13.220.99 – Other standards related to protection against fire – PDF Standards Store ?u= Wed, 06 Nov 2024 04:31:13 +0000 en-US hourly 1 https://wordpress.org/?v=6.7.1 ?u=/wp-content/uploads/2024/11/cropped-icon-150x150.png 13.220.99 – Other standards related to protection against fire – PDF Standards Store ?u= 32 32 SAE AS 8992:2020 ?u=/product/publishers/sae/sae-as-89922020/ Wed, 06 Nov 2024 04:31:13 +0000 Fire Resistant Container Design, Performance, and Testing Requirements
Published By Publication Date Number of Pages
SAE 2020-10-27 20
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This Aerospace Standard (AS) specifies the minimum design and performance criteria and testing methods of passive fire resistant containers (FRCs) used either:
  1. a

    In those cargo compartments of civil transport aircraft where they constitute one means of complying with applicable airworthiness regulations, or
  2. b

    On a voluntary basis, when deemed appropriate by operators to improve fire protection in aircraft cargo compartments where airworthiness regulations do not mandate their use.
]]> SAE AS 4273A:2007 ?u=/product/publishers/sae/sae-as-4273a2007/ Wed, 06 Nov 2024 04:15:36 +0000 Fire Testing of Fluid Handling Components for Aircraft Engines and Aircraft Engine Installations
Published By Publication Date Number of Pages
SAE 2007-02-15 14
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This document establishes requirements, test procedures, and acceptance criteria for the fire testing of fluid handling components and materials used in aircraft fluid systems. It is applicable to fluid handling components other than those prescribed by AS1055 (e.g., hoses, tube assemblies, coils, and fittings).
It also is applicable to materials, wiring, and components such as reservoirs, valves, gearboxes, pumps, filter assemblies, accumulators, fluid-cooled electrical/electronic components, in-flight fluid system instrumentation, hydromechanical controls, actuators, heat exchangers, and manifolds. These components may be used in fuel, lubrication, hydraulic, or pneumatic systems.
]]> SAE ARP 4740A:2016 ?u=/product/publishers/sae/sae-arp-4740a2016/ Wed, 06 Nov 2024 03:58:30 +0000 Safety Considerations - Smoking in Lavatories of Transport Aircraft
Published By Publication Date Number of Pages
SAE 2016-02-24 5
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This ARP addresses the issue of passengers smoking in aircraft lavatories and the need to improve warnings about the danger of fire caused by smoking.
]]> SAE ARP 4712A:2015 ?u=/product/publishers/sae/sae-arp-4712a2015/ Wed, 06 Nov 2024 03:58:25 +0000 Hand-Held Cabin Fire Extinguishers Transport Aircraft
Published By Publication Date Number of Pages
SAE 2015-12-06 8
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This SAE Aerospace Recommended Practice (ARP) establishes general criteria for the installation (e.g., type, location, accessibility, stowage) and crew member training needed for hand-held fire extinguishers.
]]> SAE ARP 4101/9A:2013 ?u=/product/publishers/sae/sae-arp-4101-9a2013/ Wed, 06 Nov 2024 03:57:43 +0000 Crew Safety Provisions for Cargo Aircraft
Published By Publication Date Number of Pages
SAE 2013-07-18 3
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This document recommends provisions for crew safety and survival which are intended to apply to cargo or combination aircraft and equipment.
]]> SAE AMS 3851A:1987 ?u=/product/publishers/sae/sae-ams-3851a1987/ Wed, 06 Nov 2024 03:35:24 +0000 Fire Resistant Properties for Aircraft Materials
Published By Publication Date Number of Pages
SAE 1987-01-01 1
]]> Fire Resistant Properties for Aircraft Materials
Published By Publication Date Number of Pages
SAE 1987-01-01 1
]]> ISO/TS 16312-1:2004 ?u=/product/publishers/iso/iso-ts-16312-12004/ Wed, 06 Nov 2024 01:27:29 +0000 Guidance for assessing the validity of physical fire models for obtaining fire effluent toxicity data for fire hazard and risk assessment — Part 1: Criteria
Published By Publication Date Number of Pages
ISO 2004-05 18
]]> ISO 16312-1:2004 provides technical criteria and guidance for evaluating physical fire models (i.e. laboratory combustion devices and operating protocols) used in effluent toxicity studies for obtaining data on the effluent from products and materials under fire conditions relevant to life safety. Reference should be made to ISO 19701, ISO 19702, ISO 19703, ISO 19706, ISO 13344, and ISO/TS 13571 for presentation of relevant analytical methods, calculation methods, bioassay procedures and prediction of the toxic effects of fire effluents.

]]> ISO/TR 9122-6:1994 ?u=/product/publishers/iso/iso-tr-9122-61994/ Wed, 06 Nov 2024 01:19:31 +0000 Toxicity testing of fire effluents — Part 6: Guidance for regulators and specifiers on the assessment of toxic hazards in fires in buildings and transport
Published By Publication Date Number of Pages
ISO 1994-02 12
]]> Describes the position of the regulator, a series of logical steps to be considered in assessing a particular fire scenario, toxic products and mechanisms of toxicity in fires, methods of toxic hazard assessment, and the recommended hazard assessment procedure.

]]> ISO/TR 9122-5:1993 ?u=/product/publishers/iso/iso-tr-9122-51993/ Wed, 06 Nov 2024 01:19:31 +0000 Toxicity testing of fire effluents — Part 5: Prediction of toxic effects of fire effluents
Published By Publication Date Number of Pages
ISO 1993-04 21
]]> Reviews the progress of bioanalytical methodology, including the application of mathematical models which are available and may be used in the toxicological assessment of fire effluent atmospheres. Attention is also given to the application of such models as a means to minimize the use of laboratory animals in the testing of materials for fire effluent toxicity.

]]> ISO/TR 9122-4:1993 ?u=/product/publishers/iso/iso-tr-9122-41993/ Wed, 06 Nov 2024 01:19:30 +0000 Toxicity testing of fire effluents — Part 4: The fire model (furnaces and combustion apparatus used in small-scale testing)
Published By Publication Date Number of Pages
ISO 1993-05 21
]]> Defines the criteria for an acceptable fire model, reviews existing fire models ("box" furnace models, tube furnace models, radiant heat models) against these criteria, and proposes that fire models be selected for use through consideration of these criteria which includes a capacity to generate fire conditions characteristics of known stages of fire. Does not give a detailed analysis of the physics and chemistry of fire.

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