B. T. Hofreiter scite author profile

synopsisThe efficacy of oxidatively crosslinked starch xanthate for improving web and drystrength properties of paper prompted the present study of an alternative, interpolymeric crosslinking procedure. Sodium starch xanthate of degrees of substitution 0.05-0.25 was reacted with a commercial paper additive (a polyamide-polyamine-epichlorohydrin wet-strength resin) which was found to contain 3-hydroxyazetidinium chloride, epoxypropyl, and chlorohydrin groups (3: 1: 1) to give an interpolymer crosslinked by both ionic and covalent bonds. Model systems, in conjunction with nuclear magnetic resonance, infrared, and ultraviolet spectral data, served to elucidate reaction mechanisms and structures of the interpolymer and the commercial resin. Reaction conditions that favored formation of either ionic (polysalt) or covalent (xanthate ester) crosslinks were investigated. In preliminary evaluations, incorporation of the interpolymer into paper handsheets resulted in excellent wet-and dry-strength improvements.

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B. T. Hofreiter

Rapid Estimation of Dialdehyde Content of Periodate Oxystarch through Quantitative Alkali Consumption

Chlorous Acid Oxidation of Periodate Oxidized Cornstarch²

Properties of Periodate Oxidized Starch

The Structure of a New Starch of High Amylose Content²

Interpolymer from starch xanthate and polyamide–polyamine–epichlorohydrin resin: Structure and papermaking application

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B. T. Hofreiter

Rapid Estimation of Dialdehyde Content of Periodate Oxystarch through Quantitative Alkali Consumption

Chlorous Acid Oxidation of Periodate Oxidized Cornstarch2

Properties of Periodate Oxidized Starch

The Structure of a New Starch of High Amylose Content2

Interpolymer from starch xanthate and polyamide–polyamine–epichlorohydrin resin: Structure and papermaking application

Contact Info

Product

Resources

About

Chlorous Acid Oxidation of Periodate Oxidized Cornstarch²

The Structure of a New Starch of High Amylose Content²