Thermal Degradation in Tire Cords

Abstract

Get full access to this article

View all access options for this article.

References

American Society for Testing Materials , "A.S.T.M. Standards" (Textile Materials), Philadelphia, 1947, 515 pp.

Busse, W.F. , Lessig, E.T. , Loughborough, D.L. , and Larrick, L. , Fatigue of Fabrics (Correction), J. Applied Phys. 16, 120( 1945).

Conrad, C.M. , Lyons, W.J. , and Tripp, V.W. , Study of Chemical Degradation of Cellulose in Cotton Tire Cords as a Result of Road Service and Wheel Testing Carried to Failure, TEXTILE RESEARCH JOURNAL 16, 324-8 (1946).

Dillon, J.H. , and Prettyman, I.B. , The Effects of Temperature and Humidity on the Physical Properties of Tire Cords, J. Applied Phys. 16, 159-72 (1945).

Grant, J.N. , Laboratory Oven of Foamglas, Rev. Sci. Instruments 15, 46 (1944).

Harris, E.E. , and Lang, B.G. , Hydrolysis of Wood Cellulose and Decomposition of Sugar in Dilute Phosphoric Acid, J. Phys. & Colloid Chem. 51 , 1430-41 (1947).

Hess, K. , Steurer, E. , and Fromm, H. , The Influence of the Grinding Process on the Properties of High Polymers (Cellulose and Polystyrene) and the Nature of Its Action, Kolloid Z. 98, 148-59 (1942).

Kraemer, E.O. , Molecular Weights of Celluloses and Cellulose Derivatives Ind. Eng. Chem.30, 1200-3 (1938).

Mark, H. , Relation Between Chain Length Distribution Curve and Tenacity Paper Trade J. 113, 34-40(1941).

10.

Mark, H. , Some Applications of Ultrasonics in High-Polymer Research, J. Acoustical Soc. Am. 16 , 183-7 (1945).

11.

Moelwyn-Hughes, E.A. , "The Kinetics of Reactions in Solutions," 2nd ed., Oxford, The Clarendon Press, 1947, p. 424.

12.

Nelson, M.L. , and Conrad, C.M. , Effect of Grinding on the Crystallinity of Cellulose Fibers, as Indicated by the Acid-Hydrolysis and Other Techniques TEXTILE RESEARCH JOURNAL 18, 155-64 (1948).

13.

Philipp, H.J. , and Conrad, C.M. , Control of Elongation in Highly Stretched Cotton Tire Cord, J. Applied Phys. 16, 32-40 (1945).

14.

Philipp, H.J. , Nelson, M.L. , and Ziifle, H.M. , The Crystallinity of Cellulose Fibers as Determined by Acid Hydrolysis TEXTILE RESEARCH JOURNAL 17, 585-96 (1947).

15.

Philippoff, W. , Die Bedeutung der Viscositat für die Chemie der Cellulose, Cellulosechemie 17, 55-77 (1936).

16.

Ridge, B.P. , and Bowden, H. , The Tensile Strength and Fluidity in Cuprammonium Hydroxide Solution of Chemically Modified Rayon and Cotton Yarns: Part I: Oxidation by Hypochlorite Solutions, Shirley Inst. Memoirs 11, 119-66 (1932).

17.

Sippel, A. , Die Veranderung von Reissfestigkeit und Polymerisationsgrad bei Kunstfasern durch Bestrahlung und der Zussammenhang dieser Erscheinungen mit dem molekularen Feinbau insbesondere bei Zellulose (derivaten), Kolloid Z. 112, 80-4 (1949).

18.

Staudinger, H. , and Jurisch, J. , Macromolecular Compounds: CCXXXVIII : The Strength of Fiber Celluloses with Different Degrees of Polymerization , Zellwolle, Kunstseide, Seide 44 , 375-6 (1939).

19.

Waller, R.C. , and Roseveare, W.E. , Fatigue Failure of Rayon Tire Cord, J. Applied Phys. 17, 482-91 (1946).