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Abstract

The limiting oxygen index (LOI) technique provides a quantitative measure of reduced ftammability for fabrics over broad ranges of chemical treatment. Several conventional flame-retardant finishes for cellulosics gave linear LOI relationships with phosphorus content when compared at fixed nitrogen/phosphorus ratios. Tris(aziridinyl)phosphine oxide (APO) was an exception.

Precise measurement of the role of N in enhancing the flame-retardant effectiveness can be made with this technique. The synergistic interaction of N and P can thus be described and measured. Two chemical systems were examined in depth, and it was possible to describe LOI as simple functions of N and P contents for each system. The synergistic effect did not predominate at a specific N/P ratio.

LOI of about 0.26 is associated with a 5-in. char length in the vertical test for several fabrics, a sateen fabric being an exception. Fabric air permeability was found to be a primary factor governing chemical requirements and is probably more important than fabric weight.

Other nitrogenous durable-press reactants are less effective than melamines. Complex relationships as functions of nitrogen content were noted at different phosphorus levels.

Keywords

Cotton fabrics viscose rayon Pyrovatex (TN)N-hydroxymethl-3(methylphosphono)propionamide Resloom HI' (TN)TMM THPC THPOH APO Pyroset CP(TN)Pyroset DO(TN)cyanamide phosphoric acid urea N- methyloldicyandiamide Rhonite R-1 (TN)DMEU Permafresh 113B (TN)DMDHEU Stanset 125 (TN)N-alkyl triazone Dextraset UN (TN)bis(methoxymethyl)uron cross-linking agents fire-retardancy agents durable-press finishes reactants. Chemically modified cotton chemically modified cellulosic fabrics. Efficiency (process) loss. Textile materials fire resistance. Triethanolamine zinc fluoroborate amine hydrochloride Catalyst XRF (TN)catalysts. Tem perature concentration time. Weight regain fire resistance LOI synergism air permeability cross-linking char length durable press. Fire resistance LOI test vertical flame test. Chemically modified cotton fabrics chemically modified cellulosic fabrics moisture regain fabric weight. LOI test vertical flame test fire resistance testing pad-dry-cure process chemical analysis.

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References

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Quantitative Evaluation of Flame-Retardant Cotton Finishes by the Limiting-Oxygen Index (LOI) Technique

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