Фильтр :
Стандарт и/или проект | Этап | ТК |
---|---|---|
Glossary of fire terms and definitions
|
95.99 | ISO/TMBG |
Classification of fires
|
95.99 | ISO/TC 21/SC 2 |
Classification of fires
|
90.92 | ISO/TC 21/SC 2 |
Firebrand generator
|
60.60 | ISO/TC 92 |
Fire protection — Safety signs
|
95.99 | ISO/TC 21 |
Equipment for fire protection and fire fighting — Graphical symbols for fire protection plans — Specification
|
95.99 | ISO/TC 21 |
Fire data — Collection and presentation system
|
95.99 | ISO/TC 38 |
Fire protection — Vocabulary — Part 1: General terms and phenomena of fire
|
90.93 | ISO/TC 21 |
Fire protection — Vocabulary — Part 2: Structural fire protection
|
90.93 | ISO/TC 21 |
Fire protection — Vocabulary — Part 3: Fire detection and alarm
|
95.99 | ISO/TC 21 |
Fire protection — Vocabulary — Part 4: Fire extinction equipment
|
95.99 | ISO/TC 21 |
Fire protection — Vocabulary — Part 5: Smoke control
|
95.99 | ISO/TC 21 |
Fire protection — Vocabulary — Part 6: Evacuation and means of escape
|
90.93 | ISO/TC 21 |
Fire protection — Vocabulary — Part 7: Explosion detection and suppression means
|
90.93 | ISO/TC 21 |
Fire protection — Vocabulary — Part 8: Terms specific to fire-fighting, rescue services and handling hazardous materials
|
95.99 | ISO/TC 21 |
Railway applications — Fire protection on railway vehicles — Part 1: General
|
50.00 | ISO/TC 269 |
Validation method for fire gas analysis — Part 1: Limits of detection and quantification
|
90.93 | ISO/TC 92/SC 3 |
Validation method for fire gas analysis — Part 2: Intralaboratory validation of quantification methods
|
90.93 | ISO/TC 92/SC 3 |
Validation method for fire gas analysis — Part 3: Considerations related to interlaboratory trials
|
95.99 | ISO/TC 92/SC 3 |
Validation method for fire gas analysis — Part 3: Considerations related to interlaboratory trials
|
60.60 | ISO/TC 92/SC 3 |
Fire safety engineering — Part 1: Application of fire performance concepts to design objectives
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Part 2: Design fire scenarios and design fires
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Part 3: Assessment and verification of mathematical fire models
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Part 4: Initiation and development of fire and generation of fire effluents
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Part 5: Movement of fire effluents
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Part 6: Structural response and fire spread beyond the enclosure of origin
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Part 7: Detection, activation and suppression
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Part 8: Life safety — Occupant behaviour, location and condition
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Guidance for use of fire zone models
|
90.93 | ISO/TC 92/SC 4 |
Life-threatening components of fire — Part 2: Methodology and examples of tenability assessment
|
90.93 | ISO/TC 92/SC 3 |
Life-threatening components of fire — Guidelines for the estimation of time available for escape using fire data
|
95.99 | ISO/TC 92/SC 3 |
Life-threatening components of fire — Guidelines for the estimation of time available for escape using fire data
|
95.99 | ISO/TC 92/SC 3 |
Life-threatening components of fire — Guidelines for the estimation of time to compromised tenability in fires
|
90.92 | ISO/TC 92/SC 3 |
Fire safety — Vocabulary
|
95.99 | ISO/TC 92 |
Fire safety — Vocabulary
|
95.99 | ISO/TC 92 |
Fire safety — Vocabulary
|
95.99 | ISO/TC 92 |
Fire safety — Vocabulary
|
90.92 | ISO/TC 92 |
Fire resistance — Guidelines for evaluating the predictive capability of calculation models for structural fire behaviour
|
90.93 | ISO/TC 92/SC 2 |
Fire resistance tests — Guidelines for computational structural fire design
|
60.60 | ISO/TC 92/SC 2 |
Fire resistance tests — Guidelines for the design and conduct of non-furnace-based large-scale tests and simulation
|
60.60 | ISO/TC 92/SC 2 |
Room corner and open calorimeter — Guidance on sampling and measurement of effluent gas production using FTIR technique
|
90.93 | ISO/TC 92/SC 1 |
Fire safety engineering — Examples of fire safety objectives, functional requirements and safety criteria
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Procedures and requirements for verification and validation of calculation methods — Part 1: General
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Assessment, verification and validation of calculation methods — Part 2: Example of a fire zone model
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Assessment, verification and validation of calculation methods — Part 3: Example of a CFD model
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Assessment, verification and validation of calculation methods — Part 4: Example of a structural model
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Assessment, verification and validation of calculation methods — Part 5: Example of an Egress model
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Assessment, verification and validation of calculation methods
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Fire risk assessment — Part 1: General
|
90.92 | ISO/TC 92/SC 4 |
Fire Safety Engineering — Fire risk assessment — Part 2: Example of an office building
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Fire risk assessment — Part 3: Example of an industrial property
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Guidance on fire risk assessment
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Selection of design fire scenarios and design fires — Part 1: Selection of design fire scenarios
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Selection of design fire scenarios and design fires — Part 1: Selection of design fire scenarios
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Selection of design fire scenarios and design fires — Part 2: Design fires
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Selection of design fire scenarios and design fires
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic equations — Fire plumes
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic equations — Smoke layers
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic equations — Ceiling jet flows
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic equations — Vent flows
|
95.99 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic equations — Vent flows
|
95.99 | ISO/TC 92/SC 4 |
Fire-safety engineering — Technical information on methods for evaluating behaviour and movement of people
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Design of evacuation experiments
|
60.60 | ISO/TC 92/SC 4 |
Guidelines for assessing the adverse impact of wildland fires on the environment and to people through environmental exposure
|
90.92 | ISO/TC 92/SC 3 |
Controlled equivalence ratio method for the determination of hazardous components of fire effluents
|
95.99 | ISO/TC 92/SC 3 |
Controlled equivalence ratio method for the determination of hazardous components of fire effluents — Steady-state tube furnace
|
90.93 | ISO/TC 92/SC 3 |
Methods for sampling and analysis of fire effluents
|
95.99 | ISO/TC 92/SC 3 |
Methods for sampling and analysis of fire effluents
|
90.93 | ISO/TC 92/SC 3 |
Toxicity testing of fire effluents — Guidance for analysis of gases and vapours in fire effluents using FTIR gas analysis
|
95.99 | ISO/TC 92/SC 3 |
Guidance for sampling and analysis of toxic gases and vapours in fire effluents using Fourier Transform Infrared (FTIR) spectroscopy
|
90.92 | ISO/TC 92/SC 3 |
Sampling and analysis of toxic gases and vapours in fire effluents using Fourier Transform Infrared (FTIR) spectroscopy
|
60.00 | ISO/TC 92/SC 3 |
Generation and analysis of toxic gases in fire — Calculation of species yields, equivalence ratios and combustion efficiency in experimental fires
|
95.99 | ISO/TC 92/SC 3 |
Generation and analysis of toxic gases in fire — Calculation of species yields, equivalence ratios and combustion efficiency in experimental fires
|
95.99 | ISO/TC 92/SC 3 |
Generation and analysis of toxic gases in fire — Calculation of species yields, equivalence ratios and combustion efficiency in experimental fires
|
90.93 | ISO/TC 92/SC 3 |
Guidelines for assessing the fire threat to people
|
95.99 | ISO/TC 92/SC 3 |
Guidelines for assessing the fire threat to people
|
95.99 | ISO/TC 92/SC 3 |
Guidelines for assessing the fire threat to people
|
90.93 | ISO/TC 92/SC 3 |
Fire safety engineering — Survey of performance-based fire safety design practices in different countries
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Verification and validation protocol for building fire evacuation models
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Active fire protection systems — Part 1: General principles
|
60.60 | ISO/TC 92/SC 4 |
FTIR analysis of fire effluents in cone calorimeter tests
|
90.60 | ISO/TC 92/SC 1 |
Fire safety engineering — Estimating the reduction in movement speed based on visibility and irritant species concentration
|
60.60 | ISO/TC 92/SC 4 |
Review of outputs for fire containment tests for buildings in the context of fire safety engineering
|
95.99 | ISO/TC 92/SC 2 |
Requirements for large-scale test methods to represent fire threats to people in different fire scenarios
|
60.60 | ISO/TC 92/SC 3 |
Fire safety engineering – Concept and example applications of risk-based fire safety design of buildings
|
30.60 | ISO/TC 92/SC 4 |
Fire safety engineering — General principles — Part 1: General
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — General principles — Part 2: Example of a dry-cleaning store
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — General principles
|
95.99 | ISO/TC 92/SC 4 |
Large outdoor fires and the built environment — Global overview of different approaches to standardization
|
90.92 | ISO/TC 92 |
Large outdoor fires and the built environment — Global overview of different approaches to standardization
|
50.20 | ISO/TC 92 |
Fire safety engineering — Requirements governing algebraic formulae — Part 1: General requirements
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic formulae — Part 2: Fire plume
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic formulae — Part 3: Ceiling jet flows
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic formulae — Part 4: Smoke layers
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic formulae — Part 5: Vent flows
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic formulae — Part 6: Flashover related phenomena
|
90.92 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic formulae — Part 7: Radiation heat flux received from an open pool fire
|
90.92 | ISO/TC 92/SC 4 |
Fire safety engineering — Requirements governing algebraic formulae — Part 9: Ejected flame from an opening
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Performance of structures in fire — Part 1: General
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Performance of structure in fire — Part 2: Example of an airport terminal
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Performance of structure in fire — Part 3: Example of an open car park
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Performance of structures in fire — Part 4: Example of a fifteen-storey steel-framed office building
|
90.92 | ISO/TC 92/SC 4 |
Fire safety engineering — Performance of structures in fire — Part 5: Example of a timber building in Canada
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Performance of structures in fire — Part 6: Example of an eight-storey office concrete building
|
90.93 | ISO/TC 92/SC 4 |
Fire safety engineering — Performance of structures in fire — Part 8: Example of a probabilistic assessment of a concrete building
|
60.60 | ISO/TC 92/SC 4 |
Fire safety engineering — Performance of structures in fire
|
95.99 | ISO/TC 92/SC 4 |
Guidelines for assessing the adverse environmental impact of fire effluents — Part 1: General
|
95.99 | ISO/TC 92/SC 3 |
Guidelines for assessing the adverse environmental impact of fire effluents — Part 1: General
|
90.20 | ISO/TC 92/SC 3 |
Guidelines for assessing the adverse environmental impact of fire effluents — Part 2: Methodology for compiling data on environmentally significant emissions from fires
|
90.93 | ISO/TC 92/SC 3 |
Guidelines for assessing the adverse environmental impact of fire effluents — Part 3: Sampling and analysis
|
60.60 | ISO/TC 92/SC 3 |
Environmental damage limitation from fire-fighting water run-off
|
90.92 | ISO/TC 92/SC 3 |
Fire tests — Uncertainty of measurements in fire tests
|
90.93 | ISO/TC 92/SC 1 |
Fire safety engineering — Selection of design occupant behavioural scenarios
|
90.93 | ISO/TC 92/SC 4 |
Comparison of toxic gas data from different tests — Part 1: Guidance and requirements
|
60.60 | ISO/TC 92/SC 3 |
Guidance for comparison of toxic gas data between different physical fire models and scales
|
95.99 | ISO/TC 92/SC 3 |
Fire chemistry — Generation and measurement of aerosols
|
90.93 | ISO/TC 92/SC 3 |
Fire chemistry — Generation and measurement of aerosols — Amendment 1
|
20.20 | ISO/TC 92/SC 3 |
По запросу ничего не найдено. Пожалуйста, попробуйте изменить настройки фильтра.