Effect of nanoZnO over conventional ZnO on preservation of concentrated natural rubber latex

Y. R. Somarathna; I. H. K. Samarasinghe; S. Siriwardena; D. de Silva; D. V. D. Mallikarachchi

doi:10.4038/jrrisl.v98i0.1876

Articles

Effect of nanoZnO over conventional ZnO on preservation of concentrated natural rubber latex

Authors:

Y. R. Somarathna ,

Rubber Research Institute of Sri Lanka, Telawala Road, Ratmalana, LK

I. H. K. Samarasinghe,

Rubber Research Institute of Sri Lanka, Telawala Road, Ratmalana, LK

S. Siriwardena,

Rubber Research Institute of Sri Lanka, Telawala Road, Ratmalana, LK

D. de Silva,

Glenross Rubber Company, B/2, Elvitigala Mawatha, Colombo 08, LK

D. V. D. Mallikarachchi

Rubber Research Institute of Sri Lanka, Telawala Road, Ratmalana, LK

Abstract

An attempt was made to replace conventional ZnO with nanoZnO in low ammonia, tetramethylthiuramdisulphide (TMTD)/Zinc oxide (ZnO) natural rubber latex preservative system (LATZ). Different percentages of TMTD and nanoZnO dispersions containing equal portions were prepared and used to preserve the latex. Centrifuged natural rubber latex (CNRL) thus prepared were tested for VFA (volatile fatty acid) number and MST (mechanical stability time) periodically over a period of 75 days. Mechanical properties of vulcanized latex thin films made out of CNRL preserved were measured. Development of VFA number in CNRL samples preserved with nanoZnO was lower than the sample prepared with the conventional ZnO (control). Both the VFA number results and surface plots of the matured CNRL samples showed that preservative action of the modified preservative system was mainly governed by the amount of nanoZnO in the system. MST values of CNRL preserved with nanoZnO substituted systems were significantly high when compared to the control. Tensile and tear properties of the vulcanized films prepared using CNRL preserved with nanoZnO were almost comparable with those of the vulcanized films prepared using control system. The statistical analysis indicated that CNRL preserved with modified preservative system of 10% and 15% of TMTD/nanoZnO could be stored up to 55 and 75 days respectively, without exceeding VFA value above 0.02.

Keywords: Centrifuged natural rubber latex, MST, NanoZnO, Preservative system, TMTD, VFA

How to Cite: Somarathna, Y.R., Samarasinghe, I.H.K., Siriwardena, S., de Silva, D. and Mallikarachchi, D.V.D., 2018. Effect of nanoZnO over conventional ZnO on preservation of concentrated natural rubber latex. Journal of the Rubber Research Institute of Sri Lanka, 98, pp.65–79. DOI: http://doi.org/10.4038/jrrisl.v98i0.1876

Published on 28 Dec 2018.

Peer Reviewed

Journal of the Rubber Research Institute of Sri Lanka

Reading: Effect of nanoZnO over conventional ZnO on preservation of concentrated natural rubber latex

Articles

Effect of nanoZnO over conventional ZnO on preservation of concentrated natural rubber latex

Authors:

Y. R. Somarathna ,

Rubber Research Institute of Sri Lanka, Telawala Road, Ratmalana, LK

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I. H. K. Samarasinghe,

Rubber Research Institute of Sri Lanka, Telawala Road, Ratmalana, LK

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S. Siriwardena,

Rubber Research Institute of Sri Lanka, Telawala Road, Ratmalana, LK

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D. de Silva,

Glenross Rubber Company, B/2, Elvitigala Mawatha, Colombo 08, LK

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D. V. D. Mallikarachchi

Rubber Research Institute of Sri Lanka, Telawala Road, Ratmalana, LK

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Abstract

Keywords: Centrifuged natural rubber latex, MST, NanoZnO, Preservative system, TMTD, VFA

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