The degradation and morphology of compacted cotton fibers placed in hot oxidizing low velocity streams have been examined using a scanning electron microscope. The effects of sample compactness, stream velocity, stream tem perature and exposure time on the degradation of the cotton fibers were estab lished.
Zeronian, S.H. , Cellulose Chemistry and Technology , Vol. 48, pp. 189-205 (1977).
3.
Zeronian, S.H. and Alger, K.W., Journal of Fire Retardant Chemistry , Vol. 7, pp. 189-205 (1980).
4.
Zurek, W. and Zakarzewski, S., Journal of Textile Institute, No. 5, pp. 323-331 (1984).
5.
American National Standard ASTM D1441-72 (Standard Recommended Practice for Sampling Cotton Fibers for Testing, American Society for Testing and Materials, Philadelphia, PA, U.S.A .
6.
American National Standard ASTM D1442-80 (Standard Test Method for Maturity of Cotton Fibers, American Society for Testing and Materials , Philadelphia, PA, U.S.A.
7.
Basch, A. and Lewin, M., "The Influences of Fine Structure on the Pyrolysis of Cellulose-II. Pyrolysis in Air,"Journal of Polymer Science, Vol. 11, pp. 3095-3101 (1973).
8.
Browne, C.A. , "The Spontaneous Heating and Ignition of Hay and other Agricultural Products,"Science, Vol. 77, No. 1992 (March 1933).
