A series of chemical and instrumental analyses was employed using final buoy samples in a Reversed Engineering Method to develop the formulation for production of Ethylene Vinyl Acetate (EVA) buoys. To accomplish the goal, FTIR, DSC, and TGA and chemical analyses such as Furnace Test were conducted on the samples. The formulation was found to be composed of Co-Polymer Ethylene Acetate PHR 84, LDPE 16 PHR, ADCA 6 PHR, Zinc Oxide 3 PHR, Kaolin Clay 3 PHR, Dicumil Peroxide 1.7 PHR, and Stearic Acid 2 PHR......
Shahmohmmadi, H. (2006). Developing the chemical formulae for production of EVA Buoy using Reversed Engineering Method. Iranian Scientific Fisheries Journal, 15(2), 45-54. doi: 10.22092/isfj.2006.113981
MLA
H. Shahmohmmadi. "Developing the chemical formulae for production of EVA Buoy using Reversed Engineering Method". Iranian Scientific Fisheries Journal, 15, 2, 2006, 45-54. doi: 10.22092/isfj.2006.113981
HARVARD
Shahmohmmadi, H. (2006). 'Developing the chemical formulae for production of EVA Buoy using Reversed Engineering Method', Iranian Scientific Fisheries Journal, 15(2), pp. 45-54. doi: 10.22092/isfj.2006.113981
VANCOUVER
Shahmohmmadi, H. Developing the chemical formulae for production of EVA Buoy using Reversed Engineering Method. Iranian Scientific Fisheries Journal, 2006; 15(2): 45-54. doi: 10.22092/isfj.2006.113981
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