3.1 A number of laboratory procedures are used to evaluate the effectiveness of fire-retardant and fire-resistant treatments and coatings. In general, these methods measure the three stages of fire development: (1) ignition; (2) flame spread (rate of growth of the...
3.1 A number of laboratory procedures are used to evaluate the effectiveness of fire-retardant and fire-resistant treatments and coatings. In general, these methods measure the three stages of fire development: (1) ignition; (2) flame spread (rate of growth of the...
This European Standard describes the characteristics for fire-retardant treated wood products. NOTE 1 It is based on maintaining performance undiminished throughout the desired service life in the anticipated conditions of use. The European Standard prescribes the classification...
This European Technical Specification describes the characteristics which fire-retardant treated wood products should exhibit so that their fire-retardant properties persist undiminished throughout the desired service life in the anticipated conditions of use. The...
The hygroscopic properties of wood and wood-based products treated with fire-retardant chemicals are often greater than for untreated products. This is particularly true at the higher relative humidity conditions. This higher hygroscopicity sometimes is the cause for staining, decay,...
The hygroscopic properties of wood and wood-based products treated with fire-retardant chemicals are often greater than for untreated products. This is particularly true at the higher relative humidity conditions. This higher hygroscopicity sometimes is the cause for staining, decay,...
The hygroscopic properties of wood and wood-based products treated with fire-retardant chemicals are often greater than for untreated products. This is particularly true at the higher relative humidity conditions. This higher hygroscopicity sometimes is the cause for staining, decay,...
The hygroscopic properties of wood and wood-based products treated with fire-retardant chemicals are often greater than for untreated products. This is particularly true at the higher relative humidity conditions. This higher hygroscopicity sometimes is the cause for staining, decay,...
1.1 This test method prescribes the procedure for determining the hygroscopicity of fire retardant treated wood products by determining the moisture content of fire-retardant-treated wood and wood-based product specimens after exposure to a test condition of 92 ± 2 %...
1. SCOPE: This standard describes the minimum requirements for flame retardant coveralls.
1.1 This test method prescribes the procedure for determining the hygroscopicity of fire retardant treated wood products by determining the moisture content of fire-retardant-treated wood and wood-based product specimens after exposure to a test condition of 92 ± 2 %...
A comprehensive overview of nanocomposites and the effects of nanocomposite formation on fire retardant systems Flame Retardant Polymer Nanocomposites draws extensively from current work and research in the field to provide a detailed look at polymer nanocomposites for flame...
This specification covers a fire-retardant-treated cotton twill in the form of cloth.
This specification covers a fire-retardant-treated cotton twill in the form of cloth.
This specification covers one type of cotton denim cloth which has been treated with a flame retardant finish.
This specification covers one type of cotton twill cloth which has been treated with a flame retardant finish.
This specification covers translucent resins used to fabricate fire-retardant glass reinforced plastic laminates for use in boats, tanks, and other Naval applications.
This specification covers the requirements for one type of flannel cotton cloth which has been treated with a flame retardant finish.
Provides the required treating standards and locations within the building codes where the standards are referenced, as well as where fire-retardant-treated FRT plywood can be safely used