Browse > Article

Changes in Pasting and Fluid Properties of Corn and Rice Starches after Physical Modification by Planetary Mill  

Kim, Bum-Keun (Korea Food Research Institute)
Lee, Jun-Soo (Korea Food Research Institute)
Cho, Yong-Jin (Korea Food Research Institute)
Park, Dong-June (Korea Food Research Institute)
Publication Information
Food Science and Biotechnology / v.17, no.4, 2008 , pp. 814-818 More about this Journal
Abstract
Com and rice starches were physically modified by planetary mill. While native starches showed high peak viscosities (1,001 and 563 cp), it decreased largely (42 and 20 cp for rice and com starch, respectively) after 2 hr of physical modification. When two starches were co-ground, peak viscosities decreased more largely than single ground one only in 30 min, indicating the pasting properties could be easily changed by co-grinding. Especially, the higher the amount of com starch, the viscosity decreased more largely, which means that paste stability could be controlled also by changing the ratio of com and rice starch. Mean particle size increased with physical modification time since particles became spread because of shear force. There were also changes in surface morphology after physical modification. Fluid property, such as mean time to avalanche (MTA), was improved (from $6.16{\pm}0.47$ and $8.37{\pm}1.23\;sec$ to $5.47{\pm}0.78$ and $5.26{\pm}1.37\;sec$ for rice and com starch, respectively) by physical modification. Pasting property, such as swelling power, was also improved by physical modification. These mean that native starches can be applied to both conventional powder and new paste-food industry more efficiently by physical modification.
Keywords
starch; planetary mill; physical modification; swelling power; viscosity;
Citations & Related Records

Times Cited By Web Of Science : 0  (Related Records In Web of Science)
Times Cited By SCOPUS : 0
연도 인용수 순위
  • Reference
1 Bemiller JN. Starch modification: Challenges and prospects. Starch 49: 127-131 (1997)   DOI   ScienceOn
2 Anna D, Menahem G, Ellina K, Eyal S. Study of high amylose corn starch as food grade enteric coating in a microcapsule model system. Innov. Food Sci. Emerg. 5: 93-100 (2004)   DOI   ScienceOn
3 Kum JS, Lee HY, Shin MG, You MR, Kim KH. Properties of modified rice starch by physical modification. Korean J. Food Sci. Technol. 26: 428-453 (1994)
4 Lin IJ, Nadiv S, Grodzian DJM. Changes in the state of solid and mechano-chemical reactions in prolonged comminution processes. Miner. Sci. Eng. 7: 313-336 (1975)
5 Gilman JJ. Mechanochemistry. Science 274: 65 (1996)   DOI
6 Lee J, Zhang Q, Saito F. Mechanochemical synthesis of lanthanum oxyfluoride from lanthanum oxide and lanthanum fluoride. J. Am. Ceram. Soc. 84: 863-865 (2001)   DOI   ScienceOn
7 Hellstern E, Schultz L. Amorphization of transition metal Zr alloys by mechanical alloying. Appl. Phys. Lett. 48: 124-126 (1986)   DOI   ScienceOn
8 Orimo S, Fujii H. Hydriding properties of the $Mg_2NI$-H system synthesized by reactive mechanical grinding. J. Alloy Compd. 232: L16-L19 (1996)   DOI   ScienceOn
9 Jane JL. Preparation and food application of physically modified starches. Trends Food Sci. Tech. 3: 145-148 (1992)   DOI   ScienceOn
10 Solanki SN, Subramanian R, Singh V, Ali SZ, Manohar B. Scope of colloid mill for industrial wet grinding for batter preparation of some Indian snack foods. J. Food Eng. 69: 23-30 (2005)   DOI   ScienceOn
11 Ghiasi K, Varriano-Marston K, Hoseney RC. Gelatinization of wheat starch. II. Starch-surfactant interaction. Cereal Chem. 59: 86-88 (1982)
12 Ramlakhan M, Wu CY, Watano S, Dave RN, Pfeffer R. Dry particle coating using magnetically assisted impaction coating: Modification of surface properties and optimization of system and operating parameters. Powder Technol. 112: 137-148 (2000)   DOI
13 Mio H, Kano J, Saito F. Scale-up method of planetary ball mill. Chem. Eng. Sci. 59: 5909-5916 (2004)   DOI   ScienceOn
14 Mura P, Cirri M, Faucci MT, Gines-Dorado JM, Bettinetti GP. Investigation of the effects of grinding and co-grinding on physicochemical properties of glisentide. J. Pharmceut. Biomed. 30: 227-237 (2002)   DOI   ScienceOn
15 Yang J, Sliva A, Banerjee A, Dave RN, Pfeffer R. Dry particle coating for improving the flowability of cohesive powders. Powder Technol. 158: 21-33 (2005)   DOI   ScienceOn
16 Lee MH, Baek MH, Cha DS, Park HJ, Lim ST. Freeze-thaw stabilization of sweet potato starch gel by polysaccharide gums. Food Hydrocolloid 16: 345-352 (2002)   DOI   ScienceOn
17 Hu J, Qin H, Sui Z, Lu H. Characteristic of mechanical milled $TiO_2$ powders. Mater. Lett. 53: 421-424 (2002)   DOI   ScienceOn
18 Peukert W. Material properties in the fine grinding. Int. J. Miner. Process 74S: S3-S17 (2004)
19 Benjamin JS. Dispersion strengthened superalloys by mechanical alloying. Metall. Trans. 1: 2943-2951 (1970)
20 Ragaee S, Abdel-Aal EM. Pasting properties of starch and protein in selected cereals and quality of their food products. Food Chem. 95: 9-18 (2006)   DOI   ScienceOn
21 Kouadri-Henni A, Azema N, Benhassaine A. Flowability of a mixture of two powders obtained by co-grinding, mixing, and surface treatment. Powder Technol. 103: 37-43 (1999)   DOI   ScienceOn
22 Tsai ML, Li CF, Lii CY. Effects of granular structures on the pasting behaviors of starches. Cereal Chem. 74: 750-757 (1997)   DOI   ScienceOn
23 Baek MH, Cha DS, Park HJ, Lim ST. Physicochemical properties of commercial sweet potato starches. Korean J. Food Sci. Technol. 32: 755-762 (2000)
24 Benjamin JS, Volin TE. The mechanism of mechanical alloying. Metall. Trans. 5: 1929-1934 (1974)   DOI
25 Wu YV, Doehlert DC. Enrichment of $\beta$-glucan in oat bran by fine grinding and air classification. Lebensm.-Wiss. Technol. 35: 30-33 (2002)   DOI   ScienceOn
26 Wongmekiat A, Tozuka Y, Oguchi T, Yamamoto K. Formation of fine drug particles by cogrinding with cyclodextrins: I. The use of beta-cyclodextrin anhydrate and hydrate. Pharm. Res. 19: 1867-1872 (2002)   DOI   ScienceOn
27 Morimoto H, Yamashita H, Tatsumisago M, Minami T. Mechanochemical synthesis of new amorphous materials of $60Li_2S40SiS_2$ with high lithium ion conductivity. J. Am. Ceram. Soc. 82: 1352-1354 (1999)   DOI   ScienceOn
28 Watanabe T, Wakiyama N, Usui F, Ikeda M, Isobe T, Senna M. Stability of amorphous indomethacin compounded with silica. Int. J. Pharm. 226: 81-91 (2001)   DOI
29 Asada H, Suzuki K. Influence of concentration, crosslinking level, and origin of starches on flow properties of gelatinized modified starch suspensions. Nihon Syokuhin Kougyou Gakk. 391: 929-933 (1992)
30 Sandhu KS, Singh N. Some properties of corn starches II: Physicochemical, gelatinization, retrogradation, pasting, and gel textural properties. Food Chem. 101: 1499-1507 (2007)   DOI   ScienceOn
31 Cho YS, Koch CC. Mechanical milling of ordered intermetallic compounds-the rule of defects in amorphization. J. Alloy Compd. 194: 287-294 (1993)   DOI   ScienceOn
32 French D. Organanization of Starch Granules. 2nd ed. Academic Press, New York, NY, USA. p. 183-247 (1984)