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Abstract

The elongation-at-break of highly-oriented polypropylene monofilaments is much less affected by photo-oxidation build-up than undrawn or partially-oriented filaments. This appears to result from the very poor lateral cohesion of the fibril bundles in the highly-oriented filament, limiting restructuring and cracking to a thin surface layer. For less-oriented samples photo-oxidation-induced restructuring of the surface layer results in deep cracks that can propagate under stress, greatly embrittling the sample. Areas of filaments cold drawn by, for example, bending or stretching deteriorate very rapidly on uv irradiation as a result of strain-induced chromophore formation, and fracture occurs first at these points. Oxidation-product levels (either hydroperoxide or carbonyl) are shown to be an unreliable index of the extent of deterioration of mechanical properties resulting from uv exposure.

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References

Adams

J. H.

, Analysis of Nonvolatile Oxidation Products of Polypropylene. III, Photodegradation, J. Polym. Sci., A1 8, 1279–1288 (1970).

Andrews

E. H.

, “Fracture in Polymers,” American Elsevier, New York, 1968.

Armond

V. J.

Atkinson

J. R.

, The Effect of Chromic Acid on Polypropylene, J. Mater. Sci. 3, 332–335 (1968).

Blais

Carlsson

D. J.

Wiles

D. M.

, Surface Changes-During Polypropylene Photo-Oxidation. A Study by Infrared Spectroscopy and Electron Microscopy, J. Polym. Sci., A1 10, 1077–1092 (1972).

Blais

Carlsson

D. J.

Clark

F. R. S.

Sturgeon

P. Z.

Wiles

D. M.

, The Photo-Oxidation of Polypropylene Monofilaments. Part II: Physical Changes and Micro-structure, Textile Res. J. 46, 641–648 (1976).

Bonkowski

J. E.

, Practical Approaches to the Light Stabilization of Polypropylene Multifilaments, Textile Res. J. 39, 243–247 (1969).

Briggs

P. J.

McKellar

J. F.

, Mechanism of Photostabilization of Polypropylene by Nickel Oxime Chelates, J. Appl. Polym. Sci. 12, 1825–1833 (1968).

Carlsson

D. J.

Wiles

D. M.

, The Photo-Oxidative Degradation of Polypropylene. Part I, Photo-Oxidation and Photo-Initiation Process, J. Macromol. Sci., Rev. Macromol. Chem. C14, 65–106 (1976).

Carlsson

D. J.

Clark

F. R. S.

Wiles

D. M.

, The Photo-Oxidation of Polypropylene Monofilaments. Part I: Chemical Changes and Mechanical Deterioration, Textile Res. J. 46, 590–599 (1976).

10.

Carlsson

D. J.

Garton

Wiles

D. M.

, The Initiation of Polypropylene Photo-Oxidation. II, Potential Processes and their Relevance to Stability, Macromolecules 9, 695–701 (1976).

11.

Carlsson

D. J.

Garton

Wiles

D. M.

, The Weather-ability of Polypropylene Monofilaments. Effects of Fiber Production Conditions, J. Appl. Polym. Sci., in press.

12.

Hearle

J. W. S.

Cross

P. M.

, The Fractography of Thermoplastic Textile Fibers, J. Mater. Sci. 5, 507–516, (1970).

13.

Hindson

W. R.

, Actinic Degradation of Polyolefin Fibers, Textile J. Australia, 72–75 (May 1967).

14.

Peterlin

, Plastic Deformation and Structure of Extruded Polymer Solids, Polym. Eng. Sci. 14, 627–632 (1974).

15.

Van Veld

R. D.

Morris

Billica

H. R.

, Morphology of Man-Made Fibers, J. Appl. Polym. Sci. 12, 2709–2724 (1968).

16.

Winslow

F. H.

Matreyek

Trozzolo

A. M.

, Weathering of Polyethylene, Polymer Preprints 10, 1271–1275 (1969).