| Name |
Description |
Abstract |
Status |
Publication date |
Edition |
Number of pages |
Technical committee |
ICS |
| ISO/DTR 23474 |
Safety of machinery — Ergonomic principles for the design of sorting cabins intended for the manual sorting of dry household and similar waste originating from selective collection |
|
Under development |
|
Edition : 1 |
|
Technical Committee |
13.110
Safety of machinery
;
13.180
Ergonomics
|
| ISO/TR 23476:2021 |
Ergonomics — Application of ISO 11226, the ISO 11228 series and ISO/TR 12295 in the agricultural sector |
This document is intended to be used alongside ISO/TR 12295, ISO 11226 and the ISO 11228 series in the agricultural sector. This document gives information on how existing standards can be used in a global sector such as agriculture where, albeit with different characteristics, biomechanical overload is a relevant aspect, WMSDs are common and specific preventive actions are needed.
The proposed project aims to:
1) define the user(s) and fields for its application (including non-experts in ergonomics);
2) provide examples of procedures for hazard identification, risk estimation or evaluation and risk reduction in different agricultural settings, through:
— more synthetic procedural schemes (main test);
— more analytical explanations of the procedures, through mathematical models and application examples, also with the use of specific free simple tools, in:
— Annex A (pre-mapping with ERGOCHECK);
— Annex B (evaluation of Multitask risk of biomechanical overload on typical agricultural macro-cycles, considering upper limbs repetitive movements, manual lifting and carrying, pushing-pulling);
— Annex C (study of awkward postures with criteria derived from the actual standards and scientific literature as TACOS method).
|
Published |
2021-06 |
Edition : 1 |
Number of pages : 133 |
Technical Committee |
13.180
Ergonomics
|
| ISO/DIS 24227 |
Validation protocol for walking speed as extracted from various sensor systems that measure human body motion for the healthcare sector |
|
Under development |
|
Edition : 1 |
Number of pages : 7 |
Technical Committee |
13.180
Ergonomics
|
| ISO 24505:2016 |
Ergonomics — Accessible design — Method for creating colour combinations taking account of age-related changes in human colour vision |
ISO 24505:2016 provides a method for creating conspicuous colour combinations for use in visual signs and displays taking into account viewer age. It is based on the perceived similarity of colours at photopic and mesopic lighting conditions.
ISO 24505:2016 applies to the design of visual signs and displays in which multiple colours are used so that the colours are conspicuous to people of any age, including older people who do not have deficient colour vision. The method and data in this International Standard are not applicable to the design of visual signs and displays for people with colour deficiencies or medical disorders affecting vision.
Basically, this International Standard applies to the reflective or object mode colours, but may apply to self-luminous mode colours if the colour coordinates are appropriately transferred to those of the object mode colours.
|
Published |
2016-04 |
Edition : 1 |
Number of pages : 25 |
Technical Committee |
13.180
Ergonomics
|
| ISO 24500:2010 |
Ergonomics — Accessible design — Auditory signals for consumer products |
ISO 24500:2010 specifies the auditory signals used as a means of feedback for operations or conditions of consumer products when used by a person with or without visual or auditory impairment. It is intended to be applied as appropriate to such products depending on the product type and its conditions of use.
It is applicable to auditory signals of a fixed frequency used in general applications (also called “beep sounds”), but not to variable frequency or melodic sounds.
It does not specify fire or gas leak alarm sounds or crime prevention alarm sounds (determined by other laws and regulations), electronic chimes, voice guides or other sounds particular to communication instruments such as telephones; nor is it applicable to auditory danger signals for public or work areas (covered in ISO 7731, ISO 8201, and ISO 11429).
It is not applicable to machines and equipment used for professional work; nor does it specify the sound pressure levels of auditory signals from the consumer products (for the determination of these levels, taking into consideration accessible design, see ISO 24501).
|
Published |
2010-10 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
13.180
Ergonomics
;
11.180.15
Aids for deaf and hearing impaired people
|
| ISO 24501:2010 |
Ergonomics — Accessible design — Sound pressure levels of auditory signals for consumer products |
ISO 24501:2010 specifies methods for determining the sound pressure level range of auditory signals so that the users of consumer products, including people with age-related hearing loss, can hear the signal properly in the presence of interfering sounds.
Auditory signals, in ISO 24501:2010, refer to sounds with a fixed frequency (also called beep sounds) and do not include variable frequency sounds, melodic sounds, or voice guides.
ISO 24501:2010 is applicable to auditory signals which are heard at an approximate maximum distance of 4 m from the product, as long as no physical barrier exists between the product and the user. It is not applicable to auditory signals heard through a head receiver or earphones, or to those heard with the ear located very near to the sound source because of the interference of the head with sound propagation.
ISO 24501:2010 does not specify the sound pressure level of auditory signals regulated by other statutes, such as those for fire alarms, gas leakages and crime prevention, nor does it specify auditory signals particular to a communication tool such as telephones.
ISO 24501:2010 does not specify auditory danger signals for public or work areas which are covered in ISO 7731, ISO 8201, and ISO 11429.
|
Published |
2010-12 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
13.180
Ergonomics
;
11.180.15
Aids for deaf and hearing impaired people
|
| ISO 24502:2010 |
Ergonomics — Accessible design — Specification of age-related luminance contrast for coloured light |
ISO 24502:2010 specifies the age-related luminance contrast of any two lights of different colour seen by a person at any age, by taking into account the age-related change of spectral luminous efficiency of the eye.
ISO 24502:2010 provides a basic method of calculation that can be applied to the design of lighting, visual signs and displays. It applies to light, self-luminous or reflected, in visual signs and displays seen under moderately bright conditions called photopic vision and whose spectral radiance is known or measurable. It does not apply to light seen under darker conditions called mesopic or scotopic vision.
ISO 24502:2010 specifies the luminance contrast for people aged from 10 to 79 years who have had no medical treatment or surgery on their eyes that may affect their spectral luminous efficiency.
ISO 24502:2010 does not apply to visual signs and displays seen by people with colour defects whose spectral luminous efficiency is different from those with normal colour vision, nor those seen by people with low vision.
|
Published |
2010-12 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
13.180
Ergonomics
;
11.180.30
Aids for blind or partially sighted people
|
| ISO 24503:2011 |
Ergonomics — Accessible design — Tactile dots and bars on consumer products |
ISO 24503:2011 specifies requirements for the design of tactile dots and tactile bars for use on consumer products to improve accessibility for everyone, including older persons and persons with disabilities.
ISO 24503:2011 is applicable to consumer products used by persons with visual disabilities, and in cases where visual information is not the primary sense used for accomplishing the task.
Alternative tactile methods, such as texture and vibration, and other tactile symbols, such as triangles and squares, are not covered in ISO 24503:2011.
Alternative feedback methods, such as in acoustic and visual modalities, are not covered in ISO 24503:2011.
|
Published |
2011-02 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
13.180
Ergonomics
;
11.180.30
Aids for blind or partially sighted people
|
| ISO 24504:2014 |
Ergonomics — Accessible design — Sound pressure levels of spoken announcements for products and public address systems |
ISO 24504:2014 specifies methods to determine an appropriate sound pressure level range for spoken announcements in environments where ambient noise is less than 80 dB. The specified methods follow the concepts of ISO/IEC Guide 71 and includes consideration of older persons with decreased hearing ability to determine sound pressure levels of spoken announcements. The spoken speech levels specified are for products and public-address systems.
ISO 24504:2014 is applicable when a loudspeaker producing a spoken announcement is located a short distance from the user in an environment where the sound pressure level with a standard frequency weighting A of ambient noise does not exceed 80 dB. It is applicable to spoken announcements that are audible to persons with normal hearing for their age when presented by a target product under quiet and anechoic conditions, and for both recorded voice and synthetic speech announcements.
It is not applicable to products providing private information such as automated teller machines in public spaces, nor to spoken announcements heard through headphones or earphones, or with the ear close to the speech sound source such as ear speakers. It does not specify the sound pressure levels of spoken announcements for systems with automatic sound pressure level control to compensate for fluctuating ambient noise levels, nor those presented in emergency situations such as signals for fire alarms, gas leakage and crime prevention (covered in ISO 7240‑16 and ISO 7240‑19), or in automobiles (covered in ISO 15006). It considers only the audibility of speech and not the process of speech understanding.
|
Published |
2014-08 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
13.180
Ergonomics
|
| ISO/R 190:1961 |
Tensile testing of light metals and their alloys |
|
Withdrawn |
1961-03 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
77.040.10
Mechanical testing of metals
|
| ISO 24508:2019 |
Ergonomics — Accessible design — Guidelines for designing tactile symbols and characters |
This document provides design guidelines and requirements for tactile symbols and characters used for information and marking for people who need non-visual or non-auditory information. It is applicable to products, facilities and equipment in housing and transportation, services and packaging, where tactile symbols and characters may be used.
This document specifies the physical characteristics of tactile symbols and characters for ease of legibility by touch taking into account human abilities of tactile sense and their aging effect. It does not specify semantic characteristics of tactile symbols and characters.
This document is applicable to tactile symbols and characters of convex-type touched by fingers.
It is not applicable to specifically coded tactile symbols or characters such as those of Braille, nor to those with vibratory or temporal changes.
|
Published |
2019-03 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
13.180
Ergonomics
;
11.180.30
Aids for blind or partially sighted people
|
| ISO 24509:2019 |
Ergonomics — Accessible design — A method for estimating minimum legible font size for people at any age |
This document provides a method for estimating minimum legible font size for single characters, but not for words or sentences, in self-luminous or reflected mode, used in documents, products labels, signs, and displays for people at any age and in any viewing condition in which viewing distance, luminance and contrast are varied.
This document applies designing and evaluating legibility of single characters for people at any age who have no pathological disorders in their eyes, but not for people with visual impairments such as low vision. The application is specifically directed to, but not limited to, the cases of printed materials where fixed font size is used.
Applicability of the method to other languages is given in Annex F.
|
Published |
2019-10 |
Edition : 1 |
Number of pages : 37 |
Technical Committee |
13.180
Ergonomics
|
| ISO 24550:2019 |
Ergonomics — Accessible design — Indicator lights on consumer products |
This document specifies design requirements and recommendations for indicator lights, mainly LED sourced, on consumer products for use by older people and people with visual disabilities. It does not consider the needs of persons who are blind.
Indicator lights include those that inform users visually about the conditions, changes in functional status and settings, and malfunction of products. They convey information by light on/off, time-modulated intensity, blinking, colour, luminance level, and layout.
This document addresses household and home appliances. It excludes electronic displays presenting characters and graphics, machinery, and appliances in special use for professional, technical, and industrial applications.
|
Published |
2019-10 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
13.180
Ergonomics
;
11.180.30
Aids for blind or partially sighted people
|
| ISO 24551:2019 |
Ergonomics — Accessible design — Spoken instructions of consumer products |
This document specifies ergonomic requirements and recommendations for consumer product spoken instructions that are provided to guide users in the operation of a product and/or as a means of providing feedback to users about the status/state of a product. Such instructions can be used by persons with or without visual impairments, and are useful for users who have difficulty reading and/or cognitive impairments.
The applicability of the requirements and recommendations described in this document does not depend on the language of the instructions or whether the instructions are provided via recorded human speech or synthesized speech from text.
The requirements and recommendations in this document are applicable to conventional, stand-alone consumer products in general, whose function is limited by characteristics that prevent a user from attaching, installing or using assistive technology in order to use the product. They are not applicable to machines and equipment used for professional work.
This document does not apply to products for which the instructional content and/or the means of presentation are specified in other standards (e.g. medical devices, fire alarms). It also does not provide recommendations or requirements for spoken instructions of Interactive Voice Response (IVR) systems or digital assistants on personal computers or similar devices.
NOTE ISO 9241‑154 provides recommendations or requirements for IVR systems.
This document does not specify voice sounds of text-to-speech systems or narrative speech used in place of printed instruction manuals and independently from the product.
|
Published |
2019-10 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
13.180
Ergonomics
;
11.180.30
Aids for blind or partially sighted people
|
| ISO 24552:2020 |
Ergonomics — Accessible design — Accessibility of information presented on visual displays of small consumer products |
This document specifies the methods to improve accessibility of the visual display on small consumer products in order to minimize inconveniences that a variety of users including people with disabilities and the elderly can experience while using those products.
In particular, this document focusses on how to present information on small visual displays to make the product more accessible for older people and people with low vision or colour deficiency. The provision of different modalities or alternative ways of displaying information to make the product more accessible is not covered in this document. This document only covers accessibility with regard to visual presentation of information, not audio or tactile-based display methods.
NOTE 1 Accessibility of a product can be enhanced by adopting alternative means to the visual presentation of the information, which is not covered in this document. For information about alternative forms of presentation, ISO/IEC Guide 71, ISO 9241‑112 and ISO 9241‑171 can be useful.
NOTE 2 A comprehensive catalogue of accessibility needs and strategies for accommodation for all users (not only those with visual impairments) is out of scope for this document. Readers interested in this regard can refer to ISO/IEC 29138‑1.
This document applies to various consumer products equipped with digital displays, in which the information about operation of the product is visually presented. The products are usually equipped with built-in display panels. The consumer products include those hand-held products that can be easily carried by the user or those that are not portable but equipped with small displays, though the size of the product or the display is not specified in this document.
NOTE 3 This document focusses on the accessibility of small displays, regardless of the size of the consumer product.
NOTE 4 Examples include, but are not limited to, electronic thermometers, digital cameras, air-conditioning systems, remote controllers.
This document is not applicable to those products with high flexibility or adjustability in presenting information on the display. Some examples are web- or application-based displays of ICT devices such as smart phones, smart TVs, and tablet PCs. It is not applicable to touch-based displays that have both the functions of display and control. Some examples are touch interfaces of smart watches or digital cameras. Finally, accessibility issues relating to indicating lamps/lights used for simple alerts or alarm are covered in ISO 24550 and are not considered in this document.
NOTE 5 There are many accessibility issues in the touch interface related to information presentation as well as control function and they need to be dealt with together.
It is possible that some guidance of this document is not applicable to some products, such as oral or ear thermometers, which have extremely small in-built displays.
|
Published |
2020-03 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
13.180
Ergonomics
;
35.180
IT terminal and other peripheral equipment
|
| ISO/DIS 4717 |
Water quality — Protactinium-231 — Test method using ICP-MS |
|
Under development |
|
Edition : 1 |
Number of pages : 18 |
Technical Committee |
17.240
Radiation measurements
;
13.060.60
Examination of physical properties of water
|
| ISO 24553:2023 |
Ergonomics — Accessible design — Ease of operation |
This document provides ergonomic requirements and recommendations for increasing accessibility in terms of ease of operation through the design of products and controls of daily use. It is intended to aid the design of products and equipment that can be handled and manipulated easily and comfortably by people with the widest range of physical characteristics, capabilities and limitations across the widest age range.
The requirements and recommendations specified in this document are based on general accessibility considerations as well as specific design considerations based on human physical characteristics, capabilities and limitations related to the operation of products and equipment, such as body size, strength, reach range and dexterity. Some considerations of cognitive factors are also presented.
Products and equipment for professional use only, as well as those used only by technical experts, are not covered in this document. Design aspects related only to information and marking are not included.
This document includes no general ergonomic requirements or recommendations for manual handling, working postures or safety of machinery but the contents are based on general knowledge of those issues.
NOTE ISO 11226, ISO 11228-1, ISO 11228-2, ISO 11228-3, EN 894-3+A1, EN 1005-2, EN 1005-3, EN 1005-4 and EN 1005-5 provide ergonomic requirements and recommendations for manual handling, working postures and safety of machinery.
|
Published |
2023-02 |
Edition : 1 |
Number of pages : 61 |
Technical Committee |
13.180
Ergonomics
|
| ISO 25065:2019 |
Systems and software engineering — Software product Quality Requirements and Evaluation (SQuaRE) — Common Industry Format (CIF) for Usability: User requirements specification |
This document provides a framework and consistent terminology for specifying user requirements. It specifies the common industry format (CIF) for a user requirement specification including the content elements and the format for stating those requirements.
NOTE 1 A user requirements specification is the formal documentation of a set of user requirements, which aids in the development and evaluation of usable interactive systems.
In this document, user requirements refers to:
a) user-system interaction requirements for achieving intended outcomes (including requirements for system outputs and their attributes);
b) use-related quality requirements that specify the quality criteria associated with the outcomes of users interacting with the interactive system and can be used as criteria for system acceptance.
NOTE 2 ISO/IEC 25030 introduces the concept of quality requirements. The use-related quality requirements in this document are a particular type of quality requirement.
The content elements of a user requirements specification are intended to be used as part of documentation resulting from the activities specified in ISO 9241-210, and from human centred design processes, such as those in ISO 9241-220.
This document is intended to be used by requirements engineers, business analysts, product managers, product owners, and people acquiring systems from third parties.
The CIF series of standards addresses usability-related information (as described in ISO 9241-11 and ISO/IEC TR 25060).
NOTE 3 In addition to usability, user requirements can include other perspectives, such as human-centred quality introduced in ISO 9241-220, and other quality perspectives presented in ISO/IEC 25010, ISO/IEC TS 25011, and ISO/IEC 25030.
NOTE 4 While this document was developed for interactive systems, the guidance can also be applied in other domains.
This document does not prescribe any kind of method, lifecycle or process. The content elements of a user requirements specification can be used in iterative development which includes the elaboration and evolution of requirements (e.g. as in agile development).
|
Published |
2019-05 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
13.180
Ergonomics
;
35.080
Software
|
| ISO/CD TR 25555 |
Ageing societies — Accessibility and usability considerations for home-based healthcare products, related services and environments |
|
Under development |
|
Edition : 1 |
|
Technical Committee |
13.180
Ergonomics
;
11.020.10
Health care services in general
|
| ISO 26022:2010 |
Road vehicles — Ergonomic aspects of transport information and control systems — Simulated lane change test to assess in-vehicle secondary task demand |
ISO 26022:2010 describes a dynamic dual-task method that quantitatively measures human performance degradation on a primary driving-like task while a secondary task is being performed. The result is an estimate of secondary task demand.
The method is laboratory based, and ISO 26022:2010 defines the method, the minimum requirements for equipment to support the method, and procedures for collecting and analyzing data derived from the method.
The method is applicable to all types of interactions with in-vehicle information, communication, entertainment and control systems; manual, visual, haptic and auditory, and combinations thereof. Secondary tasks requiring speed variations to be performed cannot be tested with this method. It applies to both Original Equipment Manufacturer (OEM) and aftermarket in-vehicle systems. It also applies to systems either portable or integrated into the vehicle. The driver behaviour principles, the specific task procedures and driving task correspond only to the operation of a passenger car.
|
Published |
2010-09 |
Edition : 1 |
Number of pages : 41 |
Technical Committee |
13.180
Ergonomics
;
43.040.15
Car informatics. On board computer systems
|
| ISO 26800:2011 |
Ergonomics — General approach, principles and concepts |
ISO 26800:2011 presents the general ergonomics approach and specifies basic ergonomics principles and concepts. These are applicable to the design and evaluation of tasks, jobs, products, tools, equipment, systems, organizations, services, facilities and environments, in order to make them compatible with the characteristics, the needs and values, and the abilities and limitations of people.
The provisions and guidance given by ISO 26800:2011 are intended to improve the safety, performance, effectiveness, efficiency, reliability, availability and maintainability of the design outcome throughout its life cycle, while safeguarding and enhancing the health, well-being and satisfaction of those involved or affected.
The intended users of ISO 26800:2011 are designers, ergonomists and project managers, as well as managers, workers, consumers (or their representatives) and procurers. It also serves as a reference standard for standards developers dealing with ergonomics aspects.
|
Published |
2011-08 |
Edition : 1 |
Number of pages : 18 |
Technical Committee |
13.180
Ergonomics
;
01.040.13
Environment. Health protection. Safety (Vocabularies)
|
| ISO 4126-1:2004 |
Safety devices for protection against excessive pressure — Part 1: Safety valves |
ISO 4126-1:2004 specifies general requirements for safety valves irrespective of the fluid for which they are designed. It is applicable to safety valves having a flow diameter of 6 mm and above which are for use at set pressures of 0,1 bar gauge and above. No limitation is placed on temperature. This is a product standard and is not concerned with applications for safety valves.
|
Withdrawn |
2004-02 |
Edition : 2 |
Number of pages : 24 |
Technical Committee |
13.240
Protection against excessive pressure
|
| ISO 27500:2016 |
The human-centred organization — Rationale and general principles |
ISO 27500:2016 is intended for executive board members and policy makers of all types of organizations (whether large or small) in the private, public and non-profit sectors.
It describes the values and beliefs that make an organization human-centred, the significant business benefits that can be achieved, and explains the risks for the organization of not being human-centred. It provides recommendations for the policies that executive board members need to implement to achieve this. It sets out high-level human-centred principles for executive board members to endorse in order to optimize performance, minimize risks to organizations and individuals, maximize well-being in their organization, and enhance their relationships with the customers. The importance of organizational policy to address human-centredness is emphasized.
ISO 27500:2016 is not a management system standard. It is not intended or appropriate for certification purposes or regulatory or contractual use.
ISO 27500:2016 is not intended to prevent the development of national standards that are more specific or demanding.
|
Published |
2016-03 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
13.180
Ergonomics
|
| ISO 27501:2019 |
The human-centred organization — Guidance for managers |
This document is intended to be used within organizations that embrace and intend to implement the principles of human centredness outlined in ISO 27500.
This document is intended to provide requirements and recommendations on the human factors and ergonomics approach to achieving a successful and sustainable human-centred organization. It outlines managers' responsibilities ranging from organizational strategy to development of procedures and processes enabling human centredness, and the implementation of those procedures and processes.
This document provides requirements and recommendations for managers and the actions to be taken in order for an organization to achieve human centredness.
This document can be used:
a) by managers to understand and improve human-centred aspects of their activities;
b) by managers to identify how their staff can improve human-centred aspects of their activities;
c) to provide a basis for training managers how to be human-centred;
d) to provide a basis for organizations to evaluate the performance of managers.
It is not a management systems standard. Nor is it intended to prevent the development of standards that are more specific or more demanding.
|
Published |
2019-02 |
Edition : 1 |
Number of pages : 28 |
Technical Committee |
13.180
Ergonomics
|
| ISO 28802:2012 |
Ergonomics of the physical environment — Assessment of environments by means of an environmental survey involving physical measurements of the environment and subjective responses of people |
This International Standard provides an environmental survey method for the assessment of the comfort and
well-being of occupants of indoor and outdoor environments. It is not restricted to any particular environment,
but provides the general principles that allow assessment and evaluation.
It presents the principles for conducting an environmental survey to assess the comfort and well-being of people
in environments. It gives guidance on the design of the survey, as well as on the environmental measurements
used to quantify the environment and the subjective assessment methods used to quantify the occupants'
responses to that environment. It does not provide guidance on the design of subjective scales.
It is applicable to built as well as other environments, including vehicle and outdoor environments, and to all
the occupants of those environments who can be considered as providing valid responses to an environmental
survey. There may be specific features of certain types of environment that have to be taken into account;
however, the general principles it outlines will apply.
This International Standard is not restricted to specific environmental components. It includes assessment of
thermal environments, the acoustic environment, the visual and lit environment, air quality and other environmental
factors that could be considered to influence the comfort and well-being of the occupants of an environment.
It is a basic ergonomics standard which can contribute to the development of standards concerned with specific
environments such as those found in buildings. It is intended to be used by people involved in the general
assessment and evaluation of physical environments, including general ergonomics practitioners as well as
those who develop standards and guidelines for specific applications.
NOTE The results of the environmental survey produced by the application of this International Standard may identify
specific problems that require expert advice.
|
Published |
2012-03 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
13.180
Ergonomics
|
| ISO 28803:2012 |
Ergonomics of the physical environment — Application of International Standards to people with special requirements |
This International Standard describes how International Standards concerned with the ergonomics of the
physical environment can be applied for people with special requirements, who would otherwise be considered
to be beyond the scope of those standards. It has been produced according to the principles of accessible
design provided in ISO/IEC Guide 71 and using the data provided in ISO/TR 22411.
It is not restricted to any specific environment but provides the general principles that allow assessment and
evaluation, and can contribute to the development of standards concerned with specific environments. It is
applicable to built environments as well as to other indoor, vehicle and outdoor environments. Nor is it restricted
to specific environmental components; it includes assessment of acoustic environments, thermal environments,
lighting, air quality and other environmental factors that could be considered to influence the health, comfort
and performance of people with special requirements in an environment.
It is applicable to all occupants of such environments who can be considered to have special requirements.
NOTE This will depend upon context and can, for example, include babies, infants, men or women, people with
disabilities, older or ill people. A person could have a special requirement in one type of environment but not in another.
|
Published |
2012-03 |
Edition : 1 |
Number of pages : 19 |
Technical Committee |
13.180
Ergonomics
|
| ISO/IEC TR 29194:2015 |
Information Technology — Biometrics — Guide on designing accessible and inclusive biometric systems |
Procurements of biometric systems often stipulate requirements for the systems to be inclusive and make provision for exception handling.
ISO/IEC TR 29194:2015 provides guidance for biometric system design and procurement to handle the range of accessibility and usability issues. This report will build upon the generic guidance in ISO/IEC/TR 24714‑1, Information technology ? Biometrics ? Jurisdictional and societal considerations for commercial applications ? Part 1: General guidance.
|
Published |
2015-05 |
Edition : 1 |
Number of pages : 17 |
Technical Committee |
13.180
Ergonomics
;
35.240.15
Identification cards. Chip cards. Biometrics
|
| ISO 4126-1:2004/Cor 1:2007 |
Safety devices for protection against excessive pressure — Part 1: Safety valves — Technical Corrigendum 1 |
|
Withdrawn |
2007-08 |
Edition : 2 |
|
Technical Committee |
13.240
Protection against excessive pressure
|
| 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/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 630-6:2014 |
Structural steels — Part 6: Technical delivery conditions for seismic-improved structural steels for building |
ISO 630-6:2014 specifies qualities for seismic-proof improved structural steels. It applies to steel plates with thicknesses of 6 mm or over and up to 125 mm, wide flats and hot-rolled sections up to 140 mm, which are used in the usual delivery conditions as given in 6.2 and normally intended for welded or bolted structures.
It does not include the following structural steels, certain of which are covered by other International Standards: sheet and strip ? refer to ISO TC 17/SC 12, Continuous mill flat rolled products; tubular products ? refer to ISO TC 5/SC 1, Steel tubes.
|
Published |
2014-09 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
77.140.70
Steel profiles
;
91.120.25
Seismic and vibration protection
|
| ISO/FDIS 630-6 |
Structural steels — Part 6: Technical delivery conditions for seismic-proof improved structural steels for building |
|
Under development |
|
Edition : 2 |
|
Technical Committee |
77.140.70
Steel profiles
;
91.120.25
Seismic and vibration protection
|
| ISO 3010:1988 |
Bases for design of structures — Seismic actions on structures |
Presents basic methods for the determination of seismic actions on structures. Specifies methods of evaluating seismic actions for the earthquake-resistant design of buildings, towers, chimneys, and similar structures. Most of the principles are applicable also to stuctures such as bridges, dams, harbour installations, tunnels, fuel storage tanks, chemical plants, conventional power plants excluding nuclear power plants.
|
Withdrawn |
1988-07 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
91.080.01
Structures of buildings in general
;
91.120.25
Seismic and vibration protection
|
| ISO 3010:2001 |
Basis for design of structures — Seismic actions on structures |
|
Withdrawn |
2001-12 |
Edition : 2 |
Number of pages : 36 |
Technical Committee |
91.080.01
Structures of buildings in general
;
91.120.25
Seismic and vibration protection
|
| ISO 10137:2007 |
Bases for design of structures - Serviceability of buildings and walkways against vibrations |
ISO 10137:2007 gives recommendations on the evaluation of serviceability against vibrations of buildings, and walkways within buildings or connecting them or outside of buildings.
It covers three recipients of vibrations: human occupancy in buildings and on walkways; the contents of the building; the structure of the building.
It does not include bridges that carry vehicular traffic, even in conjunction with pedestrian traffic, nor the design of foundations or supporting structures of machinery.
|
Published |
2007-11 |
Edition : 2 |
Number of pages : 44 |
Technical Committee |
91.080.01
Structures of buildings in general
;
91.120.25
Seismic and vibration protection
|
| ISO 3010:2017 |
Bases for design of structures — Seismic actions on structures |
ISO 3010:2017 (including both the super structure and foundation) and other structures.
ISO 3010:2017 is not applicable to certain structures, such as bridges, dams, geotechnical works and tunnels, although some of the principles can be referred to for the seismic design of those structures.
ISO 3010:2017 is not applicable to nuclear power plants, since these are dealt with separately in other International Standards.
In regions where the seismic hazard is low, methods of design for structural integrity can be used in lieu of methods based on a consideration of seismic actions.
ISO 3010:2017 is not a legally binding and enforceable code. It can be viewed as a source document that is utilized in the development of codes of practice by the competent authority responsible for issuing structural design regulations.
NOTE 1 This document has been prepared mainly for new engineered structures. The principles are, however, applicable to developing appropriate prescriptive rules for non-engineered structures (see Annex N). The principles could also be applied to evaluating seismic actions on existing structures.
NOTE 2 Other structures include self-supporting structures other than buildings that carry gravity loads and are required to resist seismic actions. These structures include seismic force-resisting systems similar to those in buildings, such as a trussed tower or a pipe rack, or systems very different from those in buildings, such as a liquid storage tank or a chimney. Additional examples include structures found at chemical plants, mines, power plants, harbours, amusement parks and civil infrastructure facilities.
NOTE 3 The level of seismic hazard that would be considered low depends not only on the seismicity of the region but also on other factors, including types of construction, traditional practices, etc. Methods of design for structural integrity include nominal design horizontal forces (such as an equivalent static loading determined from a simplified equivalent static analysis) which provide a measure of protection against seismic actions.
|
Published |
2017-03 |
Edition : 3 |
Number of pages : 60 |
Technical Committee |
91.080.01
Structures of buildings in general
;
91.120.25
Seismic and vibration protection
|
| 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 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.
|
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
|
| 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.
|
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
|
| 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).
|
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
|
| ISO/DIS 4917-1 |
Design of Nuclear Power Plants against Seismic Events — Part 1: Principles |
|
Under development |
|
Edition : 1 |
Number of pages : 18 |
Technical Committee |
27.120.20
Nuclear power plants. Safety
;
91.120.25
Seismic and vibration protection
|
| ISO/DIS 4917-3 |
Design of Nuclear Power Plants against Seismic Events — Part 3: Civil Structures |
|
Under development |
|
Edition : 1 |
Number of pages : 22 |
Technical Committee |
27.120.20
Nuclear power plants. Safety
;
91.120.25
Seismic and vibration protection
|
| ISO/DIS 4917-4 |
Design of Nuclear Power Plants against Seismic Events — Part 4: Components |
|
Under development |
|
Edition : 1 |
Number of pages : 37 |
Technical Committee |
27.120.20
Nuclear power plants. Safety
;
91.120.25
Seismic and vibration protection
|
| ISO/CD 4917-5 |
Design of Nuclear Power Plants against Seismic Events — Part 5: Seismic Instrumentation |
This document shall apply to nuclear power plants with water cooled reactors. For other nuclear facilities the applicability of the document must be checked in advance, before it might be applied correspondingly.
|
Under development |
|
Edition : 1 |
|
Technical Committee |
27.120.20
Nuclear power plants. Safety
;
91.120.25
Seismic and vibration protection
|
| ISO/TS 10811-2:2000 |
Mechanical vibration and shock — Vibration and shock in buildings with sensitive equipment — Part 2: Classification |
This part of ISO/TS 10811 defines a method for the classification of shock and vibration in buildings from
measurements in accordance with ISO/TS 10811-1. A classification system of environmental vibration conditions
should serve as guidelines for designers, manufacturers and users of equipment sensitive to shock and vibration,
and for building constructors.
The types of shock and vibration considered are those transmitted from floors, tables, walls, ceilings or isolation
systems into an equipment unit. They can be generated by the following:
a) external sources, for example traffic (by road, rail or air), or building and construction activities such as
blasting, piling and vibratory compaction; the vibration response to sonic booms and acoustical excitations is
also included, as well as weather-induced vibration;
b) equipment for indoor use, such as punch presses, forging hammers, rotary equipment (air compressors, air
conditioner systems, etc.) and heavy equipment transported or operated inside a building;
c) human activities in connection with the service or operation of the equipment, for example, people walking,
especially on raised floors.
The frequency range of interest is normally 2 Hz to 200 Hz. Normally the dominant frequencies are less than
100 Hz because they represent the response of the elements in the building.
This part of ISO/TS 10811 deals only with vibration from a maximum amplitude point of view. The concept of
vibration dose (for example as for estimation of fatigue life) is not treated.
|
Published |
2000-06 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
91.120.25
Seismic and vibration protection
|
| ISO 13033:2013 |
Bases for design of structures — Loads, forces and other actions — Seismic actions on nonstructural components for building applications |
ISO 13033:2013 establishes the means to derive seismic actions on nonstructural components and systems (NSCS) supported by or attached to new or existing buildings. It also provides procedures for the verification of NSCS seismic capacities. NSCS include architectural elements, mechanical and electrical systems, and building contents.
ISO 13033:2013 is not a legally binding and enforceable code. It is a source document that is utilized in the development of codes of practice by the competent authority responsible for issuing structural design regulations. It is intended for application by regional and national standards committees when preparing standards for the seismic performance of NSCS.
ISO 13033:2013 does not specifically cover industrial facilities, including nuclear power plants, since these are dealt with separately in other International Standards. However, the principles in ISO 13033:2013 can be appropriate for the derivation of seismic actions for NSCS in such facilities.
|
Published |
2013-08 |
Edition : 1 |
Number of pages : 43 |
Technical Committee |
91.080.01
Structures of buildings in general
;
91.120.25
Seismic and vibration protection
|
| ISO 16587:2004 |
Mechanical vibration and shock — Performance parameters for condition monitoring of structures |
ISO 16587:2004 describes the performance parameters for assessing the condition of structures, including types of measurement, factors for setting acceptable performance limits, data acquisition parameters for constructing uniform databases, and internationally accepted measurement guidance (e.g. terminology, transducer calibration, transducer mounting and approved transfer function techniques).
The procedures relate to in-service monitoring of structures, and include all components and sub-assemblies necessary to provide the functioning of the structure as a complete entity. The monitoring is intended to be ongoing in nature through the lifecycle of the structure.
The target industries for ISO 16587:2004 include: construction, infrastructure, transportation, power generation, oil and gas, and leisure and entertainment.
ISO 16587:2004 is applicable to stationary structures, such as: buildings, bridges and tunnels, towers, masts and antennae, tanks and silos, retaining walls and dams, jetties and other shore-side structures, offshore platforms, pressure vessels, and pipelines.
Non-stationary structures (e.g. self-propelled ships) and mobile structures (e.g. offshore jack-up platforms) are excluded from ISO 16587:2004.
|
Published |
2004-10 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
17.160
Vibrations, shock and vibration measurements
;
91.120.25
Seismic and vibration protection
|
| ISO 22762-3:2005 |
Elastomeric seismic-protection isolators — Part 3: Applications for buildings — Specifications |
ISO 22762 applies to elastomeric seismic isolators used to provide buildings or bridges with protection from earthquake damage. The isolators covered consist of alternate elastomer layers and reinforcing steel plates. They are placed between a superstructure and its substructure to provide both flexibility for decoupling structural systems from ground motion, and damping capability to reduce displacement at the isolation interface and the transmission of energy from the ground into the structure at the isolation frequency.
ISO 22762-3:2005 specifies the requirements for elastomeric seismic isolators used for buildings and the requirements for the rubber material used in the manufacture of such isolators. The specification covers requirements, design rules, manufacturing tolerances, marking and labelling and test methods for elastomeric isolators.
|
Withdrawn |
2005-07 |
Edition : 1 |
Number of pages : 63 |
Technical Committee |
83.140.99
Other rubber and plastics products
;
91.120.25
Seismic and vibration protection
|
| ISO 22762-3:2005/Cor 1:2006 |
Elastomeric seismic-protection isolators — Part 3: Applications for buildings — Specifications — Technical Corrigendum 1 |
|
Withdrawn |
2006-07 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
83.140.99
Other rubber and plastics products
;
91.120.25
Seismic and vibration protection
|
| ISO 22863-3:2020 |
Fireworks — Test methods for determination of specific chemical substances — Part 3: Lead and lead compounds by atomic absorption |
This document specifies the test method for determination of the lead content in pyrotechnic compositions of fireworks by flame atomic absorption spectrophotometry, with a minimum detection limit of 10 mg/kg.
It is generally recommended to perform a simple preliminary qualitative test to check whether a quantitative analysis is required.
|
Published |
2020-06 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 22762-3:2010 |
Elastomeric seismic-protection isolators — Part 3: Applications for buildings — Specifications |
ISO 22762-3:2010 specifies minimum requirements and test methods for elastomeric seismic isolators used for buildings and the rubber material used in the manufacture of such isolators.
It is applicable to elastomeric seismic isolators used to provide buildings with protection from earthquake damage. The isolators covered consist of alternate elastomeric layers and reinforcing steel plates. They are placed between a superstructure and its substructure to provide both flexibility for decoupling structural systems from ground motion, and damping capability to reduce displacement at the isolation interface and the transmission of energy from the ground into the structure at the isolation frequency.
|
Withdrawn |
2010-11 |
Edition : 2 |
Number of pages : 60 |
Technical Committee |
83.140.99
Other rubber and plastics products
;
91.120.25
Seismic and vibration protection
|
| ISO 22762-3:2018 |
Elastomeric seismic-protection isolators — Part 3: Applications for buildings — Specifications |
This document specifies minimum requirements and test methods for elastomeric seismic isolators used for buildings and the rubber material used in the manufacture of such isolators.
It is applicable to elastomeric seismic isolators used to provide buildings with protection from earthquake damage. The isolators covered consist of alternate elastomeric layers and reinforcing steel plates. They are placed between a superstructure and its substructure to provide both flexibility for decoupling structural systems from ground motion, and damping capability to reduce displacement at the isolation interface and the transmission of energy from the ground into the structure at the isolation frequency.
|
Published |
2018-10 |
Edition : 3 |
Number of pages : 61 |
Technical Committee |
83.140.99
Other rubber and plastics products
;
91.120.25
Seismic and vibration protection
|
| ISO/TS 22762-4:2014 |
Elastomeric seismic-protection isolators — Part 4: Guidance on the application of ISO 22762-3 |
ISO/TS 22762‑4:2014 provides guidance on the use of ISO 22762‑3:2010. It includes example design calculations and provides data on the characteristics obtained from all types of elastomeric isolators.
|
Withdrawn |
2014-07 |
Edition : 1 |
Number of pages : 31 |
Technical Committee |
83.140.99
Other rubber and plastics products
;
91.120.25
Seismic and vibration protection
|
| ISO/TS 22762-4:2019 |
Elastomeric seismic-protection isolators — Part 4: Guidance on the application of ISO 22762-3 |
This document provides guidance on ISO 22762-3:2018. It includes examples of design calculations, and provides data on the characteristics obtained from all types of elastomeric isolators.
|
Published |
2019-01 |
Edition : 2 |
Number of pages : 31 |
Technical Committee |
83.140.99
Other rubber and plastics products
;
91.120.25
Seismic and vibration protection
|
| ISO 22762-5:2021 |
Elastomeric seismic-protection isolators — Part 5: Sliding seismic-protection isolators for buildings |
This document specifies minimum requirements and test methods for flat sliding seismic-protection isolators used for buildings and the materials used in the manufacture of such isolators.
It is applicable to flat sliding seismic-protection isolators used to provide buildings with protection from earthquake damage. The sliders are each mounted on elastomeric bearings to provide vertical compliance and rotational flexibility about horizontal axes.
|
Published |
2021-08 |
Edition : 1 |
Number of pages : 43 |
Technical Committee |
83.140.99
Other rubber and plastics products
;
91.120.25
Seismic and vibration protection
|
| ISO 22762-6:2022 |
Elastomeric seismic-protection isolators — Part 6: High-durability and high-performance specifications and test methods |
This document specifies specifications and test methods for elastomeric seismic isolators used for buildings to guarantee high durability and high performance.
It is applicable to elastomeric seismic isolators used to provide buildings with protection from earthquake damage. The isolators covered consist of alternate elastomeric layers and reinforcing steel plates. They are placed between a superstructure and its substructure to provide both flexibility for decoupling structural systems from ground motion, and damping capability to reduce displacement at the isolation interface and the transmission of energy from the ground into the structure at the isolation frequency.
|
Published |
2022-07 |
Edition : 1 |
Number of pages : 45 |
Technical Committee |
83.140.99
Other rubber and plastics products
;
91.120.25
Seismic and vibration protection
|
| ISO/CD TR 22762-7 |
Practical guidance on the use of ISO 22762 for design and testing of seismic isolation systems — Part 7: Title missing |
|
Under development |
|
Edition : 1 |
|
Technical Committee |
83.140.99
Other rubber and plastics products
;
91.120.25
Seismic and vibration protection
|
| ISO 22863-4:2021 |
Fireworks — Test methods for determination of specific chemical substances — Part 4: Analysis of lead and lead compounds by X-ray fluorescence spectrometry (XRF) |
This document specifies the method for the determination of the content of lead and lead compounds in pyrotechnic compositions of fireworks by X-ray fluorescence spectrometry (XRF).
|
Published |
2021-03 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO/R 191:1971 |
Brinell hardness test for light metals and their alloys |
|
Withdrawn |
1971-10 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
77.040.10
Mechanical testing of metals
|
| ISO 23618:2022 |
Bases for design of structures — General principles on seismically isolated structures |
This document specifies the principles regarding the design of seismically isolated structures under earthquake effects.
This document also describes the principles of construction management and maintenance, since proper construction management and maintenance are important for realizing high quality seismic isolation structures.
This document is not applicable to bridges and LNG tanks, although some of the principles can be referred to for the seismic isolation of those structures.
This document is not applicable to seismic isolation structures that reduce the vertical response to earthquake ground motions, since this document mainly specifies seismic isolation structures that attenuate the horizontal response to horizontal earthquake ground motions.
This document is not a legally binding and enforceable code. It can be viewed as a source document that is utilized in the development of codes of practice by the competent authority responsible for issuing structural design regulations.
NOTE This document has been prepared mainly for the seismically isolated structures which have the seismic isolation interface applied between a superstructure and a substructure to reduce the effect of the earthquake ground motion onto the superstructure. In most cases, the substructure refers to the foundation of the structure. However, the substructure in this document consists of a structural system below the isolation interface that has been designed with sufficient rigidity and strength. Examples include locating the isolation interface in a mid-storey of the building or above the bridge piers (see Annex E).
|
Published |
2022-10 |
Edition : 1 |
Number of pages : 46 |
Technical Committee |
91.080.01
Structures of buildings in general
;
91.120.25
Seismic and vibration protection
|
| ISO 24314:2006 |
Structural steels — Structural steels for building with improved seismic resistance — Technical delivery conditions |
ISO 24314:2006 specifies qualities for seismic-purpose structural steels. This International Standard applies to steel plates with thicknesses of 6 mm or over and up to 125 mm, wide flats and hot-rolled sections, which are used in the as-delivered condition and normally intended for bolted, riveted or welded structures.
|
Withdrawn |
2006-10 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
77.140.70
Steel profiles
;
91.120.25
Seismic and vibration protection
|
| ISO/DTR 25741-1 |
Lifts and escalators subject to seismic conditions — Compilation report — Part 1: Rule by rule comparison |
|
Under development |
|
Edition : 1 |
|
Technical Committee |
91.120.25
Seismic and vibration protection
;
91.140.90
Lifts. Escalators
|
| ISO/DTR 25741-2 |
Lifts and escalators subject to seismic conditions — Compilation report — Part 2: Abbreviated comparison and comments |
|
Under development |
|
Edition : 1 |
|
Technical Committee |
91.120.25
Seismic and vibration protection
;
91.140.90
Lifts. Escalators
|
| ISO 6184-1:1985 |
Explosion protection systems — Part 1: Determination of explosion indices of combustible dusts in air |
Specifies a test method. Gives the criteria by which results obtained using other test procedures can be correlated to yield the quantities as determined by the method specified.
|
Published |
1985-11 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
13.230
Explosion protection
|
| ISO 6184-2:1985 |
Explosion protection systems — Part 2: Determination of explosion indices of combustible gases in air |
Specifies a test method. Gives the criteria by which results obtained using other test procedures can be correlated to yield the quantities as determined by the method specified.
|
Published |
1985-11 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
13.230
Explosion protection
|
| ISO 6184-3:1985 |
Explosion protection systems — Part 3: Determination of explosion indices of fuel/air mixtures other than dust/air and gas/air mixtures |
Specifies a test method. Gives the criteria by which results obtained using other test procedures can be correlated to yield the quantities as determined by the method specified.
|
Published |
1985-11 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
13.230
Explosion protection
|
| ISO 6184-4:1985 |
Explosion protection systems — Part 4: Determination of efficacy of explosion suppression systems |
Gives a method for evaluating the effectiveness against defined explosions in an enclosed volume. Gives the criteria for alternative test apparatus used to undertake tests and criteria to be applied in defining the safe operating regime.
|
Published |
1985-11 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
13.230
Explosion protection
|
| ISO 10807:1994 |
Pipework — Corrugated flexible metallic hose assemblies for the protection of electrical cables in explosive atmospheres |
Specifies the design characteristics of corrugated flexible metallic hose which can be used to protect electrical wire and cable in explosive atmospheres or atmospheres where there is a risk of fire. These hoses can be used as static protection or for the protection of cables moved infrequently, occasionally, or less than once week. Also provides instructions for the use of these hoses and the tests required for type approval.
|
Published |
1994-08 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO/IEC 80079-34:2011 |
Explosive atmospheres — Part 34: Application of quality systems for equipment manufacture |
ISO/IEC 80079-34:2011 specifies particular requirements and information
for establishing and maintaining a quality system to manufacture Ex equipment
including protective systems in accordance with the Ex certificate. It does not
preclude the use of other quality systems that are compatible with the
objectives of ISO 9001:2008 and which provide equivalent results. This
publication is published as a double logo standard. This standard should be
read in conjunction with ISO 9001:2008.
|
Withdrawn |
2011-04 |
Edition : 1 |
Number of pages : 53 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO/IEC 80079-34:2018 |
Explosive atmospheres — Part 34: Application of quality management systems for Ex Product manufacture |
ISO/IEC 80079-34:2018 specifies particular requirements and information for establishing and maintaining a quality management system to manufacture Ex Products in accordance with the certificates. While it does not preclude the use of other quality management systems that are compatible with the objectives of ISO 9001:2015 and which provide equivalent results, the minimum requirements are given in this document.
This second edition cancels and replaces the first edition, published in 2011, and constitutes a full technical revision. The significant changes with respect to the previous edition should be considered as minor technical revisions. However, the clause numbering in regard to the previous edition has changed in order to be in line with ISO 9001:2015. The normal “Table of Significant Changes” has not been included for this reason.
This publication is published as a double logo standard. This standard should be read in conjunction with ISO 9001:2015
|
Published |
2018-08 |
Edition : 2 |
Number of pages : 126 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO 80079-36:2016 |
Explosive atmospheres — Part 36: Non-electrical equipment for explosive atmospheres — Basic method and requirements |
ISO 80079-36:2016 specifies the basic method and requirements for design, construction, testing and marking of non-electrical Ex equipment, Ex Components, protective systems, devices and assemblies
of these products that have their own potential ignition sources and are intended for use in explosive atmospheres. Hand tools and manually operated equipment without energy storage are excluded from the scope of this standard. This standard does not address the safety of static autonomous process equipment when it is not part of equipment referred to in this standard. This standard does not specify requirements for safety, other than those directly related to the risk of ignition which may then lead to an explosion. The standard atmospheric conditions (relating to the explosion characteristics of the atmosphere) under which it may be assumed that equipment can be operated are:
- temperature -20 °C to 60 °C;
- pressure 80 kPa (0,8 bar) to 110 kPa (1,1 bar); and
- air with normal oxygen content, typically 21 % v/v. Such atmospheres can also exist inside the equipment. In addition, the external atmosphere can be drawn inside the equipment by natural breathing produced as a result of fluctuations in the equipment's internal operating pressure, and/or temperature. This part of ISO/IEC 80079 specifies the requirements for the design and
construction of equipment, intended for explosive atmospheres in conformity with all Equipment Protection Levels (EPLs) of Group I, II and III. This standard supplements and modifies the general
requirements of IEC 60079-0, as shown in Table 1 in the Scope of the document.
Keywords: mechanical explosion protected equipment
|
Published |
2016-02 |
Edition : 1 |
Number of pages : 156 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO 80079-36:2016/Cor 1:2019 |
Explosive atmospheres — Part 36: Non-electrical equipment for explosive atmospheres — Basic method and requirements — Technical Corrigendum 1 |
|
Published |
2019-10 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO 80079-37:2016 |
Explosive atmospheres — Part 37: Non-electrical equipment for explosive atmospheres — Non-electrical type of protection constructional safety ''c'', control of ignition sources ''b'', liquid immersion ''k'' |
ISO 80079-37:2016 specifies the requirements for the design and construction of non-electrical equipment, intended for use in explosive atmospheres, protected by the types of protection
constructional safety "c", control of ignition source "b" and liquid immersion "k". This part of ISO/IEC 80079 supplements and modifies the requirements in ISO 80079-36. Where a requirement of this standard conflicts with the requirement of ISO 80079-36 the requirement of this standard takes precedence. Types of protection "c", "k" and "b" are not applicable for Group I, EPL Ma without
additional protective precautions. The types of ignition protection described in the standard can be used either on their own or in combination with each other to meet the requirements for equipment of Group I, Group II, and Group III depending on the ignition hazard assessment in ISO 80079-36.
Keywords: constructional safety "c", control of ignition source "b" and liquid immersion "k"
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Published |
2016-02 |
Edition : 1 |
Number of pages : 91 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO/IEC 80079-38:2016 |
Explosive atmospheres — Part 38: Equipment and components in explosive atmospheres in underground mines |
ISO/IEC 80079-38:2016 is published as a dual logo standard and specifies the explosion protection requirements for the design, construction, assessment and information for use (maintenance, repair, marking) of equipment that may be an individual item or form an assembly. This includes machinery and components for use in mines susceptible to explosive atmospheres of firedamp and/or combustible
dust. The standard atmospheric conditions (relating to the explosion characteristics of the atmosphere) under which it may be assumed that equipment can be operated are:
- temperature -20 °C to 60 °C;
- pressure 80 kPa (0,8 bar) to 110 kPa (1,1 bar);
- and air with normal oxygen content, typically 21 % v/v. This part of ISO/IEC 80079 applies for equipment and components according to EPL Mb to be used in explosive atmospheres containing firedamp and/or combustible dust. For equipment and components according to EPL Ma, the requirements of this standard and of ISO 80079-36 and IEC 60079-0 apply. It is necessary to take account of external
conditions to the equipment which may affect the hazard and the resultant protection measures. These measures may include ventilation, gas detection or gas drainage. This part of ISO/IEC 80079 also deals with the prevention of ignitions of explosive atmospheres caused by burning (or smouldering) of combustible material such as fabric fibres, plastic "O"-rings, rubber seals, lubricating oils or greases used in the construction of the equipment if such items could be an ignition source. For example, the mechanical failure of rotating shaft bearings can result in frictional heating that ignites its plastic cage, plastic seal or lubricating grease. Detailed requirements and test procedures for the fire protection of conveyer belts are not part of this part of ISO/IEC 80079. Keywords: explosive atmospheres in underground mines, combustible dust
|
Published |
2016-02 |
Edition : 1 |
Number of pages : 95 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO/IEC DIS 80079-41 |
Explosive atmospheres — Part 41: Reciprocating internal combustion engines |
|
Under development |
|
Edition : 1 |
Number of pages : 123 |
Technical Committee |
27.020
Internal combustion engines
;
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO 18256-2:2019 |
Nuclear fuel technology — Dissolution of plutonium dioxide-containing materials — Part 2: Dissolution of MOX pellets and powders |
This document specifies the dissolution of samples consisting of MOX pellets or powders to provide suitable aliquots for subsequent analysis of elemental concentration and isotopic composition.
|
Published |
2019-01 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
27.120.30
Fissile materials and nuclear fuel technology
|
| ISO/IEC 80079-20-1:2017 |
Explosive atmospheres — Part 20-1: Material characteristics for gas and vapour classification — Test methods and data |
ISO/IEC 80079-20-1:2017 is published as a dual log standard and provides guidance on classification of gases and vapours. It describes a test method intended for the measurement of the maximum experimental safe gaps (MESG) for gas-air mixtures or vapour-air mixtures under normal conditions of temperature and pressure (20 °C, 101,3 kPa) so as to permit the selection of an appropriate group of equipment. This document also describes a test method intended for use in the determination of the auto-ignition temperature (AIT) of a vapour-air mixture or gas-air mixture at atmospheric pressure, so as to permit the selection of an appropriate temperature class of equipment. Values of chemical properties of materials are provided to assist in the selection of equipment to be used in hazardous areas. Further data may be added as the results of validated tests become available. The materials and the characteristics included in a table (see Annex B) have been selected with particular reference to the use of equipment in hazardous areas. The data in this document have been taken from a number of references which are given in the bibliography. These methods for determining the MESG or the AIT may also be used for gas-air-inert mixtures or vapour-air-inert mixtures. However, data on air-inert mixtures are not tabulated.
Keywords: classification of gases and vapours, measurement of the maximum experimental safe gaps (MESG)
|
Published |
2017-12 |
Edition : 1 |
Number of pages : 167 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO/IEC 80079-20-2:2016 |
Explosive atmospheres — Part 20-2: Material characteristics — Combustible dusts test methods |
ISO/IEC 80079-20-2:2016 is published as a dual logo standard and describes the test methods for the identification of combustible dust and combustible dust layers in order to permit classification
of areas where such materials exist for the purpose of the proper selection and installation of electrical and mechanical equipment for use in the presence of combustible dust. The standard
atmospheric conditions for determination of characteristics of combustible dusts are:
- temperature -20 °C to 60 °C,
- pressure 80 kPa (0,8 bar) to 110 kPa (1,1 bar) and
- air with normal oxygen content, typically 21 % v/v. The test methods defined do not apply to:
- recognized explosives, propellants (e.g. gunpowder, dynamite), or substances or mixtures of substances which may, under some circumstances, behave in a similar manner or
- dusts of explosives and propellants that do not require atmospheric oxygen for combustion, or to pyrophoric substances. This first edition cancels and replaces the first edition of IEC 61241-2-1 published in 1994, the first edition of IEC 61241-2-2 published in 1993 and the first edition of IEC 61241-2-3 published in 1994, combining the requirements into a single document, and is considered to constitute a technical revision. Significant changes with respect to IEC 61241-2-1:1994, IEC 61241-2-2:1993 and IEC 61241-2-3:1994 can be found in the foreword of the document.
Keywords: combustible dust
|
Published |
2016-02 |
Edition : 1 |
Number of pages : 82 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO/IEC 80079-20-1:2017/Cor 1:2018 |
Explosive atmospheres — Part 20-1: Material characteristics for gas and vapour classification — Test methods and data — Technical Corrigendum 1 |
|
Published |
2018-07 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO/IEC 80079-20-2:2016/Cor 1:2017 |
Explosive atmospheres — Part 20-2: Material characteristics — Combustible dusts test methods — Technical Corrigendum 1 |
|
Published |
2017-03 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
29.260.20
Electrical apparatus for explosive atmospheres
|
| ISO 21583:2020 |
Firework displays — General guidance |
This document provides guidance on the operation of fireworks displays by professional teams of people with specialized knowledge. It is not applicable to the use of theatrical pyrotechnic articles on stage, in filming locations, or any other locations. It is not applicable to displays that involve only fireworks of categories 1, 2 and 3.
|
Published |
2020-09 |
Edition : 1 |
Number of pages : 23 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO/TR 21865:2017 |
Fireworks — Third party testing — Voluntary scheme |
ISO/TR 21865:2017 describes the relevant responsibilities of the involved manufacturers of fireworks articles and corresponding laboratories for the application of the ISO 25947 series and the ISO 26261 series.
By applying this approach, a clear separation of the responsibilities of the manufacturers and the third party laboratories is achieved in order to demonstrate the conformity to the relevant safety specifications defined in these standards.
|
Published |
2017-11 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 22863-1:2020 |
Fireworks — Test methods for determination of specific chemical substances — Part 1: General |
This document specifies the preparation methods of the test samples for the qualitative and quantitative analysis of specific chemical substances in fireworks.
The document applies to the following substances to be tested using ISO 22863 (all parts):
— hexachlorobenzene;
— lead and lead compounds;
— arsenic or arsenic compounds;
— mercury compounds;
— chlorates;
— white phosphorus;
— picrates or picric acid;
— zirconium with a particle size of less than 40 µm;
— content of nitrogen in nitrocellulose.
|
Published |
2020-02 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 1151-1:1985 |
Flight dynamics — Concepts, quantities and symbols — Part 1: Aircraft motion relative to the air |
|
Withdrawn |
1985-10 |
Edition : 3 |
|
Technical Committee |
01.060
Quantities and units
;
49.020
Aircraft and space vehicles in general
|
| ISO 22863-6:2021 |
Fireworks — Test methods for determination of specific chemical substances — Part 6: Zirconium with a particle size of less than 40 µm by inductively coupled plasma optical emission spectrometry (ICP-OES) |
This document specifies the qualitative and quantitative analysis methods for the determination of the presence and content of zirconium with a particle size of less than 40 µm in pyrotechnic compositions by specific colour-rendering reactions and Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES), with a minimum detection limit of 100 mg/kg.
The determination of the presence of zirconium with a particle size of less than 40 µm is required for application of ISO 25947-5. Quantitative analysis may bring complementary information if necessary.
|
Published |
2021-02 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 22863-7:2021 |
Fireworks — Test methods for determination of specific chemical substances — Part 7: Chlorates content by chemical titration analysis |
This document specifies the qualitative and quantitative analysis methods for the determination of the chlorates content in pyrotechnic compositions by chemical titration analysis, with the minimum detection limit (Cl O3-1) of 1 000 mg/kg.
|
Published |
2021-02 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 22863-8:2021 |
Fireworks — Test methods for determination of specific chemical substances — Part 8: Arsenic content by hydride generation atomic fluorescence spectrometry |
This document specifies the test method for the determination of the arsenic content in pyrotechnic compositions by hydride generation -atomic fluorescence spectrometry
|
Published |
2021-02 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 22863-9:2021 |
Fireworks — Test methods for determination of specific chemical substances — Part 9: Mercury content by hydride generation atomic fluorescence spectrometry |
This document specifies the test method for the determination of the mercury content in pyrotechnic compositions by hydride generation atomic fluorescence spectrometry.
|
Published |
2021-02 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 22863-10:2021 |
Fireworks — Test methods for determination of specific chemical substances — Part 10: Nitrogen content in nitrocellulose by iron(II) sulfate titration |
This document specifies the method for determination of the nitrogen content in nitrocellulose within pyrotechnic compositions of fireworks by iron(II) sulphate titration.
|
Published |
2021-02 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 22863-11:2022 |
Fireworks — Test methods for determination of specific chemical substances — Part 11: Phosphorus content by inductively coupled plasma optical emission spectrometry (ICP-OES) |
This document specifies the test method for the determination of phosphorus content in firework compositions by inductively coupled plasma optical emission spectrometry (ICP-AES).
Such test is applied to fireworks excluding Christmas crackers, party poppers, or snaps according to ISO 25947-5. The use of white phosphorus can lead to fireworks of hazardous chemical stability that can be detected by possible self-ignition during the thermal conditioning test according to ISO 25947-4:2017, 6.16 (75,0 ± 2,5 °C for 48 h).
|
Published |
2022-07 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 22863-12:2022 |
Fireworks — Test methods for determination of specific chemical substances — Part 12: Picrates and picric acid by high performance liquid chromatography |
This document specifies the test method for the determination of picrates and picric acid in firework compositions by high performance liquid chromatography.
|
Published |
2022-09 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO/CD 22863-13 |
Fireworks — Test methods for determination of specific chemical substances — Part 13: Identification methods for reactive metals in repot and/or burst charge |
This standard specifies identification methods for reactive metals in repot and/or burst charge, refer to chapter 5 “pyrotechnic composition”, ISO 25947-2017.
|
Under development |
|
Edition : 1 |
|
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO/CD 22863-14 |
Fireworks — Test methods for determination of specific chemical substances — Part 14: Qualitative identification of perchlorates. |
This standard specifies identification methods for perchlorates, refer to chapter 5 “pyrotechnic composition”, ISO 25947-2017..
|
Under development |
|
Edition : 1 |
|
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO/CD 22863-15 |
Fireworks — Test methods for determination of specific chemical substances — Part 15: Qualitative identification of nitrates. |
This standard specifies identification methods for nitrates, refer to chapter 5 “pyrotechnic composition”, ISO 25947-2017.
|
Under development |
|
Edition : 1 |
|
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO/R 192:1971 |
Wickers hardness test for light metals and their alloys |
|
Withdrawn |
1971-10 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
77.040.10
Mechanical testing of metals
|
| ISO 25947-3:2017 |
Fireworks — Categories 1, 2 and 3 — Part 3: Minimum labelling requirements |
ISO 25947-3:2017 specifies the minimum labelling requirements for the article and primary or selection packaging of fireworks of the following types:
- aerial wheels;
- bangers;
- batteries;
- batteries requiring external support;
- Bengal flames;
- Bengal matches;
- Bengal sticks;
- Christmas crackers;
- combinations;
- combinations requiring external support;
- compound fireworks;
- crackling granules;
- double bangers;
- double flash bangers;
- flash bangers;
- flash pellets;
- fountains;
- ground movers;
- ground spinners;
- hand-held sparklers;
- jumping crackers;
- jumping ground spinners;
- mines;
- mini rockets;
- nezumi-hanabi;
- non-hand-held sparklers;
- novelty matches;
- party poppers;
- rockets;
- Roman candles;
- senko-hanabi;
- serpents;
- shot tubes;
- snaps;
- spinners;
- table bombs;
- throwdowns;
- wheels.
ISO 29547-3:2017 does not apply for theatrical pyrotechnic articles which are designed for indoor or outdoor stage use, including film and television productions or similar use.
|
Published |
2017-04 |
Edition : 1 |
Number of pages : 27 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 25947-4:2017 |
Fireworks — Categories 1, 2 and 3 — Part 4: Test methods |
ISO 25947-4:2017 specifies test methods. It is applicable to fireworks in categories 1, 2 and 3 according to ISO 25947‑2.
|
Published |
2017-04 |
Edition : 1 |
Number of pages : 32 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 25947-5:2017 |
Fireworks — Categories 1, 2 and 3 — Part 5: Requirements for construction and performance |
ISO 25947-5:2017 specifies requirements for the construction, performance and primary packaging of fireworks of category 1, 2 and 3 of the following types:
- aerial wheels;
- bangers;
- batteries;
- batteries requiring external support;
- Bengal flames;
- Bengal matches;
- Bengal sticks;
- Christmas crackers;
- combinations;
- combinations requiring external support;
- compound fireworks;
- crackling granules;
- double bangers;
- double flash bangers;
- flash bangers;
- flash pellets;
- fountains;
- ground movers;
- ground spinners;
- hand-held sparklers;
- jumping crackers;
- jumping ground spinners;
- mines;
- mini rockets;
- nezumi-hanabi;
- non-hand-held sparklers;
- novelty matches;
- party poppers;
- rockets;
- Roman candles;
- senko-hanabi;
- serpents;
- shot tubes;
- snaps;
- spinners;
- table bombs;
- throwdowns;
- wheels.
ISO 25947-5:2017 does not apply to articles containing pyrotechnic composition that includes any of the following substances:
- arsenic or arsenic compounds;
- hexachlorobenzene;
- mixtures containing a mass fraction of chlorates greater than 80 %;
- mixtures of chlorates with metals;
- mixtures of chlorates with red phosphorus (except when used in Christmas crackers, party poppers, snaps and throwdowns);
- mixtures of chlorates with potassium hexacyanoferrate(II);
- mixtures of chlorates with sulfur (these mixtures are allowed for friction heads only);
- mixtures of chlorates with sulfides;
- lead or lead compounds;
- mercury compounds;
- white phosphorus;
- picrates or picric acid;
- potassium chlorate with a mass fraction of bromates greater than 0,15 %;
- sulfur with an acidity, expressed in mass fraction of sulphuric acid, greater than 0,002 %;
- zirconium with a particle size of less than 40 µm.
ISO 25947-5:2017 does not apply for theatrical pyrotechnic articles which are designed for indoor or outdoor stage use, including film and television productions or similar use.
|
Published |
2017-04 |
Edition : 1 |
Number of pages : 23 |
Technical Committee |
71.100.30
Explosives. Pyrotechnics and fireworks
|
| ISO 26261-1:2017 |
Fireworks — Category 4 — Part 1: Terminology |
ISO 26261-1:2017 provides terminology relating to the design, construction, primary packaging and testing of category 4 fireworks.
|
Published |
2017-02 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
01.040.71
Chemical technology (Vocabularies)
;
71.100.30
Explosives. Pyrotechnics and fireworks
|