex E to annex F.
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Withdrawn |
1996-12 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
91.120.25
Seismic and vibration protection
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| ISO 4866:2010 |
Mechanical vibration and shock — Vibration of fixed structures — Guidelines for the measurement of vibrations and evaluation of their effects on structures |
ISO 4866:2010 establishes principles for carrying out vibration measurement and processing data with regard to evaluating vibration effects on structures. It does not cover the source of excitation except when the source dictates dynamic range, frequency or other relevant parameters. The evaluation of the effects of structural vibration is primarily obtained from the response of the structure, using appropriate analytical methods by which the frequency, duration and amplitude can be defined. ISO 4866:2010 only deals with the measurement of structural vibration and excludes the measurement of airborne sound pressure and other pressure fluctuations, although response to such excitations is taken into consideration.
ISO 4866:2010 applies to all structures built above or below ground. Such structures are used or maintained and include buildings, structures of archaeological and historical value (cultural heritage), bridges and tunnels, gas and liquid installations including pipelines, earth structures (e.g. dykes and embankments), and fixed marine installations (e.g. quays and wharfs).
ISO 4866:2010 does not apply to some special structures, including nuclear plants and dams.
The response of structures depends upon the excitation. ISO 4866:2010 examines the methods of measurement as affected by the source of excitation, i.e. frequency, duration, and amplitude as induced by any source (e.g. earthquake, hurricane, explosion, wind loading, airborne noise, sonic boom, internal machinery, traffic, and construction activities).
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Published |
2010-03 |
Edition : 2 |
Number of pages : 40 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
91.120.25
Seismic and vibration protection
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| ISO 4867:1984 |
Code for the measurement and reporting of shipboard vibration data |
Establishes uniform procedures for gathering and presenting data on hull vibration, for vibration of propulsion-shaft systems. Gives general principles of vibration measurement to improve vibration engineering.
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Withdrawn |
1984-11 |
Edition : 1 |
Number of pages : 18 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
47.020.01
General standards related to shipbuilding and marine structures
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| ISO 4868:1984 |
Code for the measurement and reporting of local vibration data of ship structures and equipment |
Establishes uniform procedures for gathering and presenting data of local structural elements, superstructures, decks, bulkheads, masts, machines, foundations in sea-going merchant ships. Gives general principles of vibration measurement to improve vibration engineering.
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Withdrawn |
1984-11 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
47.020.01
General standards related to shipbuilding and marine structures
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| ISO/DIS 5309 |
Vibration test methods for lightweight and small civil UAS |
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Under development |
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Edition : 1 |
Number of pages : 13 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
49.020
Aircraft and space vehicles in general
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| ISO 5344:1980 |
Electrodynamic test equipment for generating vibration — Methods of describing equipment characteristics |
Establishes a list and the standard method of obtaining certain properties. Provides three levels of description to be used. Gives for each of these levels a list of the properties to be specified by the manufacturer in his tender and in his literature.
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Withdrawn |
1980-08 |
Edition : 1 |
Number of pages : 32 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
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| ISO 5344:2004 |
Electrodynamic vibration generating systems — Performance characteristics |
ISO 5344:2004 specifies the performance characteristics and performance test conditions for electrodynamic vibration generator systems and provides a list of additional equipment characteristics that can be declared by the equipment manufacturer. This information can be used by the user or the writer of specifications for equipment for the selection of such a system, taking into account its application.
ISO 5344:2004 establishes procedures for calculating the system performance of a system comprising an amplifier from one source and a vibrator from a different source. Such a calculated system performance is less precise than performance measured on a system comprising the actual vibrator and amplifier, and a reserve of calculated force is recommended. It can be desirable to specify separately the acquisition of needed vibrator and/or amplifier interface data, particularly if a vibrator or amplifier is to be acquired to add to an existing installation. It can also be desirable to specify the responsibility for the calculation of performance.
ISO 5344:2004 is applicable to equipment producing sine, random and impulse rectilinear vibration. It is implied that all systems are usable for sine testing at least at a low level, since sine capability is needed for specimen response evaluation and transfer function measurements for random and impulse testing. When random capability is specified, it is implied that some sine capability is also available. Similarly, when impulse capability is specified, it is implied that some sine, but not necessarily random, capability is available.
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Published |
2004-07 |
Edition : 2 |
Number of pages : 27 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5344:2004/Amd 1:2016 |
Electrodynamic vibration generating systems — Performance characteristics — Amendment 1 |
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Published |
2016-12 |
Edition : 2 |
Number of pages : 1 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-3:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 3: Secondary vibration calibration |
Lays down detailed specifications for the instrumentation and procedure to be used for secondary vibration calibration of rectilinear pick-ups and working pick-ups. Is applicable for the following parameters: frequency range - 20 Hz to 5000 Hz; dynamic range - 0,1 µm to 10 mm (frequency-dependent), 1 mm/s to 10 m/s (frequency-dependent), 10 m/s^2 to 1000 m/s^2 (frequency-dependent). The limits of uncertainty applicable are ± 4 % of reading for displacement and velocity pick-ups and ± 2 %, 3 % or 5 % for accelerometers (frequency-dependent).
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-4:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 4: Secondary shock calibration |
Lays down detailed specifications for the instrumentation and procedure to be used for secondary shock calibration of accelerometers. Applies to rectilinear accelerometers of the strain gauge, piezoresistive and piezoelectric types and to secondary standard accelerometers. Is applicable for a time range from 0,1 ms to 10 ms and a dynamic range from 100 m/s^2 to 10^5 m/s^2. The limits of uncertainty applicable are ± 5 % of the reading.
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-5:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 5: Calibration by Earth's gravitation |
Lays down detailed specifications for the instrumentation and procedure to be used for primary calibration of accelerometers using Earth's gravitation. Applies to rectilinear accelerometers with zero-frequency response, mainly of the strain gauge or piezoresistive type, to servopick-ups, and to primary standard and working pick-ups. Is applicable for ± local Earth's gravitation at 0 Hz. The limits of uncertainty applicable are ± 0,01 m/s^2.
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-6:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 6: Primary vibration calibration at low frequencies |
Lays down detailed specifications for the instrumentation and procedure to be used for primary calibration of accelerometers at low frequencies. Applies to all kinds of pick-ups. Is applicable for a frequency range from 0,5 Hz to 20 Hz and a dynamic range from 1 m/s^2 to 200 m/s^2 (frequency-dependent) and from 0,5 mm to 1000 mm. The limits of uncertainty applicable are ± 0,5 % of reading.
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-7:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 7: Primary calibration by centrifuge |
Lays down detailed specifications for the instrumentation and procedure to be used for primary calibration of accelerometers using centrifuge calibration. Applies to rectilinear accelerometers with zero-frequency response, mainly of the strain gauge or piezoresistive type, and to primary standard and working pick-ups. Is applicable for a calibration range from 10 m/s^2 to 1000 m/s^2 (higher accelerations possible) at 0 Hz. The limits of uncertainty applicable are ± 1 % of reading.
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-8:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 8: Primary calibration by dual centrifuge |
Lays down detailed specifications for the instrumentation and procedure to be used for primary calibration of accelerometers using centrifuge calibration. Applies to all types of rectilinear accelerometers, primary standards and working pick-ups. Is applicable for a frequency range from 0,7 Hz to 10 Hz and a dynamic range from 10 m/s^2 to 100 m/s^2. The limits of uncertainty applicable are ± 2 % of reading.
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Published |
1993-12 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-9:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 9: Secondary vibration calibration by comparison of phase angles |
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-10:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 10: Primary calibration by high impact shocks |
Lays down detailed specifications for the instrumentation and procedure to be used for primary high impact shock calibration of accelerometers. Applies to rectilinear accelerometers, mainly of the piezoelectric and piezoresistive type, to primary standards and working accelerometers. Is applicable for a time range from 10 µs to 100 µs and a dynamic range from 10^3 m/s^2 to 10^5 m/s^2. The limits of uncertainty applicable are ± 10 % of reading.
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-11:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 11: Testing of transverse vibration sensitivity |
Lays down detailed specifications for the instrumentation and procedure to be used for transverse vibration sensitivity testing. Applies to rectilinear velocity and acceleration pick-ups. Is applicable for a frequency range from 20 Hz to 5000 Hz and a dynamic range from 10 m/s^2 to 1000 m/s^2 (frequency-dependent) and from 1 mm/s to 1 m/s (frequency-dependent). The limits of uncertainty applicable are ± 10 % of reading.
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-12:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 12: Testing of transverse shock sensitivity |
Lays down detailed specifications for the instrumentation and procedure to be used for transverse shock sensitivity testing. Applies to rectilinear accelerometers of the strain gauge, piezoresistive and piezoelectric type. Is applicable for a time range from 0,01 ms to 10 ms and a dynamic range from 100 m/s^2 to 10^5 m/s^2. The limits of uncertainty applicable are ± 20 % of reading.
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Published |
1993-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-13:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 13: Testing of base strain sensitivity |
Lays down detailed specifications for the instrumentation and procedure to be used for base strain sensitivity testing. Applies to rectilinear accelerometers, mainly of the piezoelectric type. Is applicable for the following parameters: reference values - pick-up base radius of curvature: 25 m, base strain: 2,5 × 10^-4; check values - radius of curvature 62,5 m, strain of base 1 × 10^-4; radius of curvature 12,5 m, strain of base 5 × 10^-4.
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Published |
1993-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-14:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 14: Resonance frequency testing of undamped accelerometers on a steel block |
Lays down detailed specifications for the instrumentation and procedure to be used for resonance frequency testing. It is a very limited method applicable exclusively to undamped accelerometers, mainly of the piezoelectric type, having a mass of less than 30 g. Is applicable for a frequency range from 1 kHz to 50 kHz. The general method for resonance frequency determination, by frequency sweeping and measuring sensitivity as a function of frequency, will be dealt with in a future part of 5347.
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-15:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 15: Testing of acoustic sensitivity |
Lays down detailed specifications for the instrumentation and procedure to be used for acoustic sensitivity testing. Applies to accelerometers. Is applicable for a frequency range of random noise from 125 Hz to 8000 Hz and a sound pressure level of 130 dB (reference value: 2 × 10^-5 Pa).
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Published |
1993-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-16:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 16: Testing of mounting torque sensitivity |
Lays down detailed specifications for the instrumentation and procedure to be used for mounting torque sensitivity testing. Applies to pick-ups mounted by screws, bolts or other threaded fasteners. The change in calibration factor due to the mounting torque is determined. Is applicable for a mounting torque range of one-half of the specified value, the specified value und twice the value of the specified mounting torque.
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Published |
1993-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|
| ISO 5347-17:1993 |
Methods for the calibration of vibration and shock pick-ups — Part 17: Testing of fixed temperature sensitivity |
Lays down detailed specifications for the instrumentation and procedure to be used for fixed temperature sensitivity testing. Applies to rectilinear pick-ups. Is applicable for the following parameters: frequency range: 20 Hz to 1250 Hz; dynamic range: 0,1 µm to 10 mm (frequency-dependent), 1 mm/s to 1 m/s (frequency-dependent), 10 m/s^2 to 1000 m/s^2 (frequency-dependent); temperature range: - 45 °C to + 800 °C. The uncertainty applicable is ± 10 % of reading.
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Withdrawn |
1993-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
|