Application of para rubber latex mixed with organic dyes as printing ink for biodegradable plastic film

Authors

  • Tanathorn Techochaingam Department of Printing and Packaging Technology
  • Suchapa Netpradit Department of Printing and Packaging Technology
  • Krittika Tanprasert Department of Printing and Packaging Technology
  • Ploenpit Boochathum Department of Chemistry, King Mongkut’s University of Technology Thonburi

Keywords:

Biodegradable plastic, Modified Para rubber latex, Natural Para rubber latex, Organic dyes, Printing ink

Abstract

content of 35.9% and 41.2%, which had the viscosity of 9.52 seconds and drying time of around 5 minutes.  The viscosity of Para rubber latex with solid content of 59.0% and 61.4%   was very high; thus, resulted in coagulation. Then modified rubber latex CNR with solid content of 16.5%, 19.2%, 26.8% and 28.2%, which had the viscosity around 8.30 seconds and drying time of around 5 minutes.   Dye solution was prepared by adding 1 part of dye to 1 part of water (w/w).  The formulation of ink that yielded the highest optical density of 1.43 was 8.4 g dye solution in 84 g Para rubber latex.  The additive substances were added to the mixture to make up the weight of 100 g.   The result showed that printing ink made from natural Para rubber latex with solid content of 35.9% and 41.2% and modified rubber latex CNR with solid content of 16.5%, 19.2%, 26.8% and 28.2% can be printed on the biodegradable film without surface treatment and ink layer color was brilliant.  The modified rubber latex with solid content of 16.5%, 19.2%, 26.8% and 28.2% showed better print quality and smoother ink layer than the natural Para rubber latex. However, the adhesion resistance and rub resistance of this ink were inferior to traditional ink using acrylic binder.

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References

Netpradit, S. and Tanprasert, K. (2010). Biodegr a da b ilit y a nd P r int ing Properties of Biodegradable Polymer Blend Film Printed with Soy Ink, In : VI International Packaging Congress, September16-18, Istanbul Kultur Universitesi,Istanbul:77-86.

Boochathum, P., Tansuwan, S., Angkaew, S. and Tengrang, S. (2003). Functional Natural Rubber Prepared in situ Ozonolysis of Latex. In : The 8th Pacific Polymer Conference, November 24-27, Bangkok, Thailand : 49.

Utara, S. and Boochathum, P. (2011).Effect of Molecular Weight of Natural Rubber on the Compatibility and Crystallization Behavior of LLDPE/NR Blends. Polym.- Plast. Technol. Eng. 50(10) : 1019-1026.

ASTM D3359-09e2. Standard Test Methods for Measuring Adhesion by Tape Test, 100 Barr Harbor Drive. West Conshohocken. PA 19428-2959.

ASTM D5264-98. (2011). Standard Practice for Abrasion Resistance of Printed Materials by the Sutherland rub tester. 100 Barr Harbor Drive. West Conshohocken. PA 19428-2959.

Burfield, D.R., Lim, K.L. and LAW, K.S. (2003). Epoxidation of Natural Rubber Latices : Methods of Preparation and Properties of Modified Rubber. J. Appl. Polym. Sci. 29(5) : 1661-1673.

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Published

2013-06-30

How to Cite

[1]
T. Techochaingam, S. Netpradit, K. Tanprasert, and P. . Boochathum, “Application of para rubber latex mixed with organic dyes as printing ink for biodegradable plastic film”, J Met Mater Miner, vol. 23, no. 1, Jun. 2013.

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Section

Original Research Articles