Stable crystalline cellulose III polymorphs
First Claim
1. A process for producing cellulosic fiber with improved resistance to abrasion and increased permeability to chemicals comprising:
- treating cellulosic fiber with ammonia vapors for sufficient time at a temperature from about ambient to about 140°
C. and at a pressure from about 100 psi to about 1700 psi to sufficiently alter the interatomic planar distances to produce a highly stable crystalline cellulose III polymorph.
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Accused Products
Abstract
Novel cellulosic fiber with improved resistance to abrasion and increased permeability to chemicals characterized by highly stable crystalline cellulose III and cellulose IV forms is disclosed. Cellulose is selected from either fiber, yarn, fabric, cotton, or mercerized cotton treated with ammonia vapors at from about ambient to 140° C. and from about 100 psi to 1700 psi for sufficient time to alter the interatomic planar distances and produce stable crystalline cellulose III polymorph. Crystalline cellulose III can also be immersed in ethylenediamine and then boiled in dimethylformamide to completely convert the III to cellulose IV.
10 Citations
6 Claims
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1. A process for producing cellulosic fiber with improved resistance to abrasion and increased permeability to chemicals comprising:
- treating cellulosic fiber with ammonia vapors for sufficient time at a temperature from about ambient to about 140°
C. and at a pressure from about 100 psi to about 1700 psi to sufficiently alter the interatomic planar distances to produce a highly stable crystalline cellulose III polymorph. - View Dependent Claims (2, 3, 4, 5, 6)
- treating cellulosic fiber with ammonia vapors for sufficient time at a temperature from about ambient to about 140°
Specification