This invention relates to a process for improving the ozone resistance of certain vulcanized polymers and polymer blends, and in some cases also their flex resistance, as well as to polymers and polymer blends having improved ozone resistance and sometimes also flex resistance.
Elastomeric chloroprene polymer vulcanizates are quite resistant to ozone at normal temperature but are more readily degraded at elevated temperatures, especially when flexed or stretched. Other polymer vulcunizates are less resistant to ozone than chloroprene polymer vulcanizates. Various antiozonants are commercially available and usually are incorporated in such polymer formulations. While many such additives provide a good degree of protection against ozone deterioration, certain commercial antiozonants cause premature curing of polymer stocks, while most cause discoloration or staining of the polymer vulcanizates. There presently appears to be only one nonstaining antiozonant commercially available.
U.S. Pat. No. 3,563,947 (to W. F. Gruber) discloses the use of certain norbornene derivates as antiozonants for elastomeric chloroprene polymers. The copending allowed application Ser. No. 534,200 of M. C. Chen describes certain triarylphosphines which improve the flex resistance of chloroprene-sulfur copolymers.