| Name |
Description |
Abstract |
Status |
Publication date |
Edition |
Number of pages |
Technical committee |
ICS |
| ISO 16293-5:2016 |
Glass in building — Basic soda lime silicate glass products — Part 5: Patterned glass |
ISO 16293-5:2016 specifies dimensional and minimum quality requirements (in respect of visual and pattern faults) for patterned glass, as defined in ISO 16293‑1, for use in building.
ISO 16293-5:2016 applies only to patterned glass supplied in rectangular panes, in stock sizes and in final cut sizes.
|
Published |
2016-12 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16932:2007 |
Glass in building — Destructive-windstorm-resistant security glazing — Test and classification |
ISO 16932:2007 determines resistance of security glazing products to natural threats characterized by simulated destructive-windstorm events. Classification is intended as basis for judging the ability of glazing to remain without openings during a severe tropical cyclone with sustained wind speed of 50 m/s or greater. Impact by missile(s) and subsequent cyclic static-pressure differentials simulate conditions representative of windborne debris and pressures in a destructive windstorm. Glazing is tested in a standard frame. Classification is selected for a geographical location using the appropriate wind speed, pressure and level of protection.
The test method determines the performance of security glazing for use in fenestration assemblies under conditions representative of events that occur in severe, destructive-windstorm environments using simulated missile impact(s) followed by the application of cyclic static-pressure differentials.
A missile propulsion device, an air pressure system and a test chamber are used to model some conditions that can be representative of windborne debris and pressures in a windstorm environment.
The performance determined by this test method relates to the ability of glazing in the building envelope to remain without openings during a windstorm.
|
Withdrawn |
2007-07 |
Edition : 1 |
Number of pages : 17 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16932:2016 |
Glass in building — Destructive-windstorm-resistant security glazing — Test and classification |
ISO 16932:2016 determines resistance of security glazing products to natural threats characterized by simulated destructive-windstorm events. Classification is intended as a basis for judging the ability of glazing to remain essentially without openings during a tropical cyclone with wind speed of 50 m/s or greater. Impact by missile(s) and subsequent cyclic static-pressure differentials simulate conditions representative of windborne debris and pressures in a destructive windstorm. Glazing is tested in a standard frame. Classification is based on the potential hazard to human life using the appropriate wind speed, pressure and level of protection.
The test method determines the performance of security glazing for use in fenestration assemblies under conditions representative of events that occur in severe, destructive-windstorm environments using simulated missile impact(s) followed by the application of cyclic static-pressure differentials.
A missile-propulsion device, an air pressure system and a test chamber are used to model some conditions that can be representative of windborne debris and pressures in a windstorm environment.
The performance determined by this test method relates to the ability of glazing in the building envelope to remain without openings during a windstorm.
|
Withdrawn |
2016-03 |
Edition : 2 |
Number of pages : 19 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16932:2020 |
Glass in building — Destructive-windstorm-resistant security glazing — Test and classification |
1.1 This document determines resistance of security glazing products to natural threats characterized by simulated destructive-windstorm events.
1.2 The test method determines the performance of security-glazing for use in fenestration assemblies under conditions representative of events that occur in severe, destructive-windstorm environments using simulated missile impact(s) followed by the application of cyclic static-pressure differentials.
1.3 A missile-propulsion device, an air pressure system and a test chamber are used to model some conditions that can be representative of windborne debris and pressures in a windstorm environment.
1.4 The performance determined by this test method relates to the ability of glazing in the building envelope to remain without openings during a windstorm.
|
Published |
2020-02 |
Edition : 3 |
Number of pages : 18 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16936-2:2005 |
Glass in building — Forced-entry security glazing — Part 2: Test and classification by repetitive impact of a hammer and axe at room temperature |
ISO 16936-2:2005 specifies requirements and a mechanical test method for security glazing designed to resist actions of manual attack by delaying access of objects and/or persons to a protected space for a short period of time.
ISO 16936-2:2005 classifies security glazing products into categories of resistance against repetitive impacts of a hammer and an axe. The categories of resistance have not been assigned to special applications. Glazing classification should be specified on an individual basis for every application.
ISO 16936-2:2005 deals with mechanical resistance to manual attack only.
|
Published |
2005-07 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16933:2007 |
Glass in building — Explosion-resistant security glazing — Test and classification for arena air-blast loading |
ISO 16933:2006 provides a structured procedure to determine the air-blast resistance of glazing and sets forth the required apparatus, procedures, specimens, other requirements and guidelines for conducting arena air-blast tests of security glazing. Seven standard blasts simulating vehicle bombs and seven standard blasts simulating smaller satchel bombs that can be used to classify glazing performance are incorporated in this International Standard and cover a broad range of blast parameters.
Security glazing, including that fabricated from glass, plastic glazing sheet material, glass-clad plastics, laminated glass, insulated glass, glass/plastic glazing materials and film-backed glass, can be tested and classified in a standard frame or tested but not classified in frames provided with the glazing.
Classification and ratings are assigned based on the performance of glazing loaded by air-blast pressures and impulses and are specific to the blast characteristics under which the test takes place. Glazing that has received an air-blast classification and rating is suitable for use in blast-resistant applications only for blasts of comparable characteristics and only if installed in a properly designed frame. Design based on knowledge of the air-blast resistance reduces the risk of personal injury.
|
Published |
2007-07 |
Edition : 1 |
Number of pages : 22 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16933:2007/Cor 1:2008 |
Glass in building — Explosion-resistant security glazing — Test and classification for arena air-blast loading — Technical Corrigendum 1 |
|
Published |
2008-06 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16934:2007 |
Glass in building — Explosion-resistant security glazing — Test and classification by shock-tube loading |
ISO 16934:2007 specifies a shock tube test method and classification requirements for explosion-pressure-resistant glazing, including glazing fabricated from glass, plastic, glass-clad plastics, laminated glass, glass/plastic glazing materials, and film-backed glass. ISO 16934:2007 provides a structured procedure to determine the blast resistance and the hazard rating of glazing and glazing systems. ISO 16934:2007 sets out procedures to classify such security glazing sheet materials by means of tests on specimens of a standard size in a standard frame for the purpose of comparing their relative explosion resistance and hazard rating.
The procedures and test method can also be used to test, but not classify, glazing systems where the sheet in-fill is incorporated into frames purposely designed as complete products of appropriate size for installation into buildings. ISO 16934:2007 applies a method of test and classifications against blast waves generated in a shock tube facility to simulate high-explosive detonations of approximately 30 kg to 2 500 kg TNT at distances from about 35 m to 50 m. The classifications approximately represent the reflected pressures and impulses that are experienced by these equivalent threat levels on the face of a large building facade positioned perpendicular to the path of the blast waves.
Classification is defined in terms of both blast shock-wave characteristics, expressed in terms of peak reflected pressure, impulse, positive phase duration and wave-form parameter (decay coefficient), and rating criteria, expressed in terms of degrees of glazing damage and fragment impact hazard. Classifications and ratings are assigned based upon the performance of the glazing and are specific to the blast characteristics under which the test has taken place. Glazing that has received an air-blast classification and rating is suitable for use in blast-resistant applications only for blasts of comparable characteristics and only if installed in a properly designed frame. Design based on knowledge of the air blast resistance reduces the risk of personal injury.
|
Published |
2007-07 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16934:2007/Cor 1:2008 |
Glass in building — Explosion-resistant security glazing — Test and classification by shock-tube loading — Technical Corrigendum 1 |
|
Published |
2008-06 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16935:2007 |
Glass in building — Bullet-resistant security glazing — Test and classification |
ISO 16935:2006 sets forth test procedures to evaluate resistance of security glazing materials and products against ballistic impact with classification by weapon and ammunition.
ISO 16935:2006 is applicable to attack by handguns, ammunition fired from machine pistols or submachine guns, rifles and shotguns, on products used for glazing in buildings, for both interior and exterior use.
ISO 16935:2006 assumes the glazing is adequately fixed, but does not apply to the glazing system or the surrounding materials and structure.
|
Published |
2007-02 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16935:2007/Cor 1:2008 |
Glass in building — Bullet-resistant security glazing — Test and classification — Technical Corrigendum 1 |
|
Published |
2008-06 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16936-1:2005 |
Glass in building — Forced-entry security glazing — Part 1: Test and classification by repetitive ball drop |
ISO 16936-1:2005 specifies requirements and a test method for security glazing designed to resist impacts of a hard body by delaying access of objects and/or persons to a protected space for a short period of time.
ISO 16936-1:2005 classifies security-glazing products into categories of resistance to repetitive impacts of a steel sphere. The categories of resistance have not been assigned to special applications. Glazing classification should be specified on an individual basis for every application.
ISO 16936-1:2005 deals with mechanical resistance to impact only.
|
Withdrawn |
2005-07 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16936-1:2020 |
Glass in building — Forced-entry security glazing — Part 1: Test and classification by repetitive ball drop |
This document specifies requirements and a test method for security glazing designed to resist impacts of a hard body by delaying access of objects and/or persons to a protected space for a short period of time. It also classifies security-glazing products into categories of resistance to repetitive impacts of a steel sphere.
In this document, the categories of resistance have not been assigned to special applications. It is intended that the glazing classification be specified on an individual basis for every application and anticipated action of force upon the glazing.
This document deals with mechanical resistance to impact only.
NOTE Other properties can also be important.
|
Published |
2020-02 |
Edition : 2 |
Number of pages : 9 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16936-3:2005 |
Glass in building — Forced-entry security glazing — Part 3: Test and classification by manual attack |
ISO 16936-3:2005 sets forth a physical test method for security glazing designed to resist actions of manual attack by delaying access of objects and/or persons to a protected space for a short period of time. Its application is limited to the evaluation and the classification of the resistance of forced entry security glazing against the following threats: blunt tool impacts; sharp tool impacts; thermal stress; chemical stress (optional). It is not applicable to the use of power (motor- or engine-driven) tools or devices, explosives, military ordinance and tools, and processes or devices requiring more than two persons to transport and operate.
|
Published |
2005-03 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16936-4:2005 |
Glass in building — Forced-entry security glazing — Part 4: Test and classification by pendulum impact under thermally and fire stressed conditions |
ISO 16936-4:2005 specifies requirements and mechanical test methods for security glazing designed to resist actions of manual attack by delaying access of objects and/or persons to a protected space for a short period of time. It also classifies security-glazing products into categories of resistance against manual attack under thermally and fire stressed conditions.
|
Published |
2005-03 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 16940:2008 |
Glass in building — Glazing and airborne sound insulation — Measurement of the mechanical impedance of laminated glass |
ISO 16940:2008 describes a method for the measurement of the loss factor and the equivalent bending rigidity modulus of laminated glass test pieces. The aim is to compare the properties of interlayers. These two parameters (and others such as density and thicknesses of glass components) can be related to the sound transmission loss (STL) of the glazing itself.
|
Published |
2008-12 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/PAS 16940:2004 |
Glass in building — Glazing and airborne sound insulation — Measurement of the mechanical impedance of laminated glass |
ISO/PAS 16940:2004 describes a method for the measurement of the loss factor and the equivalent bending rigidity modulus of laminated glass test pieces. The aim is to compare the properties of interlayers. These two parameters (and others such as density and thicknesses of glass components) can be related to the sound transmission loss (STL) of the glazing itself.
|
Withdrawn |
2004-02 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/TS 18178:2018 |
Glass in building — Laminated solar photovoltaic glass for use in buildings |
This document specifies requirements of appearance, durability and safety, test methods and designation for laminated solar photovoltaic (PV) glass for use in buildings.
This document is applicable to building-integrated photovoltaics (BIPV). Building-attached photovoltaics (BAPV) can refer to this document.
|
Published |
2018-10 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 18543:2017 |
Glass in building — Electrochromic glazings — Accelerated ageing test and requirements |
ISO 18543:2017 specifies the accelerated ageing test and requirements for electrochromic (EC) glazings.
The test method described in ISO 18543:2017 is only applicable to chromogenic glazings that can be switched using an electrical stimulus from high to low transmission states and vice versa. This test method is not applicable to other chromogenic glazings such as photochromic and thermochromic glazings, which do not respond to electrical stimulus.
This test method is applicable to any electrochromic glazing fabricated for vision glass (e.g. insulating glass unit, laminated glass) for use in buildings such as doors, windows, skylights and exterior wall systems and glazing exposed to solar radiation. The layers used for constructing the EC glazing and for electrochromically changing the optical properties can be inorganic or organic materials.
|
Withdrawn |
2017-10 |
Edition : 1 |
Number of pages : 14 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 18543:2021 |
Glass in building — Electrochromic glazings — Accelerated ageing test and requirements |
This document specifies the accelerated ageing test and requirements for electrochromic glazings intended to either control direct or indirect solar transmission, or both. The electrochromic glazings can be assembled as insulating glass unit, laminated glass or combination of both.
The test method described in this document is only applicable to chromogenic glazings that can be switched between different transmission states using an electrical stimulus. This test method is not applicable to other chromogenic glazings such as photochromic and thermochromic glazings, which do not respond to electrical stimulus.
This test method is applicable to any electrochromic glazing fabricated for use in buildings such as in doors, windows, skylights, exterior wall systems and glazing exposed to solar radiation. The materials used for constructing the electrochromic glazing and for electrochromically changing its optical properties can be inorganic or organic materials.
|
Published |
2021-10 |
Edition : 2 |
Number of pages : 13 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 19916-1:2018 |
Glass in building — Vacuum insulating glass — Part 1: Basic specification of products and evaluation methods for thermal and sound insulating performance |
This document specifies product specification for vacuum insulating glass. It also specifies evaluation methods for thermal and sound insulating performance and evaluation methods for thermal insulation durability.
|
Published |
2018-10 |
Edition : 1 |
Number of pages : 33 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 19916-3:2021 |
Glass in building — Vacuum insulating glass — Part 3: Test methods for evaluation of performance under temperature differences |
This document specifies test methods for evaluation of performance of vacuum insulating glass samples with rigid edge seal when subjected to temperature differences between the glass sheets.
This document is not applicable to vacuum insulating glass samples with flexible edge seal.
|
Published |
2021-10 |
Edition : 1 |
Number of pages : 24 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 20492-1:2008 |
Glass in buildings - Insulating glass — Part 1: Durability of edge seals by climate tests |
ISO 20492-1:2008 establishes two methods for testing the durability of edge seals of insulating glass units by means of climate tests. The two methods are designated as approach 1 for markets such as North America and approach 2 for markets such as Europe.
ISO 20492-1:2008 is applicable to pre-assembled, permanently sealed, insulating glass units with one or two airspaces, and with capillary tubes that are intentionally left open to equalize pressure inside the unit with the surrounding atmosphere.
ISO 20492-1:2008 is not applicable to sealed, insulating glass units that contain a spandrel glass coating.
ISO 20492-1:2008 does not apply to insulating glass units whose function is decorative only.
|
Published |
2008-10 |
Edition : 1 |
Number of pages : 32 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/CD 20492-1 |
Glass in buildings - Insulating glass — Part 1: Durability of edge seals by climate tests |
ISO 20492-1:2008 establishes two methods for testing the durability of edge seals of insulating glass units by means of climate tests. The two methods are designated as approach 1 for markets such as North America and approach 2 for markets such as Europe.
ISO 20492-1:2008 is applicable to pre-assembled, permanently sealed, insulating glass units with one or two airspaces, and with capillary tubes that are intentionally left open to equalize pressure inside the unit with the surrounding atmosphere.
ISO 20492-1:2008 is not applicable to sealed, insulating glass units that contain a spandrel glass coating.
ISO 20492-1:2008 does not apply to insulating glass units whose function is decorative only.
|
Under development |
|
Edition : 2 |
|
Technical Committee |
81.040.20
Glass in building
|
| ISO 20492-2:2008 |
Glass in buildings - Insulating glass — Part 2: Chemical fogging tests |
ISO 20492:2008 establishes two methods for testing the resistance to fogging of pre-assembled, permanently sealed insulating glass units or insulating glass units with capillary tubes intentionally left open. The two methods are designated as approach 1 for markets such as North America, and approach 2 for markets such as Europe.
ISO 20492:2008 is not applicable to sealed, insulating glass units containing a spandrel glass coating due to testing limitations.
ISO 20492:2008 does not apply to insulating glass (IG) units whose function is decorative only.
|
Published |
2008-10 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/CD 20492-2 |
Glass in buildings - Insulating glass — Part 2: Chemical fogging tests |
ISO 20492:2008 establishes two methods for testing the resistance to fogging of pre-assembled, permanently sealed insulating glass units or insulating glass units with capillary tubes intentionally left open. The two methods are designated as approach 1 for markets such as North America, and approach 2 for markets such as Europe.
ISO 20492:2008 is not applicable to sealed, insulating glass units containing a spandrel glass coating due to testing limitations.
ISO 20492:2008 does not apply to insulating glass (IG) units whose function is decorative only.
|
Under development |
|
Edition : 2 |
|
Technical Committee |
81.040.20
Glass in building
|
| ISO 20492-3:2010 |
Glass in buildings — Insulating glass — Part 3: Gas concentration and gas leakage |
ISO 20492-3:2010 specifies two methods of test for insulating glass units, including a determination of the gas leakage rate and a determination of gas concentration tolerances. The two methods designated as approach 1, which is intended for use in markets such as North America, and approach 2, which is intended for use in markets such as Europe.
|
Published |
2010-08 |
Edition : 1 |
Number of pages : 27 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/CD 20492-3 |
Glass in buildings — Insulating glass — Part 3: Gas concentration and gas leakage |
ISO 20492-3:2010 specifies two methods of test for insulating glass units, including a determination of the gas leakage rate and a determination of gas concentration tolerances. The two methods designated as approach 1, which is intended for use in markets such as North America, and approach 2, which is intended for use in markets such as Europe.
|
Under development |
|
Edition : 2 |
|
Technical Committee |
81.040.20
Glass in building
|
| ISO 20492-4:2010 |
Glass in buildings — Insulating glass — Part 4: Methods of test for the physical attributes of edge seals |
ISO 20492-4:2010 specifies methods for testing the edge seal strength, and partially testing the moisture and gas permeation through sealants, of glass insulating units. Other parts of ISO 20492 designate two approaches to the standardization of insulating glass units: approach 1 is intended for use in markets such as North America; and approach 2 is intended for use in markets such as Europe.
The methods in ISO 20492-4:2010 are applicable only to approach 2, as defined and used in the other parts of ISO 20492.
In cases where there is no protection against direct ultraviolet radiation at the edges, such as structural sealant glazing systems, it is necessary that additional European technical specifications be followed.
|
Published |
2010-08 |
Edition : 1 |
Number of pages : 24 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/CD 20492-4 |
Glass in buildings — Insulating glass — Part 4: Methods of test for the physical attributes of edge seals |
ISO 20492-4:2010 specifies methods for testing the edge seal strength, and partially testing the moisture and gas permeation through sealants, of glass insulating units. Other parts of ISO 20492 designate two approaches to the standardization of insulating glass units: approach 1 is intended for use in markets such as North America; and approach 2 is intended for use in markets such as Europe.
The methods in ISO 20492-4:2010 are applicable only to approach 2, as defined and used in the other parts of ISO 20492.
In cases where there is no protection against direct ultraviolet radiation at the edges, such as structural sealant glazing systems, it is necessary that additional European technical specifications be followed.
|
Under development |
|
Edition : 2 |
|
Technical Committee |
81.040.20
Glass in building
|
| ISO 20657:2017 |
Glass in building — Heat soaked tempered soda lime silicate safety glass |
ISO 20657:2017 specifies product definitions, product characteristics, i.e. tolerances, flatness, edgework, etc., fracture characteristics, including fragmentation, and the physical and mechanical characteristics of flat heat soaked tempered soda lime silicate safety glass for use in buildings.
ISO 20657:2017 does not cover curved (bent) glass according ISO 11485.
|
Published |
2017-03 |
Edition : 1 |
Number of pages : 50 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/TS 21480:2021 |
Glass in building — General technical requirements of building integrated photovoltaic modules recycling |
This document specifies requirements for the recycling of building integrated photovoltaic (BIPV) modules. It is suitable for crystalline silicon PV modules and thin film modules.
|
Published |
2021-08 |
Edition : 1 |
Number of pages : 17 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/TS 21486:2022 |
Glass in building — Retesting requirements for laminated solar photovoltaic glass for use in buildings |
This document specifies requirements for retesting laminated solar photovoltaic (PV) glass for use in buildings.
This document applies to laminated solar PV glass.
|
Published |
2022-03 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
27.160
Solar energy engineering
;
81.040.20
Glass in building
|
| ISO 21690:2006 |
Glass in building — Glass blocks — Specification and test methods |
ISO 21690:2006 specifies requirements for the properties of glass blocks used for the construction of non-load-bearing walls and horizontally spanning panels. ISO 21690:2006 also specifies test methods used to verify these properties for square, rectangular and circular glass blocks.
|
Withdrawn |
2006-07 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 21690:2021 |
Glass in building — Glass blocks — Specification and test methods |
This document specifies requirements for the properties of glass blocks used for the construction of non-load-bearing walls and horizontally spanning panels. This document also specifies test methods used to verify these properties for square, rectangular and circular glass blocks.
|
Published |
2021-11 |
Edition : 2 |
Number of pages : 12 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 22509:2020 |
Glass in building — Heat strengthened soda lime silicate glass |
This document specifies product definitions, product characteristics (i.e. tolerances, flatness, edgework), fracture characteristics, including fragmentation, and the physical and mechanical characteristics of flat heat strengthened soda lime silicate glass for use in buildings.
This document does not cover surface finished glasses (e.g. sandblasted, acid etched) after heat strengthening.
This document does not cover curved (bent) glass.
Other requirements, not specified in this document, can apply to heat strengthened soda lime silicate glass which is incorporated into assemblies (e.g. laminated glass or insulating glass units), or undergoes an additional treatment (e.g. coating). The additional requirements are specified in the appropriate glass product standard. Heat strengthened soda lime silicate glass, in this case, does not lose its mechanical or thermal characteristics.
|
Published |
2020-09 |
Edition : 1 |
Number of pages : 28 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 22897:2003 |
Glass in building — Glazing and airborne sound insulation — Product descriptions and determination of properties |
ISO 22897:2003 assigns sound insulation values to all transparent, translucent and opaque glass products that are intended to be used in glazed assemblies in buildings, and which exhibit properties of acoustic protection, either as a prime intention or as a supplementary characteristic.
It outlines the procedure by which glass products can be rated according to their acoustic performance, which enables assessment of compliance with the acoustic requirements of buildings.
Rigorous technical analysis of measurement data remains an option, but ISO 22897:2003 is intended to enable the derivation of simpler indices of performance, which can be adopted with confidence by non-specialists.
By adopting the principles of ISO 22897:2003, the formulation of acoustic requirements in building codes and of product specifications to satisfy particular needs for glazing is simplified.
It is recognized that the acoustic test procedures of ISO 140-1 and ISO 140-3 relate fully only to glass panes and their combinations. Although the same principles should be followed as closely as possible, it is inevitable that some compromises are necessary, because of the bulkier construction of other glazing types. Guidelines on how to adapt these to include glass blocks, bricks, structural glazing, channel-shaped glass and pavers are given in Clause 4.
|
Published |
2003-08 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/DIS 22897 |
Glass in building — Glazing and airborne sound insulation — Product descriptions, determination of properties and extension rules |
ISO 22897:2003 assigns sound insulation values to all transparent, translucent and opaque glass products that are intended to be used in glazed assemblies in buildings, and which exhibit properties of acoustic protection, either as a prime intention or as a supplementary characteristic.
It outlines the procedure by which glass products can be rated according to their acoustic performance, which enables assessment of compliance with the acoustic requirements of buildings.
Rigorous technical analysis of measurement data remains an option, but ISO 22897:2003 is intended to enable the derivation of simpler indices of performance, which can be adopted with confidence by non-specialists.
By adopting the principles of ISO 22897:2003, the formulation of acoustic requirements in building codes and of product specifications to satisfy particular needs for glazing is simplified.
It is recognized that the acoustic test procedures of ISO 140-1 and ISO 140-3 relate fully only to glass panes and their combinations. Although the same principles should be followed as closely as possible, it is inevitable that some compromises are necessary, because of the bulkier construction of other glazing types. Guidelines on how to adapt these to include glass blocks, bricks, structural glazing, channel-shaped glass and pavers are given in Clause 4.
|
Under development |
|
Edition : 2 |
Number of pages : 10 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/DIS 23237.2 |
Glass in building – laminated solar photovoltaic glass for use in buildings – light transmittance measurement method |
|
Under development |
|
Edition : 1 |
Number of pages : 7 |
Technical Committee |
27.160
Solar energy engineering
;
81.040.20
Glass in building
|
| ISO 25537:2008 |
Glass in building — Silvered, flat-glass mirror |
ISO 25537:2008 specifies the minimum quality requirements (regarding optical, visual and edge faults) and durability tests for silvered float glass for internal use in buildings.
ISO 25537:2008 applies only to mirrors from silvered glass manufactured from flat, annealed clear or tinted float glass, from 2 mm to 6 mm thick, and supplied in stock/standard sizes and as-cut finished sizes to which no further processing (such as edgework or other fabrication) has been done.
Upon consultation with the mirror manufacturer, it is possible to apply this International Standard to float glass having a thickness less than 2 mm or greater than 6 mm.
ISO 25537:2008 covers the quality requirements of silvered, annealed, monolithic, clear and tinted flat glass mirrors.
Mirrors covered in ISO 25537:2008 are not intended for use in environments, e.g. horse-riding halls, swimming pools, medical baths, saunas, swimming pool areas, chemical laboratories and other corrosive environments, where high humidity or airborne corrosion promoters, or both, are consistently present. This International Standard is not applicable to reflective glass for external glazing applications.
|
Published |
2008-09 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 28278-1:2011 |
Glass in building — Glass products for structural sealant glazing — Part 1: Supported and unsupported monolithic and multiple glazing |
ISO 28278-1:2011 specifies requirements for the suitability of supported and unsupported glass products for use in the structural sealant glazing (SSG) technique. Regarding glass products, ISO 28278-1:2011 constitutes a supplement to the requirements specified in the corresponding international standards with regard to verifying suitability for use in SSG systems.
Only soda lime silicate glass is taken into consideration in ISO 28278-1:2011.
The glass products are installed and bonded into the support under controlled environmental conditions as described in ISO 28278-2.
Plastic glazing is excluded from the scope of ISO 28278-1:2011.
The structural weatherproofing and sealant and outer seal of IGU products, which are commonly used in structural glazing applications are those based on organo-siloxane,"silicone" polymers, and recommended for use by the sealant manufacturer. Where there is a risk of earthquakes, the sealant design may not be sufficient to resist the loads, and complementary arrangements may be necessary.
ISO 28278-1:2011 does not preclude the use of other sealant types where these can demonstrate suitability for service according to ISO 28278-1:2011 and when used following the recommendations of the sealant manufacturer.
|
Published |
2011-12 |
Edition : 1 |
Number of pages : 63 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 28278-2:2010 |
Glass in building — Glass products for structural sealant glazing — Part 2: Assembly rules |
ISO 28278-2:2010 gives guidelines for the assembly and bonding of glass elements in a frame, window, door or curtain-walling construction, or directly into the building by means of structural bonding of the glass element into or onto the framework or directly into the building.
It gives the assembler information that enables him to organize his work and comply with requirements regarding quality control.
Quality control of the assembly process is of the highest importance. ISO 28278-2:2010 provides the minimum requirements for acceptable quality control of the process of structural sealant glazing (SSG) on a single project. The annexes contained at the end of ISO 28278-2:2010 provide the methods to ensure proper application and documentation for a safe and weatherproof glazing assembly product.
This process is intended to be applicable to most SSG projects. The project testing on metal substrates and glass products will determine proper surface preparation and installation instructions.
These rules do not apply to the adhesion or durability of the paint finishes or glass products. This is not intended to be a durability test requirement for the paint and glass products commonly used in the SSG process.
The structural, weatherproofing and sealant products which are commonly used in structural glazing applications are those based on organosiloxane, "silicone" polymers.
ISO 28278-2:2010 does not preclude the use of other sealant types, where these can demonstrate suitability for service according to ISO 28278-2:2010 and when they are used following the recommendations of the sealant manufacturer.
|
Published |
2010-12 |
Edition : 1 |
Number of pages : 33 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 6120:1986 |
Road vehicles — Brake hose assemblies for hydraulic braking systems used with a petroleum-base hydraulic fluid |
|
Withdrawn |
1986-12 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
83.140
Rubber and plastics products
;
43.040.40
Braking systems
|
| ISO 6449:1982 |
Rubber or plastics coated fabrics — Determination of discolouration by cigarette smoke |
|
Withdrawn |
1982-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
83.140
Rubber and plastics products
|
| ISO 29584:2015 |
Glass in building — Pendulum impact testing and classification of safety glass |
The purpose of ISO 29584:2015 is to evaluate, by means of soft body impactors, safe breakage characteristics of glazing products intended to reduce cutting and piercing injuries to persons through accidental impact.
ISO 29584:2015 examines test methods currently employed to determine the pendulum impact performance of safety glass. Use of the methodologies in this International Standard improves the reproducibility of test results and gives a common basis of classification. The aim is for the performance of glass products manufactured and tested in various countries to be better understood and more consistent.
Two types of soft body impactors are defined. The traditional shot bag impactor is detailed both in terms of manufacture and maintenance in an attempt to overcome problems associated with such impactors becoming misshapen. The twin tyre impactor is also detailed.
The test equipment, excluding the impactor, is also described. A method of calibrating the test frame is given. The benefit of calibrating the test equipment is the increased reproducibility of the test results.
Classification of glass products is also detailed. The classification system allows information on the following to be given:
a) the maximum drop height at which the glass either did not break or broke safely, i.e. in a manner similar to laminated glass or toughened glass;
b) the manner in which the glass would break, i.e. as toughened glass, laminated glass, annealed glass, irrespective of whether or not the glass was broken during the test;
c) the maximum drop height at which the glass either did not break or broke safely, i.e. in a manner similar to laminated glass.
ISO 29584:2015 does not specify the intended use of the products, but provides a method of classification in terms of the performance of the materials being tested. The impact energy used for the various levels of classification are designed to provide the intended user or the legislator with the information to assist in defining the level of safety and protection required relative to the intended location at which the selected safety glass is to be used.
|
Published |
2015-12 |
Edition : 1 |
Number of pages : 40 |
Technical Committee |
81.040.20
Glass in building
|
| ISO/TS 29584:2012 |
Glass in building — Pendulum impact testing and classification of safety glass for use in buildings |
ISO/TS 29584:2012 examines test methods currently employed to determine the pendulum impact performance of safety glass. Use of the methodologies in ISO/TS 29584:2012 improves the reproducibility of test results and gives a common basis of classification. The aim is for the performance of glass products manufactured and tested in various countries to be better understood and accepted.
ISO/TS 29584:2012 evaluates, by means of soft body impactors, safe breakage characteristics of glazing products intended to reduce cutting and piercing injuries to persons through accidental impact.
ISO/TS 29584:2012 defines two types of soft body impactor. The traditional shot bag impactor is detailed both in terms of manufacture and maintenance in an attempt to overcome problems associated with such impactors becoming misshapen. The twin tyre impactor is also detailed.
ISO/TS 29584:2012 also describes the test equipment, excluding the impactor. A method of calibrating the test frame is given. The benefit of calibrating the test equipment is the increased reproducibility of the test results.
ISO/TS 29584:2012 also details the classification of glass products. ISO/TS 29584:2012 does not specify the intended use of the products, but provides a method of classification in terms of the performance of the materials being tested. The impact energy used for the various levels of classification are designed to provide the intended user or the legislator with the information to assist in defining the level of safety and protection required relative to the intended location at which the selected safety glass is to be used.
|
Withdrawn |
2012-10 |
Edition : 1 |
Number of pages : 43 |
Technical Committee |
81.040.20
Glass in building
|
| ISO 1184:1983 |
Plastics — Determination of tensile properties of films |
|
Withdrawn |
1983-08 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
83.140
Rubber and plastics products
|
| ISO 1419:1977 |
Fabrics coated with rubber or plastics — Accelerated ageing and simulated service tests |
|
Withdrawn |
1977-05 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
83.140
Rubber and plastics products
|
| ISO 1642:1987 |
Plastics — Industrial laminated sheets based on thermosetting resins — Specification |
|
Withdrawn |
1987-07 |
Edition : 3 |
Number of pages : 21 |
Technical Committee |
83.140
Rubber and plastics products
|
| ISO 3861:1977 |
Rubber hose for grit blasting |
|
Withdrawn |
1977-05 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
83.140
Rubber and plastics products
;
25.220.10
Surface preparation
|
| ISO 3996:1986 |
Road vehicles — Brake hose assemblies for hydraulic braking systems used with a non-petroleum-base hydraulic fluid |
|
Withdrawn |
1986-12 |
Edition : 2 |
Number of pages : 11 |
Technical Committee |
83.140
Rubber and plastics products
;
43.040.40
Braking systems
|
| ISO 4038:1984 |
Road vehicles — Hydraulic braking systems — Pipes, tapped holes, male fittings and hose end fittings |
|
Withdrawn |
1984-02 |
Edition : 2 |
Number of pages : 8 |
Technical Committee |
83.140
Rubber and plastics products
;
43.040.40
Braking systems
|
| ISO 4586-1:1987 |
Decorative high-pressure laminates (HPL) — Sheets based on thermosetting resins — Part 1: Specification |
|
Withdrawn |
1987-12 |
Edition : 2 |
Number of pages : 10 |
Technical Committee |
83.140
Rubber and plastics products
|
| ISO 4586-2:1988 |
Decorative high-pressure laminates (HPL) — Sheets based on thermosetting resins — Part 2: Determination of properties |
|
Withdrawn |
1988-08 |
Edition : 2 |
Number of pages : 43 |
Technical Committee |
83.140
Rubber and plastics products
|
| ISO 4593:1979 |
Plastics — Film and sheeting — Determination of thickness by mechanical scanning |
|
Withdrawn |
1979-12 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
83.140
Rubber and plastics products
|
| ISO 5771:1981 |
Rubber hose and hose assemblies for transferring anhydrous ammonia |
|
Withdrawn |
1981-11 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
83.140
Rubber and plastics products
;
71.120.30
Heat exchangers
|
| ISO 12511:1997/Amd 1:2021 |
Earth-moving machinery — Hour meters — Amendment 1 |
|
Published |
2021-03 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
53.100
Earth-moving machinery
;
39.040.99
Other time-measuring instruments
|
| ISO/DIS 7617-1 |
Plastics-coated fabrics for upholstery — Part 1: Specification for PVC-coated knitted fabrics |
This part of ISO 7617 specifies technical requirements for coated fabrics for upholstered furniture for interior use,
obtained by applying to one side of a weft-knitted base cloth a substantially continuous coating of a suitably
plasticized polymer of vinyl chloride, or a copolymer the major constituent of which is vinyl chloride. Such coatings
are known as poly(vinyl chloride) (PVC) coatings. The present specification covers fabrics coated with solid PVC
and also covers two grades with coatings consisting of a layer of expanded PVC.
|
Under development |
|
Edition : 4 |
|
Technical Committee |
83.140
Rubber and plastics products
;
97.140
Furniture
;
59.080.40
Coated fabrics
|
| ISO 7617-2:1988 |
Plastics-coated fabrics for upholstery — Part 2: Specification for PVC-coated woven fabrics |
|
Withdrawn |
1988-06 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
83.140
Rubber and plastics products
;
97.140
Furniture
|
| ISO 7854:1984 |
Rubber- or plastics-coated fabrics — Determination of resistance to damage by flexing (dynamic method) |
|
Withdrawn |
1984-12 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
83.140
Rubber and plastics products
|
| ISO 8030:1987 |
Rubber and plastics hoses for underground mining — Method of test for flammability |
|
Withdrawn |
1987-12 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
83.140
Rubber and plastics products
;
13.220.40
Ignitability and burning behaviour of materials and products
;
73.100.30
Equipment for drilling and mine excavation
|
| ISO 8295:1986 |
Plastics — Film and sheeting — Determination of the coefficients of friction |
|
Withdrawn |
1986-11 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
83.140
Rubber and plastics products
|
| ISO 8913:1989 |
Aerospace — Lightweight polytetrafluoroethylene (PTFE) hose assemblies, classification 204 degrees C/21 000 kPa — Procurement specification |
|
Withdrawn |
1989-12 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
49.080
Aerospace fluid systems and components
;
83.140
Rubber and plastics products
|
| ISO 9528:1989 |
Aerospace — Standard-weight polytetrafluoroethylene (PTFE) hose assemblies, classification 204 degrees C/21 000 kPa — Procurement specification |
|
Withdrawn |
1989-12 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
49.080
Aerospace fluid systems and components
;
83.140
Rubber and plastics products
|
| ISO 9938:1990 |
Aerospace — Polytetrafluoroethylene (PTFE) hose assemblies, classification 204 degrees C/28 000 kPa — Procurement specification |
|
Withdrawn |
1990-12 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
49.080
Aerospace fluid systems and components
;
83.140
Rubber and plastics products
|
| IWA 5:2006 |
Emergency preparedness |
IWA 5:2006 is the result of discussions at a workshop on emergency preparedness held in Florence, Italy, 24-26 April 2006.
It presents the consensus of the workshop participants in the form of the workshop recommendations.
It provides recommendations and guidance to ISO/TC 223 as the first step in a process that may eventually lead to the development of international standards on this subject.
It provides the reader with some additional resources for further exploration of this area which is crucial to all organizations and entities.
|
Withdrawn |
2006-11 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
13.200
Accident and disaster control
|
| ISO/TR 19083-1:2016 |
Intelligent transport systems — Emergency evacuation and disaster response and recovery — Part 1: Framework and concept of operation |
ISO/TR 19083-1:2016
- defines the framework for the ISO/TR 19083 series of standards related to emergency evacuation and disaster response and recovery,
- establishes the criteria under which public transport should support evacuations and disaster response and recovery based on the magnitude of the disaster and the location as these factors drive the policies, directives and plans for each countries disaster prevention/evacuation systems,
- identifies the types of agencies and organizations involved in a regionally supported evacuation and disaster,
- defines the roles and responsibilities public transport entities should provide in planning, preparing for, and conducting evacuations and disaster response and recovery efforts in support of regional authorities,
- recommends the type of information required and necessary actions to be followed by public transport to ensure efficient and effective transportation in response to recovery from a disaster,
- provides a concept of operation describing the characteristics of the EEDRR Decision Support System from the viewpoint of an individual who will use the system for public transport disaster support, it is the guiding document for public transport services operators who voluntarily wish to develop EEDRR Decision Support Systems, and
- identifies guidelines to improve coordination among regional authorities when public transport disaster support is required.
|
Published |
2016-10 |
Edition : 1 |
Number of pages : 54 |
Technical Committee |
13.200
Accident and disaster control
;
03.220.20
Road transport
;
35.240.60
IT applications in transport
|
| ISO 6182-1:2004 |
Fire protection — Automatic sprinkler systems — Part 1: Requirements and test methods for sprinklers |
ISO 6182-1:2004 specifies performance and marking requirements and test methods for conventional, spray, flat spray and sidewall sprinklers. It is not applicable to sprinklers having multiple orifices.
|
Withdrawn |
2004-02 |
Edition : 2 |
Number of pages : 66 |
Technical Committee |
13.220.20
Fire protection
|
| ISO/DIS 24434-1 |
Radiological protection — Radiological monitoring for emergency workers and population following nuclear/radiological incidents — Part 1: General principles |
|
Under development |
|
Edition : 1 |
Number of pages : 80 |
Technical Committee |
13.100
Occupational safety. Industrial hygiene
;
13.200
Accident and disaster control
;
13.280
Radiation protection
|
| ISO/DIS 37174 |
Smart community infrastructures — Disaster risk reduction — Guidelines for implementing seismometer systems |
This document gives guidelines for the establishment, and maintenance of the seismometer system as a part of the infrastructures for DRR in smart community infrastructures. The seismometer system in this document are for use in disasters induced by earthquakes and volcanic tremors.
This document shows examples on how different types of seismometer can be utilized to meet the needs and expectations of users and helps planners, developers, and operators of communities to properly and effectively use seismometers and its data for disaster risk reduction.
This document does not address how to design and develop seismometer systems.
|
Under development |
|
Edition : 1 |
Number of pages : 17 |
Technical Committee |
13.200
Accident and disaster control
;
17.160
Vibrations, shock and vibration measurements
;
13.020.20
Environmental economics. Sustainability
|
| ISO/R 1896:1971 |
Thermal insulating asbestos boards |
|
Withdrawn |
1971-05 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
13.220.20
Fire protection
;
91.100.40
Products in fibre-reinforced cement
;
91.100.60
Thermal and sound insulating materials
|
| ISO/TR 1896:1991 |
Products in fibre-reinforced cement — Non-combustible fibre-reinforced boards of calcium silicate or cement for insulation and fire protection |
This Technical Report specifies the characteristics, test methods and checking. Calcium silicate slabs for thermal insulation will be covered by a future international standard. The requirements relate to general appearance and finish, geometrical characteristics (nominal length and width, thickness, tolerances on dimensions and shape), nominal density, bending strength, thermal conductivity, non-combustibility, fire protection, thermal shrinkage, moisture movement, sag under humidity, and srew retention.
|
Withdrawn |
1991-01 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
13.220.20
Fire protection
;
91.100.40
Products in fibre-reinforced cement
;
91.100.60
Thermal and sound insulating materials
|
| ISO 5925-1:2007 |
Fire tests — Smoke-control door and shutter assemblies — Part 1: Ambient- and medium-temperature leakage tests |
The test described in ISO 5925-1:2007 determines the rate of leakage of ambient (cold) and medium (warm) temperature smoke from one side of door and shutter assemblies to the other, under the specified test conditions. The test is applicable to door and shutter assemblies of different configurations intended for purposes of controlling the passage of smoke in case of fire.
The acceptable leakage rates for different situations are not addressed in ISO 5925-1:2007, but rather are specified by the regulations of the controlling authorities.
The principle of the test is explained briefly.
|
Published |
2007-09 |
Edition : 2 |
Number of pages : 11 |
Technical Committee |
13.220.20
Fire protection
;
13.220.50
Fire-resistance of building materials and elements
;
91.060.50
Doors and windows
|
| ISO 5925-1:2007/Amd 1:2015 |
Fire tests — Smoke-control door and shutter assemblies — Part 1: Ambient- and medium-temperature leakage tests — Amendment 1 |
|
Published |
2015-02 |
Edition : 2 |
Number of pages : 2 |
Technical Committee |
13.220.20
Fire protection
;
13.220.50
Fire-resistance of building materials and elements
;
91.060.50
Doors and windows
|
| ISO/TR 5925-2:2006 |
Fire tests — Smoke-control door and shutter assemblies — Part 2: Commentary on test method and the applicability of test conditions and the use of test data in a smoke containment strategy |
ISO/TR 5925-2:2006 provides a commentary that explains the general philosophy and factors on which the test specified in Part 1 of ISO 5925 has been designed, to describe the limitations of its application and to provide some general guidance for those who use the result of the test. Smoke control-door and shutter assemblies can be used as part of a smoke containment strategy for the purposes of life safety or property protection.
|
Published |
2006-07 |
Edition : 2 |
Number of pages : 12 |
Technical Committee |
13.220.20
Fire protection
;
13.220.50
Fire-resistance of building materials and elements
;
91.060.50
Doors and windows
|
| ISO 6182-1:1993 |
Fire protection — Automatic sprinkler systems — Part 1: Requirements and test methods for sprinklers |
Specifies performance requirements, test methods and marking requirements for fusible element and glass bulb sprinklers. For special sprinklers, special tests are necessary, which are in preparation.
|
Withdrawn |
1993-06 |
Edition : 1 |
Number of pages : 30 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-1:2014 |
Fire protection — Automatic sprinkler systems — Part 1: Requirements and test methods for sprinklers |
ISO 6182-1:2014 specifies performance and marking requirements and test methods for conventional, spray, flat spray, and sidewall sprinklers. It is not applicable to sprinklers having multiple orifices.
|
Withdrawn |
2014-01 |
Edition : 3 |
Number of pages : 68 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-1:2021 |
Fire protection — Automatic sprinkler systems — Part 1: Requirements and test methods for sprinklers |
This document specifies performance and marking requirements and test methods for conventional, spray, flat spray, sidewall, extended coverage, domestic and storage sprinklers, including early suppression fast response (ESFR), electrically activated sprinklers (EAS) and sprinklers with monitoring of activation (SMA) for use in water-based fire protection systems. This document is not applicable to sprinklers with multiple orifices.
|
Published |
2021-05 |
Edition : 4 |
Number of pages : 125 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-2:1993 |
Fire protection — Automatic sprinkler systems — Part 2: Requirements and test methods for wet alarm valves, retard chambers and water motor alarms |
Gives performance and other requirements, recommendations, and tests for wet alarm valves, retard chambers, water motor alarms and relevant trim, as specified by the manufacturers. Performance and test requirements for other auxiliary components or attachments are not covered.
|
Withdrawn |
1993-06 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-2:2005 |
Fire protection — Automatic sprinkler systems — Part 2: Requirements and test methods for wet alarm valves, retard chambers and water motor alarms |
ISO 6182-2:2005 specifies performance, requirements, methods of test and marking requirements, for wet alarm valves, retard chambers, water motor alarms and manufacturers' specified relevant trim used in wet pipe automatic fire protection systems.
Performance and test requirements for other auxiliary components or attachments to alarm valves are not covered by ISO 6182-2:2005.
|
Withdrawn |
2005-10 |
Edition : 2 |
Number of pages : 22 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-2:2012 |
Fire protection — Automatic sprinkler systems — Part 2: Requirements and test methods for wet alarm valves, retard chambers and water motor alarms |
ISO 6182-2:2012 specifies performance, requirements, methods of test and marking requirements, for wet alarm valves, retard chambers, water motor alarms and manufacturers' specified relevant trim used in wet pipe automatic fire protection systems.
ISO 6182-2:2012 is not applicable to performance and test requirements for other auxiliary components or attachments to alarm valves.
|
Published |
2012-12 |
Edition : 3 |
Number of pages : 20 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-3:1993 |
Fire protection — Automatic sprinkler systems — Part 3: Requirements and test methods for dry pipe valves |
Gives performance and other requirements, recommendations, and tests for dry pipe valves and relevant trim, as specified by the manufacturers. Performance and test requirements for other auxiliary components or attachments are not covered.
|
Withdrawn |
1993-06 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-3:2005 |
Fire protection — Automatic sprinkler systems — Part 3: Requirements and test methods for dry pipe valves |
ISO 6182-3:2005 specifies performance, requirements, methods of test and marking requirements, for dry pipe valves and manufacturers' specified relevant trim used in dry pipe automatic fire protection systems.
Performance and test requirements for other auxiliary components or attachments to dry pipe valves are not covered by ISO 6182-3:2005.
|
Withdrawn |
2005-10 |
Edition : 2 |
Number of pages : 20 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-3:2012 |
Fire protection — Automatic sprinkler systems — Part 3: Requirements and test methods for dry pipe valves |
ISO 6182-3:2012 specifies performance, requirements, methods of test and marking requirements, for dry pipe valves and manufacturer's specified relevant trim used in dry pipe automatic fire protection systems.
Performance and test requirements for other auxiliary components or attachments to dry pipe valves are not covered by ISO 6182-3:2012. Quick opening devices, including accelerators, used with dry pipe valves are covered in 6182-4.
|
Published |
2012-12 |
Edition : 3 |
Number of pages : 19 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-4:1993 |
Fire protection — Automatic sprinkler systems — Part 4: Requirements and test methods for quick-opening devices |
Specifies the performance and testing requirements for quick-opening devices used with dry pipe valves in fire protection systems to hasten the operation of the valves when one or more sprinklers operate. The quick-opening devices include accelerators and exhausters for use with specific dry pipe valves.
|
Withdrawn |
1993-08 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-4:2019 |
Fire protection — Automatic sprinkler systems — Part 4: Requirements and test methods for quick opening devices |
This document specifies the performance and testing requirements for accelerators used with dry pipe valves in fire protection systems to hasten the operation of the valves when one or more sprinklers operate.
|
Published |
2019-03 |
Edition : 2 |
Number of pages : 8 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-5:1995 |
Fire protection — Automatic sprinkler systems — Part 5: Requirements and test methods for deluge valves |
Specifies performance and test requirements for deluge valves employed in deluge and fire protection systems.
|
Withdrawn |
1995-11 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-5:2006 |
Fire protection — Automatic sprinkler systems — Part 5: Requirements and test methods for deluge valves |
ISO 6182-5:2006 specifies performance requirements, methods of test and marking requirements for deluge valves and manufacturers' specified relevant trim used in deluge and pre-action automatic fire protection systems. Deluge valves covered by these requirements can be operated by hydraulic, pneumatic, electric, mechanical, manual, or thermal means or combinations thereof.
Performance and test requirements for other auxiliary components or attachments to deluge valves are not covered by ISO 6182-5:2006.
ISO 6182-5:2006 does not cover thermally operated valves released by heat acting directly on the valve. This type of valve utilizes a thermal device, such as the link-and-lever arrangement or glass bulb of a sprinkler, to hold the valve closed. Operation of the thermal device allows the valve to open.
|
Withdrawn |
2006-03 |
Edition : 2 |
Number of pages : 19 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-5:2012 |
Fire protection — Automatic sprinkler systems — Part 5: Requirements and test methods for deluge valves |
ISO 6182-5:2012 specifies performance requirements, methods of test and marking requirements for deluge valves and manufacturer's specified relevant trim used in deluge and pre-action automatic fire protection systems. Deluge valves covered by these requirements can be operated by hydraulic, pneumatic, electric, mechanical, manual, or thermal means, or combinations thereof.
Performance and test requirements for other auxiliary components or attachments to deluge valves are not covered by ISO 6182-5:2012.
ISO 6182-5:2012 does not cover thermally operated valves released by heat acting directly on the valve. This type of valve utilizes a thermal device, such as the link-and-lever arrangement or glass bulb of a sprinkler, to hold the valve closed. Operation of the thermal device allows the valve to open.
|
Published |
2012-12 |
Edition : 3 |
Number of pages : 19 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-6:2006 |
Fire protection — Automatic sprinkler systems — Part 6: Requirements and test methods for check valves |
ISO 6182-6:2006 specifies performance requirements, methods of test and marking requirements for check valves used in automatic fire protection systems.
|
Withdrawn |
2006-03 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-6:2020 |
Fire protection — Automatic sprinkler systems — Part 6: Requirements and test methods for check valves |
This document specifies performance, requirements, test methods and marking requirements, for check valves used to supply water in automatic fire protection systems.
It is not applicable to trim valves.
|
Published |
2020-03 |
Edition : 2 |
Number of pages : 12 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-7:2004 |
Fire protection — Automatic sprinkler systems — Part 7: Requirements and test methods for early suppression fast response (ESFR) sprinklers |
ISO 6182-7:2004 specifies performance requirements, test methods and marking requirements for fusible element and glass-bulb early suppression fast response (ESFR) sprinklers. It is applicable to ESFR sprinklers with flow constants of 202 ± 8.
|
Withdrawn |
2004-04 |
Edition : 1 |
Number of pages : 40 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-7:2020 |
Fire protection — Automatic sprinkler systems — Part 7: Requirements and test methods for early suppression fast response (ESFR) sprinklers |
This document specifies performance requirements, test methods and marking requirements for pendent early suppression fast response (ESFR) sprinklers.
NOTE This document currently provides requirements for K202 and K242 ESFR pendent sprinklers.
|
Withdrawn |
2020-03 |
Edition : 2 |
Number of pages : 46 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-8:2006 |
Fire protection — Automatic sprinkler systems — Part 8: Requirements and test methods for pre-action dry alarm valves |
ISO 6182-8:2006 specifies performance requirements, methods of test and marking requirements for pre-action dry alarm valves and manufacturers' specified relevant trim used in non-interlock pre-action automatic fire protection systems.
Performance and test requirements for other auxiliary components or attachments to pre-action dry valves are not covered by ISO 6182-8:2006.
|
Withdrawn |
2006-03 |
Edition : 1 |
Number of pages : 22 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-8:2019 |
Fire protection — Automatic sprinkler systems — Part 8: Requirements and test methods for pre-action dry alarm valves |
This document specifies performance requirements, methods of test and marking requirements for pre-action dry alarm valves, valve sets and manufacturers' specified relevant trim used in non-interlock pre-action automatic fire protection systems. Performance and test requirements for other auxiliary components or attachments to pre-action dry valves are not covered by this document.
|
Published |
2019-05 |
Edition : 2 |
Number of pages : 24 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-9:2005 |
Fire protection — Automatic sprinkler system — Part 9: Requirements and test methods for water mist nozzles |
ISO 6182-9:2005 specifies performance requirements, test methods and marking requirements for water mist nozzles.
|
Published |
2005-11 |
Edition : 1 |
Number of pages : 60 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-10:2006 |
Fire protection — Automatic sprinkler systems — Part 10: Requirements and test methods for domestic sprinklers |
ISO 6182-10:2006 specifies performance requirements, test methods and marking requirements for domestic sprinklers.
These sprinklers are intended to provide control of fires in domestic occupancies, to prevent flashover (total involvement) in the room of fire origin and to improve the probability for successful escape or evacuation of the occupants.
|
Withdrawn |
2006-02 |
Edition : 1 |
Number of pages : 42 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-10:2014 |
Fire protection — Automatic sprinkler systems — Part 10: Requirements and test methods for domestic sprinklers |
ISO 6182-10:2014 specifies performance requirements, test methods, and marking requirements for domestic sprinklers.
These sprinklers are intended to provide control of fires in domestic occupancies, to prevent flashover (total involvement) in the room of fire origin and to improve the probability for successful escape or evacuation of the occupants.
|
Withdrawn |
2014-05 |
Edition : 2 |
Number of pages : 54 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-11:2003 |
Fire protection — Automatic sprinkler systems — Part 11: Requirements and test methods for pipe hangers |
ISO 6182-11:2003 specifies performance requirements, test methods and marking requirements for pipe hangers.
|
Withdrawn |
2003-12 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
13.220.20
Fire protection
|
| ISO 6182-11:2019 |
Fire protection — Automatic sprinkler systems — Part 11: Requirements and test methods for pipe hangers |
This document specifies construction requirements, performance requirements, test methods and marking requirements for typical types of pipe hangers.
|
Published |
2019-05 |
Edition : 2 |
Number of pages : 14 |
Technical Committee |
13.220.20
Fire protection
|