Optimization of tracer coating parameters and their effects on the mechanical properties and quality of food-grade tracers for grain traceability
Abstract
Keywords: grain traceability, food-grade tracer, coating process, optimization, Box–Behnken design
DOI: 10.25165/j.ijabe.20191202.4180
Citation: Liang K, Zhang L L, Chen X H, Shen M X. Optimization of tracer coating parameters and their effects on the mechanical properties and quality of food-grade tracers for grain traceability. Int J Agric & Biol Eng, 2019; 12(2): 201–209.
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Thakur M, Hurburgh C R. Framework for implementing traceability system in the bulk grain supply chain. Journal of Food Engineering, 2009; 95(4): 617–626
Golan E, Krissoff B, Kuchler F, Calvin L, Nelson K, Price G. Traceability in the U.S. Food supply: Economic theory and industry studies. Agricultural Economics Reports, USDA/Economic Research Service/AER-830, 2004. http://agris.fao.org/agris-search/search.do? recordID=US2015201182
Comba L, Belforte G, Dabbene F, Gay P. Methods for traceability in food production processes involving bulk products. Biosystems Engineering, 2013; 116(1): 51–63.
Sui R X, Thomasson J A, Herrman T. Development of tracers for grain tracing system. ASABE Annual International Meeting, 2007.
Lee K M, Armstrong P R, Thomasson J A, Sui R X, Casada M, Herrman T J. Application of binomial and multinomial probability statistics to the sampling design process of a global grain tracing and recall system. Food Control, 2011; 22(7): 1085–1094.
Liang K, Zhang L L, Lu W, Cedric S O, Shen M X. Optimization of compression equation and load of food-grade tracers for grain traceability using central composite design. Int J Agric & Biol Eng, 2017; 10(6): 221–230.
Sui R, Thomasson J A, Herrman T. Development of tracers for grain tracing system. ASABE Annual International Meeting, Minneapolis, Minnesota, 2007. http://elibrary.asabe.org/ abstract.asp?aid=23405
Lee K M, Armstrong P R, Thomasson J A, Sui R X, Casada M, Herrman T J. Development and characterization of food-grade tracers for the global grain tracing and recall system. Journal of Agricultural and Food Chemistry, 2010; 58(20): 10945–10957.
Liang K, Thomasson J A, Lee K M, Shen M X, Ge Y, Herrman T J. Printing data matrix code on food-grade tracers for grain traceability. Biosystems Engineering, 2012; 113(4): 395–401.
Liang K, Thomasson J A, Shen M X, Armstrong P R, Ge Y, Lee K M, Herrman T J. Ruggedness of 2D code printed on grain tracers for implementing a prospective grain traceability system to the bulk grain delivery system. Food Control, 2013; 33(2): 359–365.
Yang Z M, Sun J X, Guo Y M. Effect of moisture content on compression mechanical properties and frictional characteristics of millet grain. Transactions of the CSAE, 2015; 31(23): 253–260.
Yang Z M, Guo Y M, Cui Q L, Li H B. Test and influence factors analysis of friction characteristics of millet. Transactions of the CSAE, 2016; 32(16): 258–264. (in Chinese)
ASAE Standard. Compression test of food materials of Convex Shape. ASAE S368.4 DEC2000, 2008. http://mireei.iut.ac.ir/sites/ mireei.iut.ac.ir/files/files_course/asae_standard.pdf
Tabatabaekoloor R, Hashemi S J, Taghizade G. Vibration damage to kiwifruits during road transportation. International Journal of Agriculture and Food Science Technology, 2013; 4(5): 467–474.
Rohera B D, Parikh N H. Influence of plasticizer type and coat level on Surelease film properties. Pharmaceutical Development and Technology, 2002; 7(4): 407–420.
Pearnchob N, Siepmann J, Bodmeier R. Pharmaceutical applications of shellac: moisture-protective and taste-masking coatings and extended-release matrix tablets. Drug Development and Industrial Pharmacy, 2003; 29(8): 925–938.
Heinämäki J, Ruotsalainen M, Lehtola V M, Antikainen O, Yliruusi J. Optimization of aqueous-based film coating of tablets performed by a side-vented pan-coating system. Pharmaceutical Development and Technology, 1997; 2(4): 357–364.
Pandey P, Bindra D S, Felton L A. Influence of process parameters on tablet bed microenvironmental factors during pan coating. Aaps Pharmscitech, 2014; 15(2): 296–305.
Wang J, Hemenway J, Chen W, Desai D, Early W, Paruchuri S, et al. An evaluation of process parameters to improve coating efficiency of an active tablet film-coating process. International Journal of Pharmaceutics, 2012; 427(2): 163–169.
Christodoulou C, Sorensen E, Mazzei L. Mathematical modelling of water absorption and evaporation in a pharmaceutical tablet during film coating. Chemical Engineering Science, 2017; 175: 40–55.
Suzzi D, Radl S, Khinast J G. Local analysis of the tablet coating process: Impact of operation conditions on film quality. Chemical Engineering Science, 2010; 65(21): 5699–5715.
Teckoe J, Mascaro T, Farrell T P, Rajabisiahboomi A R. Process Optimization of a Novel Immediate Release Film Coating System using QbD Principles. Aaps Pharmscitech, 2013; 14(2): 531–540.
Dohi M, Momose W, Yoshino H, Hara Y, Yamashita K, Hakomori T, et al. Application of terahertz pulse imaging as PAT tool for non-destructive evaluation of film-coated tablets under different manufacturing conditions. Journal of Pharmaceutical and Biomedical Analysis, 2016; 119: 104–113.
Prater D A, Meakin B J, Rowe R C, Wilde J S. A technique for investigating changes in the surface roughness of tablets during film coating. Journal of Pharmacy and Pharmacology, 1981; 33(10): 666–668.
Cahyadi C, Heng P W S, Lai W C. Optimization of process parameters for a quasi-continuous tablet coating system using design of experiments. Aaps Pharmscitech, 2011; 12(1): 119–131.
Niblett D, Porter S, Reynolds G, Morgan T, Greenamoyer J, Hach R, et al. Development and evaluation of a dimensionless mechanistic pan coating model for the prediction of coated tablet appearance. International Journal of Pharmaceutics, 2017; 528(1-2): 180–201.
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