Comparison of Wool Reactions with Selected Mono- and Bifunctional Reagents

Abstract

The molecular structure of wool is discussed in relation to chemical reactivity and the role of disulfide crosslinks. Ideal characteristics of an effective medium (e. g. dimethylformamide) for modifying wool include the ability to penetrate and swell wool without interfering with reagents used. The extent of reaction of wool or reduced wool is compared for mono-and bifunctional activated vinyl compounds, isocyanates, acid chlorides, acid anhydrides, sulfonyl chlorides, and alkyl halides. The degree of crosslinking is assessed by solubility, supercontraction, and tensile tests. Optical and electron scanning microscopy can give evidence of external polymer deposition in contrast to internal chemical modification. Effects of crosslinking by bifunctional reagents are related to changes in mechanical, chemical, and biological (moth-resisting) properties of the modified wool.